Storable exercise apparatus for professional and home use

Information

  • Patent Grant
  • 6669609
  • Patent Number
    6,669,609
  • Date Filed
    Tuesday, July 24, 2001
    23 years ago
  • Date Issued
    Tuesday, December 30, 2003
    21 years ago
Abstract
A storable exercise apparatus for home use. The apparatus includes an upright tower, a base structure, a bench frame, and a bench attached to the bench frame. A set of flexible pull lines coupled to a resilient spring system are carried within the tower structure. The user exercises by pulling the pull lines against the bias of the spring system. The grips for the pull lines are mounted at the top of the tower and generate significant tipping force on the tower when the apparatus is in use. To prevent tipping, the bench frame has pivotal and load-transmitting connections with the tower structure; the tower is stabilized by the weight of the user on the bench. The bench may be placed in either a raised or lowered position, and can be stored by collapsing and pivoting it so that it abuts the tower vertically.
Description




CROSS REFERENCES TO RELATED APPLICATIONS




Priority is claimed to related Taiwanese patent application 90201007, filed on Jan. 18, 2001, the contents of which are hereby incorporated by reference herein in their entirety.




BACKGROUND OF THE INVENTION




1. Field of the Invention




The present invention relates generally to exercise equipment for home use, and more particularly to home use exercise equipment allowing exercise motions in substantially any plane of motion.




2. Description of Related Art




Recently, there has been considerable emphasis on marketing exercise equipment that allows for an integrated approach to fitness. Such integrated exercise equipment allows a user to exercise multiple muscle groups using the same piece of equipment, and may support toning and range-of-motion exercises, rather than traditional strengthening or muscle building.




In particular, a type of exercise based upon a combination of yoga and dance movements has become popular. This type of exercise focuses almost entirely on a user's muscle tone and range-of-motion, emphasizing circular movements of the body and limbs during exercise. A variety of specialized exercise equipment has been developed to support these types of circular, free-form exercise movements. U.S. Pat. No. 4,850,586 to Horvath, for example, discloses an exercise apparatus that has resistive rotors as a primary component. These rotors provide resistance for circular movements in a variety of planes.




The apparatus of Horvath has been developed for professional environments, such as gyms and exercise studios. In professional settings, the Horvath apparatus typically includes a tower structure having a directional pulley system that allows the user to exert force against the resistive elements in the tower in arbitrary planes of motion. When a tower is used, the bench and rotor assembly of U.S. Pat. No. 4,850,586 is spaced some distance away from the tower while the user performs exercises. The force exerted by the user against the resistive elements in the tower tends to tip the tower in a forward direction, toward the user and the bench. This tipping force can be significant, as resistive elements or directional pulleys are often placed at the top of the tower and the bench is usually spaced at a relatively large distance from the tower.




The tower and bench are typically prevented from tipping by placing heavy counterweights to oppose the tipping force, or by providing the tower structure with large, heavy feet which add stability. Additionally, the tower usually uses free weights as resistive elements, and the weight provided by these free weights increases the stability of the tower.




The need to provide such a large, heavy tower in order to ensure stability has hindered efforts to successfully market the Horvath apparatus, which has thus far been used only by very specialized exercise studios. While a large, heavy piece of equipment may be acceptable for very specialized studios, which typically focus their business on that piece of equipment, such equipment is usually unacceptable to less specialized exercise studios and gyms, which must accommodate a variety of exercise equipment.




Additionally, people are most inclined to engage in a particular type of exercise if a version of the necessary exercise apparatus is available for home use. Typically, home use exercise equipment must be designed so that it is lightweight and storable, since the home user may not have a dedicated area for fitness, and may need to move the equipment and store it between exercise sessions. The size and weight of the typical Horvath apparatus precludes the average home user from owning one, because it is not especially portable and is relatively difficult to store.




Therefore, a relatively lightweight, storable version of the Horvath apparatus is needed. Such an apparatus would allow the Horvath exercise method and apparatus to reach nearly untapped consumer markets.




SUMMARY OF THE INVENTION




The present invention is a lightweight, portable exerciser. The exerciser comprises a frame assembly including a base structure and an upright structure fixed to the base structure and extending upwardly therefrom. The base structure has downwardly facing surfaces for engaging an upwardly facing surface to support the frame structure thereon. The base structure extends forwardly of the upright structure so that the upright structure cannot be tipped over forwardly except by the entire frame being tipped forwardly about the forward end of the base acting as a fulcrum.




The upright structure includes a pair of flexible exercising pull lines carried by the upright structure at an upper end portion thereof so as to extend downwardly and forwardly therefrom. Each of the pull lines has interconnecting structures configured to be interconnected by a user either with the user's hands or the user's feet.




The upright structure also carries an extensible and retractable spring system. The spring system is operatively connected to the pull lines so as to resiliently resist movement of the pull lines in a direction downwardly and forwardly from the upper end portion of the upright structure.




The exerciser also includes a bench assembly configured and positioned to support a user in a prone, supine or sitting position thereon so as to enable the user so positioned to interconnect with said user interconnecting structure and pull said pull lines downwardly and forwardly against the resilient resistance of the spring system. The resistance provided by the spring system provides the user with exercise while creating a force on the upper end portion of the upright structure. The force tends to tip the upright structure forwardly about the fulcrum provided by the forward end of the base structure.




The bench assembly includes a bench frame and a bench pad mounted on the bench frame for movement between a raised operative user supporting position spaced above the bench frame and a lowered operative position disposed adjacent to the bench frame. The bench frame includes an inner end portion which has a load transmitting connection with the base structure and an outer end portion extending forwardly beyond the forward end of the base structure. The outer end portion has downwardly facing surfaces for engaging the upwardly facing horizontal surface engaged by the downwardly facing surfaces of the base structure.




The load transmitting connection between the bench frame and the base structure is partitioned when the bench pad is within the raised or lowered operative position thereof so as to transmit a portion of the load defined by the weight of a user supported on the bench pad to the base structure at a position spaced inwardly of the forward end to provide additional tipping resistance. The load transmitting connection is also constructed and arranged to allow the bench frame and bench pad, when the lowered position, to be moved into a connected storage position wherein the bench pad and bench frame are upright alongside the upright structure.




Another aspect of the present invention is embodied in an exerciser having the features described above but without a load-transmitting connection between the bench frame and the base structure.











BRIEF DESCRIPTION OF THE DRAWINGS




The above and other objects, features and advantages of the present invention are further described in the detailed description which follows, with reference to the drawings, and by way of non-limiting exemplary embodiments of the present invention, wherein like reference numerals represent similar parts of the present invention throughout the several views and wherein:





FIG. 1

is a perspective view of a first embodiment of an exercise apparatus according to the present invention;





FIG. 2

is an exploded perspective view of the exercise apparatus of

FIG. 1

, showing the assembly of various components thereof;





FIG. 3

is a rear elevational view of the exercise apparatus of

FIG. 1

;





FIG. 4

is a side elevational view of the exercise apparatus of

FIG. 1

in the raised operative position;





FIG. 5

is a side elevational view of the exercise apparatus of

FIG. 1

in lowered operative position;





FIG. 6

is a top plan view of the exercise apparatus of

FIG. 1

in the raised operative position;





FIG. 7

is a top plan view of the exercise apparatus of

FIG. 1

in the lowered operative position;





FIG. 8

is a side elevational view of the exercise apparatus of

FIG. 1

in the connected storage position;





FIG. 9

is a top plan view of the exercise apparatus of

FIG. 1

in the connected storage position;





FIG. 10

is a front elevational view of the exercise apparatus of

FIG. 1

in the connected storage position;





FIG. 11

is a perspective view of the exercise apparatus of

FIG. 1

illustrating the range of motion of the swiveling directional pulley assemblies;





FIGS. 12-20

are various views illustrating the exercise apparatus of

FIG. 1

in use;





FIG. 21

is a perspective view of an exercise apparatus according to a second embodiment of the present invention;





FIG. 22

is a perspective view of the bench assembly of the exercise apparatus of

FIG. 21

in a raised operative position;





FIG. 23

is an exploded perspective view of the bench assembly of

FIG. 21

in a raised operative position, illustrating the attachment of accessories;





FIG. 24

is a side elevational view of the bench assembly in a collapsed position;





FIG. 25

is a side elevational view of the exercise apparatus of

FIG. 21

, illustrating a lower operative position;





FIG. 26

is a side elevational view of the tower structure of the exercise apparatus of

FIG. 21

without the bench assembly; and





FIG. 27

is a perspective view of the exercise apparatus of

FIG. 21

in a connected storage position.











DETAILED DESCRIPTION




Referring now more particularly to the drawings,

FIG. 1

shows an exercise apparatus according to a first embodiment of the present invention, generally indicated at


100


. The exercise apparatus


100


includes a frame assembly having a base structure


102


and an upright structure


104


fixed to the base structure


102


. The upright structure, or tower


104


, extends upwardly from the base structure


102


.




Two elongate, hollow tubular members


106


serve as the major component of the base structure


102


, connecting with the tower


104


at contoured contact surfaces


108


provided at the bottom of the tower


104


. The tubular members


106


are fixedly secured to the tower


104


by means of bolts


110


inserted through the tubular members


106


and contact surfaces


108


. The tubular members


106


extend outwardly to the rear of the tower


104


and in parallel forward of the tower


104


. The outward extension of the tubular members


106


behind the tower


104


provides the apparatus


100


with better stability. In general, the base structure


102


extends forwardly of the tower


104


such that the apparatus


100


cannot be tipped over forwardly except by the entire apparatus


100


being tipped forwardly about the forward end of the base structure


102


(i.e., tipped about the forward ends of the tubular members


106


). Each tubular member


106


is provided with rubberized endcaps


112


to prevent slipping on smooth or polished floor surfaces.




The tower


104


includes a set of flexible exercising pull lines


112


, the pull lines


112


directed by swiveling directional pulley assemblies


114


to extend downwardly and forwardly from the tower


104


when in use. The pull lines


112


terminate in user interconnect, or grip, assemblies


128


. The grip assemblies


128


in this embodiment include a set of nested nylon loops


129


connected to the pull lines


112


by means of metal rings


127


. The grip assemblies


128


are suitable for either a user's hands or feet.




The pull lines


112


are coupled to a retractable spring system, generally indicated at


116


. The spring system


116


is comprised of two identical spring sub-assemblies


118


. Each sub-assembly


118


is comprised of three springs


120


connected to a connecting plate


122


. In each sub-assembly


118


, pull lines


112


run between a first pulley set


124


connected to the connecting plate


122


and a second pulley set


126


proximate to the top of the tower


104


before running into the directional pulley assemblies


114


. The structure and function of the spring system


116


will be further described below.




In this embodiment, a lower set of directional pulleys


114


and a lower set of grip assemblies


128


are provided on a lower portion of the tower


104


. The first and second pulley sets


124


,


126


of this embodiment are double pulley sets, and the pull lines


112


and pulley sets


124


,


126


are constructed and arranged such that each spring sub-assembly


118


provides resistance for an upper and a lower set of grip assemblies


128


(e.g., the left-side spring sub-assembly provides resistance for the left-side upper and left-side lower grip assemblies


128


).




The apparatus


100


also includes a bench assembly, generally indicated at


130


, configured and positioned to support a user in a prone, supine or sitting position so as to enable the user to use the grips


128


to pull the pull lines


112


. The bench assembly


130


includes a bench


136


and bench pad


138


connected to a bench frame


178


,


166


,


168


,


172


. The bench


136


is moveable between a raised operative user supporting position and a lowered operative position in which the bench pad


138


and bench


136


are disposed adjacent to the bench frame


178


,


166


,


168


,


172


. In

FIG. 1

, a removable chest and back support


132


for supporting a user in sitting positions is also shown. The removable chest and back support


132


is connected to the bench frame by means of two receptacles


134


, one receptacle extending from the bench frame


140


on either side of the bench


136


.




The bench assembly


130


has a load transmitting connection to the base structure


102


. This load transmitting connection allows the weight of a user to be transmitted to the tubular members


106


, thus stabilizing the tower and preventing the tower


104


from tipping forward when the exercise apparatus is in use. The load transmitting connection is formed by a crossbrace


142


that connects the forward portion of the two tubular members


106


with a corresponding crossmember


144


of the bench assembly


130


. The crossbrace


142


has a threaded hole


186


formed through its center, and a corresponding hole is formed in the corresponding crossmember


144


. A threaded rod


146


having a user manipulable knob attached to one end forms a rigid, removable connection between the crossbrace


142


and the crossmember


144


, and thus, between the bench assembly


130


and the tubular members


106


of the tower structure


104


.




The bench assembly


130


is constructed and arranged to be moved into a connected storage position with respect to the tower


104


when not in use. The movement of the bench assembly


130


into this connected storage position is facilitated by a pivotal connection between the two tubular members


106


of the base structure


102


and the bench assembly


130


at a pivot-crossbrace


148


. The connected storage position will be described below.





FIG. 2

is an exploded perspective view of the exercise apparatus


100


. Preferably, the apparatus


100


is constructed and arranged to be disassembled and reassembled to facilitate manufacturing and shipping processes.

FIG. 2

presents one exemplary way in which the exercise apparatus


100


may be disassembled for shipping. In

FIG. 2

, the tubular members


106


have been disconnected from the tower structure


104


, allowing the bench assembly


130


to be removed. The bench


130


can then be collapsed, and the disconnected structures


104


,


106


,


130


,


142


shipped in a relatively compact and flat shipping container.

FIG. 2

also illustrates the connection between the tower


104


and the tubular members


106


; in particular, the hole


150


is provided in the inwardly-facing surface of each of the tubular members


106


to accommodate the pivot-crossbrace


148


when the exercise apparatus


100


is assembled.





FIG. 3

is a rear elevational view of the assembled exercise apparatus


100


with the bench assembly


130


in the raised operative user supporting position. The spring system


116


and each of its two sub-assemblies


118


are shown in this figure. In this embodiment, each spring


120


is a metallic tension spring with a full loop at each end. However, it is contemplated that the function of the springs


120


may be performed by an elastomeric strap, an elastic cord or any other elastic, extensible, resilient member. The springs


120


are attached with S-hooks


154


at their lower ends to a flange


152


welded to a lower portion of the tower


104


and by S-hooks


154


at their upper ends to the connecting plates


122


. The connecting plates


122


are pivotally connected to the first pulley sets


124


by pivoting bolted connections


156


.




In the exercise apparatus


100


, several pegs


160


are fixedly mounted to a tower crossmember


158


, which is fixed to the tower


104


at approximately the level of the tops of the springs


120


. The resistive force provided by each of the spring sub-assemblies


118


can be adjusted by detaching one or more of the springs


120


from the S-hooks


154


that connect them to the connecting plate


122


. Springs


120


that are detached from the connecting plate


122


can be temporarily stored by placing the end of the spring on one of the pegs


160


. Preferably, the user removes only the center spring


120


from the each connecting plate


122


so that the connecting plate


122


remains balanced, but because the connecting plate


122


is pivotally mounted for rotation about an axis defined by the bolted connection


156


, a user may remove either one or two springs from each of the spring sub-assemblies


118


and continue to use the apparatus


100


with a commensurately reduced amount of resistance. Alternately, a user may choose to reduce or increase the resistance provided by only one of the spring sub-assemblies


118


, for instance, to compensate for a strength imbalance in the limbs or an injury to a particular limb.




The exercise apparatus


100


uses a total of two pull lines


112


; a single pull line runs from each spring sub-assembly


118


to the upper and lower grip assemblies


128


served by that assembly. One end of the pull line


112


is attached to the grip structure


128


and the upper directional pulley


114


. From the upper directional pulley


114


, the pull line extends through the first pulley set


124


, and from the first pulley set


124


to the second pulley set


126


. The pull line


112


then extends from the second pulley set


126


to the lower directional pulley


114


, terminating at the grip assemblies


128


. The arrangement of the first and second pulley sets


124


,


126


and the pull lines


112


allows the user to use both the upper and lower grip assemblies


128


that are attached to the same spring sub-assembly simultaneously. The arrangement of the pulleys


124


,


126


and pull lines


112


also provides the user with a significant mechanical advantage against the resistive bias of the spring sub-assemblies; therefore, relatively stiff springs (i.e., springs having a large spring constant) may be used to provide adequate resistance for some exercises.




Referring to

FIG. 4

, the apparatus


100


may include exercise rotor assemblies


200


as disclosed in U.S. Pat. No. 4,850,586 to Juliu Horvath and Taiwanese patent application No. 90201007, both of which were incorporated by reference above. These rotor assemblies


200


are constructed so as to be removably attached to the bench assembly


130


at the rectangular member


178


. In this embodiment, the rectangular member


178


is a hollow tubular member, and the terminus of the rotor assembly's connecting arm


202


may be inserted therein to form an interference fit, thus securing the rotor assemblies


200


to the bench assembly


130


. If the rotor assemblies


200


are not attached to the bench assembly


130


, the rectangular member


178


may be provided with plastic or rubber endcaps.




As is shown in

FIGS. 1 and 2

, the bench assembly


130


includes two generally parallel floor-contact members


162


that extend from the pivot-crossbrace


148


to the end crosspiece


164


, forming a rigid, rectangular frame in contact with the floor. Three legs


166


are pivotally connected between the floor-contact members


162


and the bench


136


.




The arrangement of the legs


166


is better illustrated in

FIG. 4

, a side elevational view of the apparatus


100


with the bench


136


in the raised operative position. Two of the legs


166


are shown in FIG.


4


. The bench assembly


130


also includes an extendable and retractable fourth leg


168


which is used as a locking mechanism to retain the bench assembly


130


in the upper and lower operative positions, respectively. The fourth leg


168


is pivotally connected between one of the floor contact members


162


and the bench


136


, and is positioned so as to be the same length as the other three legs


166


in the raised operative position. However, as is shown in

FIG. 4

, the fourth leg


168


is attached to the floor contact members


162


and bench


136


at a different angle than the other legs


166


. The angular offset of the attachment point of the fourth leg


168


substantially prevents the bench assembly


130


from moving between the raised and lowered operative positions unless the length of the fourth leg


168


is changed.




The fourth leg


168


is comprised of two hollow tubular members, an outer tubular member


170


and an inner tubular member


172


mounted concentrically within the outer member


170


. The length of the fourth leg


168


changes when the inner tubular member


172


slides relative to the outer tubular member


170


. The fourth leg


168


can be fixed at either a raised-position length or a lowered-position length by inserting a pin


174


through one of two sets of co-linear holes


176


formed through the diameter of the leg


168


.





FIG. 5

illustrates the lowered operative position of the bench assembly


130


. To move the bench assembly


130


from the raised operative position to the lower operative position, the user first removes the pin


174


from the fourth leg


168


. Next, the user pushes the bench assembly


130


in a forward direction (as indicated by the arrow), causing the fourth leg


168


to extend and the bench


136


to collapse, thus establishing the lower operative position of the bench assembly


130


. Finally, the user may secure the bench assembly


130


in the lower operative position by re-inserting the pin


174


into a second set of holes


176


in the fourth leg


168


.





FIGS. 6 and 7

are top plan views of the apparatus


100


with the bench assembly


130


in the raised operative and lowered operative positions, respectively. The bench


136


is shown in phantom in both views. The angle and position of attachment of the three inextensible legs


166


and the fourth leg


168


are visible in FIG.


6


.

FIG. 7

, in particular, illustrates the extension of the fourth leg


168


.




As shown in

FIGS. 4

,


6


, and


7


, the bench


136


is supported in the lower operative position by two rectangular members


178


which extend downwardly from the bench


136


at each end. Each of the rectangular members


178


is equipped with a set of rubber feet


180


which contact the floor.




If the exercise apparatus


100


is to be placed in its connected storage position, the user first places the bench assembly


130


in the lower operative position of FIG.


4


and then unscrews the threaded rod


146


that connects the crossbrace


142


of the bench assembly


130


with the corresponding crossmember


144


of the tower. With the pin


174


inserted into the fourth leg


168


to fix the bench assembly in the collapsed position, the user lifts the forward end of the bench assembly


130


, thus rotating it about the pivot-crossbrace


148


in a counterclockwise direction until it extends vertically, abutting the tower


104


. This position is illustrated in the side elevational view of FIG.


8


.




In

FIG. 8

, a pin


182


which hangs from the forward end of the bench has been inserted into a hole formed in one of the vertical members


184


of the tower


104


. When so inserted, the pin


182


retains the exercise apparatus


100


in the connected storage position by retaining the bench apparatus


130


in its vertical position.





FIG. 9

is a top plan view of the exercise apparatus


100


in its connected storage position. As is shown in this Figure, the bench assembly


130


extends vertically, abutting the tower


104


.

FIG. 9

also clearly illustrates the reduced space requirements of the apparatus


100


in the connected storage position—only the tubular members


106


extend beyond the tower


104


. The tubular members


106


are connected by the crossbrace


142


.





FIG. 10

is a front elevational view of the apparatus


100


in the connected storage position. The underside of the bench


136


is visible, along with the hanging members


178


, and the rubber feet


180


. As is shown in

FIG. 10

, the knob and threaded rod


146


may be retained in the corresponding crossmember


144


.




The exercise apparatus


100


can provide resistive bias in an arbitrary plurality of planes to support exercise motions. The ability to provide resistive bias in an arbitrary plurality of planes is provided by the swiveling directional pulley assemblies


114


on the upper and lower portions of the tower


104


. As a user pulls one of the grip assemblies


128


attached to the pull lines


112


in an arbitrary direction, the corresponding directional pulley assembly


114


swivels, thus providing resistance in that plane (i.e., that line of motion).

FIGS. 9 and 11

illustrate the range of motion of the swiveling directional pulley assemblies


114


.





FIGS. 12-20

illustrate certain exemplary exercises that may be performed using the exercise apparatus


100


. A user, generally indicated in these Figures by the letter P, may pull either of the upper or lower grip assemblies


128


with either arms or legs in any direction within the range of motion of the swiveling directional pulley assemblies


114


. Depending on the particular exercise as well as the user's preferences, the chest/back support


132


may be installed in the receptacle


134


to assist the user P in achieving proper posture or positioning. If the rotor assemblies


200


are installed, the user P may actuate one of these with either a hand or a foot, and may also hold one of the grip assemblies


128


with that hand or foot while using the rotor assembly


200


, thus providing additional resistive bias for the circular movements supported by the rotor assemblies


200


.




In

FIG. 12

, the user P is depicted in a partially supine position, pulling the lower grip assemblies


128


with his or her feet. Following the position shown, the user P may either directly return to a fully supine position, allowing the pull line


112


and grip assembly


128


to retract, or he or she may pull the feet up into a vertical position before returning to the fully supine position.





FIG. 13

shows the user P in a sitting position, facing away from the tower


104


. In this exercise, the user P pulls the lower grip assemblies


128


with the hands, making thrusting motions with the arms. The chest/back support


132


(not shown in

FIG. 13

) may be installed for this exercise. Note that the movement of the user's arms is not coincidental in this exercise. Consequently, the movement of the grips


128


and pull lines


112


is not coincidental, and therefore, the movement of the two spring sub-assemblies


118


is not coincidental. (In

FIG. 13

, the springs


120


of the two sub-assemblies have different extended lengths, and therefore, the first pulley sets


124


of the sub-assemblies


118


are shown at different heights.) The independent movement of each spring sub-assembly


118


allows the user P to perform the illustrated exercise at a rate and resistance level appropriate for each arm.





FIG. 14

shows the user P lying in a prone position on the bench pad


138


, gripping the lower grip assemblies


128


with the hands. The exercise illustrated in

FIG. 14

involves swim-like motions—the user P makes circular, overhand motions with the arms while concurrently “kicking” the legs. As in the exercise of

FIG. 13

, the motions of the arms are not concurrent, and consequently, the two spring sub-assemblies


118


have different extended lengths.




In

FIG. 15

, the user P is shown performing an exercise somewhat similar to the exercise illustrated in FIG.


13


. As shown in

FIG. 15

, the user P is facing the tower


104


and gripping the upper grip assemblies


128


with the hands. The illustrated exercise also involves thrusting motions of the arms, but the use of the upper grip assemblies forces the user P to exercise the arms in a different line-of-motion, thereby placing different forces upon the muscles of the arms.




In the exercise illustrated in

FIG. 16

, the user P lies on the bench pad


38


with his or her head towards the tower


104


and pulls the upper grip assemblies


128


with his or her feet, making circular “bicycling” movements with the feet.




In

FIG. 17

, the user P is performing a resistively-biased version of the yoga “cobra stretch.” The user P lies in generally prone position on the bench pad


138


with his or her head facing away from the tower


104


, and extends his or her arms towards the tower


104


, gripping the grip assemblies


128


with the hands.





FIG. 18

illustrates the user P lying supine on the bench pad


38


and performing leg exercises using the upper set of grip assemblies


128


. The user P's legs are elevated above the bench pad


138


, and he or she makes circular motions from the hip.




In the exercise shown in

FIG. 19

, the user P lies essentially prone on the bench pad


138


and rotates the handles


204


of the rotor assemblies


200


with his or her feet. The upper grip assemblies


128


have been attached to the handles of the rotor assemblies


204


(i.e., looped over the rotor assembly handles


204


) to provide the user P with additional resistive bias as the rotor assemblies


200


are rotated. This configuration of the upper grip assemblies


128


and the rotor assemblies


200


may also be used for a variety of exercises in which the user P rotates the rotor assemblies


200


with the hands; if the user P performs rotor exercises with the hands, he or she may either hold the grip assemblies


128


or attach them to the handles


204


of the rotor assemblies


200


(as is illustrated in FIG.


19


).





FIG. 20

shows the exercise apparatus


100


in use with the bench assembly


130


in the lower operative position. In the exercise of

FIG. 20

, the user P pulls the lower grip assemblies


128


with his or her hands. The exercise illustrated in

FIG. 20

is only one of a number of exercises that may be performed with the bench assembly


130


in the lower operative position; one advantage of the lower operative position is that it provides the user P with a padded surface for floor-based exercises.





FIG. 21

is a perspective view of an exercise apparatus


300


according to a second embodiment of the present invention. In the exercise apparatus


300


, the tower structure


304


and bench assembly


330


are constructed and arranged to be used while disconnected from one another. To prevent the tower


304


from tipping while in use, a set of weight plates


305


is mounted between the tubular members


306


rearward of the tower structure


304


.




Although the tower structure


304


and bench assembly


330


are constructed and arranged to be used while disconnected from one another, the exercise apparatus


300


may be placed in raised and lowered operative positions and a connected storage position similar to that of the apparatus


100


. In order to hold the bench assembly


330


in the connected storage position, the base structure


302


of the apparatus


300


includes two tubular cradle members


350


, one tubular cradle member


350


attached to each of the tubular members


306


and projecting inwardly therefrom. The connected storage position of the exercise apparatus


300


will be discussed in more detail below. With the exception of the weight plates


305


and tubular cradle members


350


, the tower structure


304


of the exercise apparatus


300


is identical to the tower structure


104


of the exercise apparatus


100


, therefore, the discussion presented above with respect to the tower structure


104


will suffice to describe the tower structure


304


.





FIG. 22

is a perspective view of the bench assembly


330


in its raised operative position. The bench assembly


330


is similar to bench assembly


130


in that it comprises a bench pad


338


and bench


336


connected to a floor contact member


362


by means of legs


366


. The bench assembly


330


also includes an extendable and retractable fourth leg


368


which is used as a locking mechanism to retain the bench


336


in the raised and lowered operative positions, respectively.




In bench assembly


330


, a single, central floor contact member


362


is provided, extending in a direction parallel to that of the bench


336


proximate to floor level. Two crosspieces


364


,


365


are fixedly connected to and extend in a direction perpendicular to the central floor contact member


362


. One crosspiece


364


is fixedly connected to one of the terminal ends of the central floor contact member


362


; the other crosspiece


365


is fixedly connected to the central floor contact member


362


just adjacent to the other terminal end of the central floor contact member


362


. The ends of the crosspieces


364


,


365


and the central floor contact member


362


are each provided with rubberized endcaps


312


to prevent slipping. Two legs


366


are pivotally mounted on the crosspiece


365


for rotation between the central floor contact member


362


and the bench


336


, one leg


366


on each side of the central floor contact member


362


. A third leg


366


is pivotally mounted between the central floor contact member


362


and the bench frame


336


at the opposite end of the central floor contact member


362


. The extendable and retractable fourth leg


368


is pivotally mounted for rotation between the bench


336


and the central floor contact member


362


. As in the bench assembly


130


, the bench assembly


330


cannot be moved between the raised and lowered operative positions unless the length of the extendable and retractable fourth leg


362


is changed. The fourth leg


362


is held in position by a pin


374


inserted through holes


176


through the members of the leg.





FIG. 23

is an exploded perspective view of the bench assembly


330


in its raised operative position, illustrating the attachment of the rotor assemblies


200


and the removable chest and back support


332


. As shown, the connecting arm


204


of the rotor assemblies


200


inserts into the tubular, hollow rectangular member


378


at the forward end of the bench assembly


330


. As in bench assembly


130


, the tubular, hollow rectangular member


378


is fixedly attached to the underside of the bench


336


, and may be provided with endcaps for use if the rotors


200


are not installed. In the bench assembly


330


, rubber feet


380


are not installed on the tubular, hollow rectangular member; rather, they are installed on a separate tubular post


381


which projects downwardly from the underside of the bench


336


.




In bench assembly


330


, the removable chest and back support


332


mates with a pair of receptacles


334


. The removable chest and back support


332


is of adjustable height in this second embodiment; it has a number of holes


376


drilled along the lengths of its tubular members


377


and a pair of pins


375


are inserted into the holes


376


to hold the removable chest and back support at a particular height.




As shown in

FIGS. 22 and 23

, the bench assembly


330


also includes a hanging crossbar


348


which fits into the tubular cradle members


350


of the tower structure


304


when the bench assembly is placed into either the lower operative or the connected storage positions. To establish the connected storage position of the apparatus


300


, the user places the bench assembly


330


in the lower operative position with the hanging crossbar


348


inserted into the tubular cradle members


350


and then rotates the bench assembly


330


about the hanging crossbar


348


until the bench assembly


330


extends vertically, in parallel with the tower


304


.





FIG. 24

is a side elevational view of the bench assembly in a collapsed position. Note that the hanging crossbar projects from the underside of the bench


336


such that it is proximate to floor level.

FIG. 25

is a side elevational view illustrating the lower operative position of the exercise apparatus


300


. In

FIG. 25

, a user P is facing away from the tower structure


304


with the removable chest and back rest


332


installed and pulling the lower grip assemblies


128


using the legs.





FIG. 26

is a side elevational view of the tower structure


304


without the bench assembly


330


. One particular advantage of the second embodiment of the present invention is that the user P may perform exercises using only the tower structure


304


, without the bench assembly


330


. As illustrated in

FIG. 26

, this is particularly advantageous for exercises (arm exercises, in

FIG. 26

) that require the user P to be close to the tower.





FIG. 27

is a perspective view of the apparatus


300


in the connected storage position. In this position, the hanging crossbar


348


rests within the tubular cradle members


350


, while the collapsed bench assembly


330


extends in parallel to the tower


304


. The handles


204


of the rotor assemblies


200


have been rotated so that they also extend in parallel to the tower


304


. As shown in

FIG. 27

, a pin


382


is used to retain the apparatus


300


in the connected storage position.




It will thus be seen that the objects of this invention have been fully and effectively accomplished. It will be realized, however, that the foregoing preferred specific embodiments have been shown and described for the purpose of illustrating the functional and structural principles of this invention and are subject to change without departure from such principles. Therefore, this invention includes all modifications encompassed within the spirit of the following claims.



Claims
  • 1. An exerciser comprising:a frame assembly including a base structure and an upright structure fixed to said base structure and extending upwardly therefrom, said base structure having downwardly facing surfaces for engaging an upwardly facing surface to support the base structure thereon, said base structure extending forwardly of said upright structure so that said upright structure cannot be tipped over forwardly except by the entire frame assembly being tipped forwardly about the forward end of said base structure acting as a fulcrum on the support surface upwardly facing, said upright structure including an upper pair of left and right flexible exercising pull lines carried by said upright structure at an upper end portion thereof so as to extend therefrom downwardly and forwardly, and a lower pair of left and right flexible exercising pull lines carried by said upright structure at a lower end portion thereof so as to extend therefrom downwardly and forwardly or upwardly and forwardly, said upper and lower pairs of pull lines being (1) trained over left and right upper and lower horizontally swingable sets of directional pulleys fixedly attached at upper and lower ends of said upright structure and (2) having user interconnecting structures configured to be interconnected by a user either with the user's hands or the user's feet so as to be pulled by the user in substantially any plane of motion, thereby allowing the user to perform toning and range of motion exercises, an extensible and retractable resilient resistance system carried by said upright structure and operatively connected to said flexible pull lines so as to separately, resiliently resist movement of the left of said upper and lower pull lines and the right of said upper and lower pull lines from the upper and lower end portions of said upright structure, respectively; and a bench assembly configured and positioned to support a user in a prone, supine or sitting position thereon so as to enable the user so positioned to interconnect with said user interconnecting structure and pull said pull lines against said resilient resistance, said bench assembly including a bench frame and a bench pad mounted on said bench frame for movement between a raised operative user supporting position spaced above said bench frame, a lowered operative position disposed adjacent said bench frame and a storage position wherein said bench assembly is connected alongside said upright structure.
  • 2. The exerciser of claim 1, wherein said extensible and retractable resilient resistance system includes three left springs connected with the left of said upper and lower pairs of pull lines by a left pulley system and three right springs connected with the right of said upper and lower pairs of pull lines by a right pulley system, said three left and three right springs being connected at low ends thereof (1) to a moveable left or right pulley assembly of the left or right pulley systems respectively, or (2) to said upright structure.
  • 3. The exerciser of claim 2, wherein said three left and three right springs are constructed and arranged to independently resist force applied to said user interconnect structures.
  • 4. The exerciser of claim 2, wherein one of each of said upper and said lower pairs of pull lines form ends of the same pull cord.
  • 5. The exerciser of claim 2, wherein the left upper and left lower pair of pull lines form ends of the same pull cord, and wherein the right upper and right lower pair of pull lines form ends of the same pull cord.
  • 6. The exerciser of claim 2, wherein said base structure further comprises a set of weight plates constructed and arranged to prevent said upright structure from being tipped forwardly or backwardly during use.
  • 7. The exerciser of claim 2, wherein said base structure further comprises a set of cradle members constructed and arranged to support and retain said bench assembly in the storage position.
  • 8. The exerciser of claim 7, wherein said bench frame further comprises:a lower bench frame including a central floor-contact support member and two crossmembers fixedly attached to said central floor-contact support member; an upper bench frame supporting said bench pad, said upper bench frame including floor contact feet, said floor contact feet directly supporting said bench pad when said bench assembly is placed in the lowered operative position; three legs pivotally mounted to rotate about generally parallel leg axes between said lower bench frame and said upper bench frame, the rotation about said generally parallel leg axes moving said bench pad between said raised operative user supporting position and said lowered operative position; a hanging crossbar fixedly attached to said upper bench frame, said hanging crossbar constructed and adapted to rest within said cradle members, forming a pivotal hinge axis with said cradle members, said pivotal hinge axis positioned and arranged such that said bench assembly is rotated about said pivotal hinge axis such that it extends parallel to said upright structure, thus establishing the storage position of the bench assembly; and a locking mechanism constructed and arranged to releasably retain said bench frame in either of said raised or lowered operative positions.
  • 9. The exerciser of claim 8 wherein said bench frame further comprises:a set of accessory receptacles connected to said upper bench frame; and a user support structure constructed and arranged to be removably inserted into said accessory receptacles such that said user support structure is positioned above said bench pad to support a user in said sitting position.
  • 10. The exerciser of claim 9 wherein said locking mechanism comprises an extendable and retractable leg pivotally mounted between said upper bench frame and said lower bench frame such that said bench pad cannot be moved between said raised and lowered operative positions except by a change in length of said extendable and retractable leg.
  • 11. The exerciser of claim 10 wherein said extendable and retractable leg comprises a first hollow tubular member and a second hollow tubular member concentrically and slidably mounted within said first hollow tubular member,said extendable and retractable leg moveable between a first length corresponding to said raised operative position and a second length corresponding to said lowered operative position, said extendable and retractable leg having first and second holes formed through the diameters of said first and second hollow tubular members, said first hole accessible when said extendable and retractable leg is at said first length and said second hole accessible when said extendable and retractable leg is at said second length, wherein said extendable and retractable leg is retained at said first length by placement of a pin in said first hole, and is retained at said second length by placement of a pin in said second hole.
  • 12. The exerciser of claim 11, wherein the exerciser further comprises:a set of rotor attachment sockets connected to said upper bench frame; and a set of rotor assemblies constructed and arranged to be removably attached to said rotor attachment sockets, said rotor assemblies including a set of rotor bases and a set of rotor handles grippable by a user and moveable through substantially 360 degrees to exercise the user's body.
  • 13. An exerciser comprising:a frame assembly including a base structure and an upright structure fixed to said base structure and extending upwardly therefrom, said base structure having downwardly facing surfaces for engaging an upwardly facing surface to support the base structure thereon, said base structure extending forwardly of said upright structure so that said upright structure cannot be tipped over forwardly except by the entire frame being tipped forwardly about the forward end of said base structure acting as a fulcrum on said upright, said upright structure including upper and lower flexible exercising pull lines trained over directional pulley assemblies, said directional pulley assemblies pivotally mounted on said upright structure at upper and lower end portions for rotation about pivotal directional pulley axes, said flexible pull lines extending downwardly or upwardly and forwardly from said directional pulley assemblies, and having user interconnecting structures configured to be interconnected by a user either with the user's hands or the user's feet, an extensible and retractable resilient resistance system carried by said upright structure and operatively connected to said flexible pull lines so as to resiliently resist movement of said pull lines in directions downwardly or upwardly and forwardly from the end portions of said upright structure, a bench assembly configured and positioned to support a user in a prone, supine or sitting position thereon so as to enable the user so positioned to interconnect with said user interconnecting structure and pull said pull lines downwardly or upwardly and forwardly against said resilient resistance which pull provides the user exercise while creating a force on the upper or lower end portions of said upright structure which tends to tip the upright structure forwardly about the fulcrum provided by the forward end of said base structure, said bench assembly including a bench frame and a bench pad mounted on said bench frame for movement between a raised operative user supporting position spaced above said bench frame and a lowered operative position disposed adjacent said bench frame, said bench frame including an inner end portion having a load transmitting connection with said base structure and an outer end portion extending forwardly beyond the forward end of said base structure having downwardly facing surfaces for engaging the upwardly facing horizontal surface engaged by the downwardly facing surfaces of said base structure, the load transmitting connection of said bench frame with said base structure being (1) partitioned when said bench pad is within the raised or lowered operative position thereof so as to transmit a portion of the load defined by the weight of a user supported on said bench pad to said base structure at a position spaced inwardly of the forward end thereof to thereby provide additional forward tipping resistance to said frame structure and (2) constructed and arranged to allow the bench frame and said bench pad, when in said lowered position thereof to be moved into a connected storage position wherein said bench pad and bench frame are upright alongside said upright structure.
  • 14. The exerciser of claim 13, wherein said extensible and retractable resilient resistance system includes three left springs connected with the left of said upper and lower pull lines by a left pulley system and three right springs connected with the right of said upper and lower pull lines by a right pulley system, said three left and three right springs being connected at low ends thereof (1) to a moveable left or right pulley assembly of the left or right pulley systems respectively, or (2) to said upright structure.
  • 15. The exerciser of claim 14, wherein said three left and three right springs are constructed and arranged to independently resist force applied to said user interconnect structures.
  • 16. The exerciser of claim 15, wherein one of each of said upper and lower pull lines form ends of the same pull cord.
  • 17. The exerciser of claim 14, wherein said bench frame further comprises:a lower bench frame including two generally parallel floor-contact support members and a plurality of crossbraces; an upper bench frame supporting said bench pad, said upper bench frame including floor contact feet, said floor contact feet directly supporting said bench pad when said bench assembly is placed in the lowered operative position; three legs pivotally mounted to rotate about generally parallel leg axes between said lower bench frame and said upper bench frame, the rotation about said generally parallel leg axes moving said bench pad between said raised operative user supporting position and said lowered operative position; and a locking mechanism constructed and arranged to releasably retain said bench frame in either of said raised or lowered operative positions; wherein the load-transmitting connection between said base structure and said bench frame is established by a user-adjustable bolted connection between one of said plurality of crossbraces of said lower bench frame and a corresponding crossbrace of said base structure; and wherein another of said plurality of crossbraces is connected to and forms a pivotal hinge axis with said base structure, said pivotal hinge axis positioned and arranged such that said bench assembly is rotated about said pivotal hinge axis such that it extends parallel to said upright structure, thus establishing the storage position of the bench assembly.
  • 18. The exerciser of claim 17 wherein said bench frame further comprises:a set of accessory receptacles connected to said upper bench frame; and a user support structure constructed and arranged to be removably inserted into said accessory receptacles such that said user support structure is positioned above said bench pad to support a user in said sitting position.
  • 19. The exerciser of claim 18, wherein the exerciser further comprises:a set of rotor attachment sockets connected to said upper bench frame; and a set of rotor assemblies constructed and arranged to be removably attached to said rotor attachment sockets, said rotor assemblies including a set of rotor bases and a set of rotor handles grippable by a user and moveable through substantially 360 degrees to exercise the user's body.
  • 20. The exerciser of claim 19 wherein said locking mechanism comprises an extendable and retractable leg pivotally mounted between said lower bench frame and said upper bench frame such that said bench pad cannot be moved between said raised and lowered operative positions except by a change in length of said extendable and retractable leg.
  • 21. The exerciser of claim 20 wherein said extendable and retractable leg comprises a first hollow tubular member and a second hollow tubular member concentrically and slidably mounted within said first hollow tubular member,said extendable and retractable leg being moveable between a first length corresponding to said raised operative position and a second length corresponding to said lowered operative position, said extendable and retractable leg having first and second holes formed through the diameters of said first and second hollow tubular members, said first hole being accessible when said extendable and retractable leg is at said first length and said second hole being accessible when said extendable and retractable leg is at said second length, and wherein said extendable and retractable leg is retained at said first length by placement of a pin in said first hole, and is retained at said second length by placement of a pin in said second hole.
  • 22. An exerciser comprising:a frame assembly including a base structure and an upright structure fixed to said base structure and extending upwardly with respect thereto, said base structure having downwardly facing surfaces for engaging an upwardly facing surface to support the base thereon, said base structure extending forwardly of said upright structure so that said upright structure cannot be tipped over forwardly except by the entire frame assembly being tipped forwardly about the forward end of said base structure acting as a fulcrum on the upwardly facing support surface, said upright structure including separate left and right upper flexible exercising pull lines trained over separate left and right upper pulley assemblies mounted on said upright structure at left and right upper end portions thereof, said upright structure including left and right lower flexible exercising pull lines trained over separate left and right lower pulley assemblies mounted on said upright structure at left and right lower positions thereon below the left and right upper end portions thereof, left and right hand grips constructed and arranged (1) to be connected to said left and right upper pull lines and to be operatively engaged by a user to pull the left and right upper pull lines downwardly and forwardly and (2) to be connected to said left and right lower pull lines and to be operatively engaged by a user to pull the left and right lower pull lines upwardly or downwardly and forwardly, a bench assembly constructed and arranged to be moved with respect to said frame assembly between an upright storage position along side said upright structure and an operative position extending forwardly of said upright structure, a resilient resistance system carried by said frame assembly constructed and arranged (1) to be operatively connected to said left and right lower pull lines so as to resiliently resist movement of either or both of said left and right pull lines by a user supported on said bench assembly while in the operative position thereof and operatively engaging appropriate hand grips to effect movement of either or both of said left and right pull lines upwardly or downwardly and forwardly, and (2) to be connected to said left and right upper pull lines so as to resiliently resist movement of either or both of said left and right upper pull lines by a user operatively engaging appropriate hand grips to effect a downward and forward movement of said left and right upper pull lines to thereby establish a downwardly and forwardly directed force or forces acting on the upper end portion of said upright structure tending to tip the entire frame assembly about the base structure fulcrum, selectively operable fastener structure constructed and arranged to (1) when in a first mode to allow said bench assembly to be moved into said storage position, and (2) when in a second mode to fixedly secure said bench assembly in an operative position wherein an inner end portion of said bench assembly is fixedly secured with said frame assembly inwardly of said base structure fulcrum and an outer end portion of said bench assembly has a downwardly facing surface disposed in engagement with the upwardly facing support surface at a portion spaced forwardly of said base structure fulcrum, the fixed securement and positioning of said bench assembly with respect to said frame assembly when in said operative position being such as to stabilize said upright structure and prevent the frame assembly from tipping on said base structure fulcrum in response to said downwardly and forwardly directed forces acting on the upper end portion of said upright structure.
  • 23. An exerciser as defined in claim 22 wherein said bench assembly is mounted for movement between said storage position and said operative position by a pivotal connection.
  • 24. An exerciser as defined in claim 23 wherein said pivotal connection is disposed on said base structure between said upright structure and the forward end of said base structure.
  • 25. An exerciser as defined in claim 24 wherein said bench assembly includes a bench frame and a bench pad, mounted on said bench frame for movement, said bench pad being disposed above said bench frame when said bench assembly is in said operative position and being moveable from said operative position into a second lower position disposed adjacent said bench frame.
  • 26. An exerciser as defined in claim 22 wherein said resilient resistance system includes a left series of elongated, extensible and retractable resilient resistance elements for said left pull lines and a right series of elongated, extensible and retractable resilient resistance elements for said right pull lines.
  • 27. An exerciser as defined in claim 26 wherein said resistance elements are tension coil springs.
  • 28. An exerciser as defined in claim 27 wherein each of said pulley assemblies includes a pulley frame, a pulley mounted on said pulley frame for rotational movement about a rotational axis, each pulley frame being mounted on said upright frame for pivotal movement about a pivotal axis which is perpendicular to and spaced from the rotational axis of the pulley mounted thereon.
  • 29. An exerciser as defined in claim 28 wherein said rotational axes are generally horizontal and said pivotal axes are generally vertical.
Priority Claims (1)
Number Date Country Kind
90201007 Jan 2001 TW
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Entry
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