TECHNICAL FIELD
The present invention is directed to an apparatus that enhances a user's agility in periodically manually conducting a pendulum type motion with a dynamic object that is tethered to a pair of manual handholds that the user grasps. More particularly, the present invention is a tethered weight that is affixed a pair of flexible tethers that are each grasped in each user's hand, wherein the user utilizes somewhat of a figure eight motion of their hands to swing the tethered variable weight in accordance with the user's hand motion. The tethered weight motion or movement can have varying cycle frequency and amplitude from the manual nature of the varying repetitive speed and varying force that the user can impart to the tethered weight and the changing positions of the user's torso position, thus changing up the agility skill required resulting in desired muscle confusion as opposed to a steady rhythmic hand/arm/torso frequency and amplitude.
BACKGROUND OF INVENTION
It is well recognized in the prior art the benefit of rhythmically manually engaging in agility enhancement, especially common in the fields of boxing and self-defense. However, if the rhythm becomes too steady over time, related to the frequency and amplitude of the tethered weight being consistent or nearly consistent, the agility benefit to the user becomes greatly reduced and the user's muscles become trained in a routine and do not improve their flexibility or agility. There is a movement afoot today that is termed “muscle confusion” that has shown that changing up one's agility enhancement routine results in better muscle tone and conditioning, such as in jogging-wherein a person would jog for so many miles at a steady pace-would achieve a minimal benefit, this as opposed to engaging in muscle confusion, which would have the jogger sprinting, walking, and jogging in a random way, this keeping the muscles in a dynamic state of (velocity & load) change (enhanced conditioning benefit) as opposed to a steady routine (minimal conditioning benefit).
Thus, this is the goal of the present invention in helping to create muscle confusion, due to the variable frequency and amplitude manually imparted to the tethered weight via the user's hands and the user's torso and leg movement, thus making the tethered weight movement path desirably unpredictable.
In the portable agility enhancement apparatus prior art in U.S. Patent No. 6,752,747 to Yu disclosed is a multi-directional swivel body builder, mainly comprising a moveable bent shank, two handles, two retaining springs and two end wheels, each end of said bent shank linking with a coil spring, a protection jacket covering said bent shank and said coil springs, characterized in that: a joint tube has a lock hole and a ring groove for receiving the retaining spring. The retaining spring in Yu has a turnover leave with a lock post fitting into the lock hole of the joint tube, the joint tube slides into a sleeve tube of the handle, the sleeve tube has a plurality of adjustable holes, after the joint tube slides in place in the sleeve tube, the lock post of the retaining spring will fit into one of the adjustable holes and a catch lug on an inner wall of the sleeve tube will enter the ring groove of the joint tube to disengage the lock post of the retaining spring. Thus permitting in Yu the handle to adjust and gain a proper bent angle, then the lock post fits into the proper adjustable hole and holds the angled handles that is accomplished with the adjustment; and the handle end connects to a lock shaft and an end wheel, when the end wheel is swayed, the bent shank begins self-rotation.
Continuing in the portable agility enhancement apparatus prior art in U.S. Pat. No. 7,828,704 to Hsieh, et al. disclosed is a combination limb and abdominal agility enhancement, comprising: a set of pivotally connected rod members including first and second main bodies which can be assembled and fixed to each other, each of the first and second main bodies having an extending rod, the two rods being able to be moved outward away from or moved inward closer to each other, and a handle being disposed at the end of each of the rods. Wherein in Hsieh, each of the first and second main bodies has a through hole and a groove disposed on the periphery of the through hole, and a post passes through the two through holes which are respectively covered by covers which are respectively fixed to the first and second main bodies by means of locking portions; two handles, each of which is pivotally disposed at an end thereof to the end of each of the two rods, so that the handles, when subjected to an external force, rotate at an angle about a longitudinal axis of the extending rod.
Further in Hsieh, a second torsional spring is disposed between each handle and the corresponding rod to bias against the rotation of the handles; and a first torsional spring, which is mounted around the post and disposed between the two rods of the set of pivotally connected rod members so as to normally maintain a fixed included angle between the two rods and provide an agility enhancement resistance when the two rods are moved outward away from or moved inward closer to each other by an external force. Wherein in Hsieh the end of each of the two rods is formed with a sub-rod, and the second torsional spring is mounted around the sub-rod on which a locking cap is securely mounted above the second torsional spring, wherein a locking hole is disposed on the sub-rod for the fixation of the locking cap, and wherein one end of the second torsional spring enters a first through hole preset on the rod, and the other end of the second torsional spring enters a second through hole preset on the handle.
Next in the portable agility enhancement apparatus art in U.S. Pat. No. 8,888,666 to Quader disclosed is a strength training apparatus comprising: an elastic headpiece constructed to recoil in response to being struck against a rigid surface; a handle mechanically coupled to the headpiece such that the recoil of the headpiece is transferred to the handle; and a centripetal stop at the distal end of the handle and disposed interior to the headpiece so as to couple the handle thereto and retain the headpiece thereon.
Moving onward in the portable agility enhancement apparatus prior art in U.S. Pat. No. 6,595,827 to Kirley, disclosed is a swinging toy intended for the purpose of recreation, physical and mental health, agility, and leisure purposes. Kirley includes a padded object and a cord with a hand or finger loop, wherein the object includes a central cavity that may selectively or permanently contain a substance. The substance in Kirley may include colored water, beads which may glow in the dark, chemiluminescent fluid, batteries together with a light, reflective material, e.g, tin foil, chemical compositions that alternate between colors or other such substances, or magnetically powered light sources. Further in Kirley, a decorative tail may be attached to the end of the object to enhance the user's enjoyment of the toy.
Next, in the portable agility enhancement apparatus prior art in United States Patent Application Publication Number 2013/0190145 to Kugielsky, disclosed is a dynamic weight training apparatus for improved calorie burning and muscle toning. The weight training apparatus in Kugielsky generally includes a pendulum mass suspended, e.g., via a flexible shaft, from a single handle or other securing mechanism. A user in Kugielsky swings the weight in a pendulum motion when exercising (walking, jogging, stationary, sitting or standing) providing for increased resistance. A flexible shaft in Kugielsky may advantageously dampen/reduce shock and strain associated with the pendulum motion.
What is needed is an agility enhancing apparatus that has a random unpredictability to the frequency and amplitude of the tethered changable weight movement that is created from the variability of the user's hands motion, plus movement of the user's torso and legs which in turn impart the variable frequency, amplitude, and load to a movement of the tethered weight, thus in turn creating the desirable “muscle confusion”.
SUMMARY OF INVENTION
Broadly, the present invention is an agility enhancement apparatus for an individual to engage in manual agility enhancement activity, the agility enhancement apparatus includes a beam having a proximal end portion and an opposing distal end portion with a longitudinal axis spanning therebetween, further included in the agility enhancement apparatus is a weight affixed to the distal end portion, wherein the weight makes the distal end portion weigh more than the proximal end portion.
Also included in the agility enhancement apparatus is a flexible tether extension having a first end portion and an opposing second end portion with a longwise axis spanning therebetween, the flexible tether extension first end portion is affixed to the proximal end portion wherein the flexible tether second end portion is a free cantilever end, wherein operationally the individual grasps the tether second end portion and swings the beam in a free movement pattern.
These and other objects of the present invention will become more readily appreciated and understood from a consideration of the following detailed description of the exemplary embodiments of the present invention when taken together with the accompanying drawings, in which;
BRIEF DESCRIPTION OF DRAWINGS
FIG. 1 shows a side elevation view of the agility enhancement apparatus that includes a beam having a proximal end portion and an opposing distal end portion with a longitudinal axis spanning therebetween, also shown is a distal end portion margin, plus a flexible tether extension with a first and second end portion having a longwise axis spanning therebetween with a handle affixed to the second end portion, wherein the handle includes a wrist strap and a cinch lock on the wrist strap;
FIG. 2 shows an upper perspective view of the agility enhancement apparatus that includes a beam having a proximal end portion and an opposing distal end portion with a longitudinal axis spanning therebetween, also shown is a distal end portion margin, plus a flexible tether extension with a first and second end portion having a longwise axis spanning therebetween with a handle affixed to the second end portion, wherein the handle includes the wrist strap, further a resting surface is shown that the beam distal end portion margin is resting upon that results in the longitudinal axis being positioned perpendicular to the surface that conveniently allows the agility enhancement apparatus to be free standing on the surface as shown in FIG. 2;
FIG. 3 shows an exploded diagram of the distal end portion of the beam showing in particular the expanding outward of the margin in relation to the longitudinal axis wherein an interior of the surrounding sidewall is shown, the interior receives a weight shown as a removably engagable plurality of weights that are disposed within the interior and the plurality of removably engagable weights are retained within the interior with a plug that itself has a means for removable engagement to the beam distal end portion that is shown in this view as a threadable engagement of the plug to the beam distal end portion;
FIG. 4 shows a cross sectional view of FIG. 3, such that FIG. 4 shows the distal end portion of the beam showing in particular the expanding outward of the margin in relation to the longitudinal axis wherein the interior of the surrounding sidewall is shown, the interior receives a weight shown as a removably engagable plurality of weights that are a plurality of axially stacked discs that are interconnected to one another and disposed as a group within the interior and the plurality of removably engagable weights are retained within the interior with a plug that itself has a means for removable engagement to the beam distal end portion that is optionally shown as a threaded rod from the plug to the distal end portion;
FIG. 5 shows a bottom end view of the beam of the agility enhancement apparatus showing in particular the plug, the means for removable engagement of the plug to the beam distal end portion in the form of a thread on the plug to the beam distal end portion, also shown is the margin on the beam distal end portion;
FIG. 6 shows a perspective view of an aperture guide and retainer that also shows an aperture and an aperture channel disposed between the apertures, further a means for removable engagement of the aperture guide and retainer to the beam proximal end portion in the form of a threadable engagement;
FIG. 7 shows a cross sectional view of the beam proximal end portion that shows the interior, the surrounding sidewall, the inner and outer surface of the sidewall, also with the aperture guide and retainer that also shows a pair of apertures and the aperture channel disposed between the pair of apertures, further the means for removable engagement of the aperture guide and retainer to the beam proximal end portion in the form of the threadable engagement, further shown is a pair of flexible tether extensions, that are one each disposed therethrough each of a pair of apertures and each have a flexible tether affixed to the beam proximal end portion within the interior;
FIG. 8 shows a use view of the agility enhancement apparatus with an individual user using their hands to grasp the tether second end portion of the agility enhancement apparatus, wherein the individual user then swings the beam through their hand movement in a free movement pattern as shown, wherein the amount of weight can be selectively adjusted to change the intensity of the workout, note the wrist strap looped around the user's hand;
FIG. 9 shows the use view of the agility enhancement apparatus with the individual user using their hands to grasp the tether second end portion of the agility enhancement apparatus, wherein the individual user then swings the beam through their hand movement in a second repetitive movement pattern as shown for enhanced agility training and wherein the amount of weight can be selectively adjusted to change the intensity of the workout, note the wrist strap looped around the user's hand;
FIG. 10 shows the use view of the agility enhancement apparatus with the individual user using their hands to grasp the tether second end portion of the agility enhancement apparatus, wherein the individual user then swings the beam through independent, different, and separate hand movement for each hand in a beam swing movement as shown for enhanced agility training and wherein the amount of weight can be selectively adjusted to change the intensity of the workout, further the wrist strap is shown;
FIG. 11 shows an alternative cross sectional view of FIG. 3, such that FIG. 11 shows the distal end portion of the beam showing in particular the expanding outward of the margin in relation to the longitudinal axis wherein the interior of the surrounding sidewall is shown, the interior receives a weight shown as a removably engagable plurality of weights that are a plurality of axially stacked discs that are frictionally piloted and interconnected to one another via a spring clip on each disc protrusion, wherein a protrusion slidably engages a receiving cavity for each set of discs, wherein a plurality of discs are disposed as a group within the interior resulting in having the plurality of removably engagable weights that are retained within the interior with a plug that itself has a means for removable engagement to the beam distal end portion that is optionally shown as a threadable engagement from the plug to the distal end portion;
FIG. 12 is cross section 12-12 from FIG. 11 showing in detail the axial friction pilot and retention spring clip interface with the protrusion and receiving cavity interface wherein the spring clip is disposed within an annular channel that ultimately removably engages the plurality of weights to one another thus allowing variability in the number of weights that are fitted together to use the agility enhancement apparatus;
FIG. 13 shows an alternative cross sectional view of the beam proximal end portion that shows the interior, the surrounding sidewall, the inner and outer surface of the sidewall, also with the aperture guide and retainer that also shows a pair of apertures, further the means for removable engagement of the aperture guide and retainer to the beam proximal end portion in the form of the threadable engagement, further shown is a pair of flexible tether extensions, that are one each disposed therethrough each of a pair of apertures wherein the tether extensions are joined and clamped to the aperture guide and retainer via a compression bracket and fasteners within the interior; and
FIG. 14 shows view 14-14 from FIG. 13 that details the alternative cross sectional view of the beam proximal end portion that shows the interior, the surrounding sidewall, the inner and outer surface of the sidewall, also with the aperture guide and retainer that also shows a pair of apertures, further the means for removable engagement of the aperture guide and retainer to the beam proximal end portion in the form of the threadable engagement, further shown is a pair of flexible tether extensions, that are one each disposed therethrough each of a pair of apertures wherein the tether extensions are joined and clamped to the aperture guide and retainer via the compression bracket and the fasteners within the interior.
REFERENCE NUMBERS IN DRAWINGS
50 Agility enhancement Apparatus
55 Individual user
60 Beam
65 Proximal end portion of the beam 60
70 Distal end portion of the beam 60
75 Longitudinal axis of the beam 60
80 Surrounding sidewall of the beam 60
85 Outer surface of the surrounding sidewall 80
90 Inner surface of the surrounding sidewall 80
95 Interior of the surrounding sidewall 80 of the beam 60
100 Margin of the distal end portion 70
105 Expanding outward of the margin 100 perpendicular to the longitudinal axis 75
110 Surface
115 Beam free standing on the surface 110
120 Perpendicular position of the longitudinal axis 75 to the surface 110
125 Weight
126 Weight receiving cavity for the spring clip 253
127 Axial frictional slidable engagement between the cavity 126 and the spring clip 253 along the longitudinal axis 75
130 Weight structurally affixed to the distal end portion 70 of the beam 60
135 Plurality of weights 125
140 Removably engagable plurality of weights 135 to the distal end portion 70
145 Plurality of weights 135 constructed of axially stacked discs
150 Plurality of weights constructed of axially stacked discs 145 that are interconnected to hold their relative position to one another
155 Plurality of weights 135 disposed within the interior 95
160 Flexible tether extension
165 First end portion of the flexible tether extension 160
170 Second end portion of the flexible tether extension 160
175 Longwise axis of the flexible tether extension 160
180 Free cantilever end of the second end portion 170
185 Flexible tether first end portion 165 affixed to the proximal end portion 65
190 Handle of the flexible tether 160 disposed on the second end portion 170
191 Safety wrist strap affixed to the second end portion 170
192 Cinch lock to tighten the safety wrist strap 191
195 Pair of flexile tether extensions
200 Flexible tether first end portion 165 disposed within the beam 60 interior 95
205 Flexible tether first end portion 165 affixed adjacent to the proximal end portion 65 within the beam 60 interior 95
210 Hands of the individual user 55
215 Grasping the tether 160 second end portion 170
220 Individual user 55 swings the beam 60 through hand 210 movement
225 Free movement pattern of the beam 60 as the individual user 55 swings 220 the beam 60
230 First repetitive movement pattern of individual user 55 hand 210 movement 220
235 Second repetitive movement pattern of the beam 60 from the first repetitive movement pattern 230
240 Individual moving each hand 210 in a different repetitive movement pattern
250 Plug for weight 125 retention with the beam 60 distal end portion 70
251 Protrusion of the plug 250 or weight 125
252 Annular channel of the protrusion 251
253 Spring clip partially circumferentially disposed within the channel 252
255 Means for removable engagement of plug 250 to the beam 60 distal end portion 70
260 Threadable engagement of the plug 250 to the beam 60 distal end portion 70
261 Threadable engagement of an outside diameter of the plug 250 to the beam 60 distal end portion 70
262 Threadable engagement of the plug 250 to the beam 60 distal end portion 70 via a threaded rod
265 Aperture guide and retainer for the flexible retainer extension 160 in the beam 60 proximal end portion 65 interior 95
270 Aperture of the aperture guide and retainer 265
275 Channel partial relief between apertures 270
280 Means for removable engagement of the aperture guide 265 to the beam 60 proximal end portion 65 interior 95
285 Threadable engagement of the aperture guide and retainer 265 to the beam 60 proximal end portion 65 interior 95
290 Compression bracket for the tether 160
295 Fastener for the compression bracket 290 to the aperture guide and retainer 265
DETAILED DESCRIPTION
With initial reference to FIG. 1 shown is a side elevation view of the agility enhancement apparatus 50 that includes a beam 60 having a proximal end portion 65 and an opposing distal end portion 70 with a longitudinal axis 75 spanning therebetween, also shown is a distal end portion 70 margin 100, plus a flexible tether extension 160 with a first 165 and a second 170 end portion having a longwise axis 175 spanning therebetween with a handle 190 affixed to the second end portion 170, wherein the handle 190 includes a wrist strap 191 and a cinch 192 lock on the wrist strap 191.
Continuing, FIG. 2 shows an upper perspective view of the agility enhancement apparatus 50 that includes the beam 60 having the proximal end portion 65 and the opposing distal end portion 70 with the longitudinal axis 75 spanning therebetween. Also shown in FIG. 2 is the distal end portion 70 margin 100, plus the flexible tether extension 160 with a first 165 and second 170 end portion having the longwise axis 175 spanning therebetween with the handle 190 affixed to the second end portion 170, wherein the handle 190 includes the wrist strap 191, further a resting surface 110 is shown that the beam 60 distal end portion 70 margin 100 is resting upon that results in the longitudinal axis 75, being positioned perpendicular 120 to the surface 110 that conveniently allows the agility enhancement apparatus 50 to be free standing 115 on the surface 110 as shown in FIG. 2;
Next, FIG. 3 shows an exploded diagram of the distal end portion 70 of the beam 60 showing in particular the expanding outward 105 of the margin 100 in relation to the longitudinal axis 75, wherein the interior 95 of the surrounding sidewall 80 is shown, the interior 95 receives the weight 125 shown as the removably engagable plurality of weights 135 that are disposed 155 within the interior 95 and the plurality of removably engagable weights 140 are retained within the interior 95 with the plug 250 that itself has a means 255 for removable engagement to the beam 60 distal end portion 70. This is shown in FIG. 3 as a threadable engagement 260 of the plug 250 to the beam 60 distal end portion 70, via an outer diameter of the plug 250 being threadably engaged 261 to the distal end portion 70.
Further continuing, FIG. 4 shows a cross sectional view of FIG. 3, such that FIG. 4 shows the distal end portion 70 of the beam 60 showing in particular the expanding outward 105 of the margin 100 in relation to the longitudinal axis 75 wherein the interior 95 of the surrounding sidewall 80 is shown. Also, FIG. 4 shows the interior 95 that receives the weight 125 being shown as a removably engagable 140 plurality of weights 135 that are further shown as a plurality of axially stacked discs 145 that are interconnected 150 to one another and disposed as a group within the interior 95 with the plurality of removably engagable weights 140 being retained within the interior 95 with the plug 250 that itself has the means 255 for removable engagement to the beam 60 distal end portion 70, that is optionally shown as a threaded rod 262 from the plug 250 to the distal end portion 70.
Continuing, FIG. 5 shows a bottom end view of the beam 60 of the agility enhancement apparatus 50 showing in particular the plug 250, the means 255 for removable engagement of the plug 250 to the beam 60 distal end portion 70 in the form of a thread 261 on the plug 250 to the beam 60 distal end portion 70, also shown is the margin 100 on the beam 60 distal end portion 70.
Moving onward, FIG. 6 shows a perspective view of an aperture guide and retainer 265 that also shows the aperture 270 and the aperture channel 275 disposed between the apertures 270, further the means 280 for removable engagement of the aperture guide and retainer 265 to the beam 60 proximal end portion 65 in the form of a threadable engagement 285.
Next, FIG. 7 shows a cross sectional view of the beam 60 proximal end portion 65 that shows the interior 95, the surrounding sidewall 80, the inner 90 and outer 85 surface of the sidewall 80, also with the aperture guide and retainer 265 that also shows a pair of apertures 270 and the aperture channel 275 disposed between the pair of apertures 270. Further FIG. 7 shows the means 280 for removable engagement of the aperture guide and retainer 265 to the beam 60 proximal end portion 65 in the form of the threadable engagement 285. Also shown in FIG. 7 is the pair of flexible tether extensions 160, that are one each disposed therethrough each of a pair of apertures 270 and each have a flexible tether 160 affixed 205 to the beam 60 proximal end portion 65 within 200 the interior 95.
Yet, further FIG. 8 shows a use view of the agility enhancement apparatus 50 with the individual user 55 using their hands 210 to grasp 215 the tether 160 second end portion 170 of the agility enhancement apparatus 50, wherein the individual user 55 then swings 220 the beam 60 through their hand 210 movement in a free movement pattern 225 as shown, wherein the amount of weight 125 can be selectively adjusted to change the intensity of the workout, note the wrist strap 191 looped around the user's 55 hand 210.
Next, FIG. 9 shows the use view of the agility enhancement apparatus 50 with the individual user 55 using their hands 210 to grasp 215 the tether 160 second end portion 170 of the agility enhancement apparatus 50, wherein the individual user 55 then swings 220 the beam through their hand 210 movement in a first 230 and/or second 235 repetitive movement pattern as shown for enhanced agility training and wherein the amount of weight 125 can be selectively adjusted to change the intensity of the workout, again note the wrist strap 191 looped around the user's 55 hand 210.
Continuing, FIG. 10 shows the use view of the agility enhancement apparatus 50 with the individual user 55 using their hands 210 to grasp 215 the tether 160 second end portion 170 of the agility enhancement apparatus 50, wherein the individual user 55 then swings 220 the beam 60 through independent, different, and separate hand movement 240 for each hand 210 in a beam swing movement 220, 225 as shown for enhanced agility training and wherein the amount of weight 125 can be selectively adjusted to change the intensity of the workout for the individual 55, further again the wrist strap 191 is shown.
Next, FIG. 11 shows an alternative cross sectional view of FIG. 3, such that FIG. 11 shows the distal end portion 70 of the beam 60 showing in particular the expanding outward 105 of the margin 100 in relation to the longitudinal axis 75 wherein the interior 95 of the surrounding sidewall 80 is shown, the interior 95 receives a weight 125 shown as a removably engagable plurality of weights 135 that are a plurality of axially stacked discs 145 that are frictionally piloted 127 and interconnected to one another via a spring clip 253 on each disc 145. Further shown in FIG. 11 is a protrusion 251 that slidably engages a receiving cavity 126 for each set of discs 145, wherein the plurality of discs 145 are disposed as a group within the interior 95 resulting in having the plurality of removably engagable weights 145 that are retained within the interior 95 with a plug 250 that itself has a means 255 for removable engagement to the beam 60 distal end portion 70 that is optionally shown as a threadable engagement 260, 261 from the plug 250 to the distal end portion 70.
Yet further FIG. 12 is cross section 12-12 from FIG. 11 showing in detail the axial friction pilot 127 and retention spring clip 253 interface with the protrusion 251 and receiving cavity 126 interface 127 wherein the spring clip 253 is disposed within an annular channel 252 that ultimately removably engages the plurality of weights 135 to one another thus allowing variability in the number of weights 135 that are fitted together to use the agility enhancement apparatus 50.
Continuing, FIG. 13 shows an alternative cross sectional view of the beam 60 proximal end portion 65 that shows the interior 95, the surrounding sidewall 80, the inner 90 and outer 85 surface of the sidewall 80, also with the aperture guide and retainer 265 that also shows a pair of apertures 270, further the means 280 for removable engagement of the aperture guide and retainer 265 to the beam 60 proximal end portion 65 in the form of the threadable engagement 285. Further shown in FIG. 13 is a pair 195 of flexible tether extensions 160, that are one each disposed therethrough each of a pair of apertures 270 wherein the tether extensions 160 are joined and clamped to the aperture guide and retainer 265 via a compression bracket 290 and fasteners 295 within the interior 95.
Next, FIG. 14 shows view 14-14 from FIG. 13 that details the alternative cross sectional view of the beam 60 proximal end portion 65 that shows the interior 95, the surrounding sidewall 80, the inner 90 and outer 85 surface of the sidewall 80, also with the aperture guide and retainer 265 that also shows a pair of apertures 270, further the means 280 for removable engagement of the aperture guide and retainer 265 to the beam 60 proximal end portion 65 in the form of the threadable engagement 285. Further shown is a pair 195 of flexible tether extensions 160, that are one each disposed therethrough each of a pair of apertures 270 wherein the tether extensions 160 are joined and clamped to the aperture guide and retainer 265 via the compression bracket 290 and the fasteners 295 within the interior 95.
Broadly, the present invention is the agility enhancement apparatus 50 for the individual 55 to engage in manual agility enhancement activity, the agility enhancement apparatus 50 including the beam 60 having the proximal end portion 65 and the opposing distal end portion 70 with the longitudinal axis 75 spanning therebetween, further included in the agility enhancement apparatus 50 is the weight 125 affixed to the distal end portion 70, wherein the weight 125 makes the distal end portion 70 weigh more than the proximal end portion 65, see in particular FIGS. 1, 2, 3, and 4, plus FIGS. 11 and 12.
Also included in the agility enhancement apparatus 50 is the flexible tether extension 160 having the first end portion 165 and the opposing second end portion 170 with the longwise axis 175 spanning therebetween, the flexible tether extension 160 first 165 end portion is affixed 185 to the proximal end portion 65 wherein the flexible tether 160 second end portion 170 is a free cantilever end 180, as best shown in FIGS. 1, 2, and 7, plus FIGS. 13 and 14. Wherein operationally, the individual 55 grasps 215 the tether 160 second end portion 170 and swings 220 the beam 60 in a free movement pattern 225, as shown in FIG. 8.
As an option for the agility enhancement apparatus 50, can further comprise a plurality of weights 135 that are each removably engagable 140 to the distal end portion 70 to operationally facilitate a selectable amount of weight 125 to be added to the distal end portion 70, as best shown in FIGS. 3, 4, and 5. Further to weight 125 options, the plurality of weights 135 can be constructed of a plurality of axial stacked discs 150 along the longitudinal axis 75, see FIGS. 3 and 4, plus FIGS. 11 and 12.
A further option for the agility enhancement apparatus 50, is wherein the distal end portion 70 can terminate in the margin 100 that expands outward 105 in a direction perpendicular to the longitudinal axis 75 to operationally facilitate the beam 60 to be able to be free standing 115 on the surface 110 wherein the longitudinal axis 75 is perpendicular 120 to the surface 110, see in particular FIG. 2.
As an alternative for the agility enhancement apparatus 50, it can further comprise a handle 190 that is disposed upon the flexible tether extension 160 second end portion 170, see FIGS. 1 and 2. Additional options for the flexible tether extension 160 on the agility enhancement apparatus 50, that is can further comprise a pair 195 of flexible tether extensions 160, each having the first end portion 165 and the opposing second end portion 170 with each having the longwise axis 175 spanning therebetween, wherein the pair 195 of flexible tether extension 160 first end portions 165 are affixed 185 to the beam 60 proximal end portion 65 and the pair 195 of flexible tether extension 160 second end portions 170 are independently separate and are each a free cantilever end 180, as best shown in FIGS. 1, 2, 7, 13, and 14. Another option on the flexible tether extension 160 for the agility enhancement apparatus 50, is wherein each flexible tether extension 160 second end portion 170 can further comprise a handle 190 disposed upon each flexible tether extension 160 second end portion 170, see in particular FIGS. 1 and 2.
Continuing for options on the agility enhancement apparatus 50, the beam 60 can further be constructed in the form of a surrounding sidewall 80 having the proximal end portion 65 and the opposing distal end portion 70 with the longitudinal axis 75 spanning therebetween, wherein the surrounding sidewall 80 can have an outer surface 85 and an opposing inner surface 90, wherein the proximal end portion 65, the inner surface 90, and the distal end portion 70 all act to define a beam interior 95, see FIGS. 3, 4, 7, 13, and 14 in particular.
Further, optionally on the agility enhancement apparatus 50, the weight 125 can disposed within the interior 95 being structurally affixed 130 adjacent to the distal end portion 70, wherein the weight 125 makes the distal end portion 70 weigh more than the proximal end portion 65, see FIGS. 3 and 4, plus FIGS. 11 and 12.
Another option of the flexible tether extension 160 that has the first end portion 165 and the opposing second end portion 170 with the longwise axis 175 spanning therebetween, the flexible tether extension 160 first end portion 165 can be disposed within the interior 95 and affixed 185 adjacent to the proximal end portion 65 wherein the flexible tether 160 second end portion 170 is a free cantilever end 180, wherein operationally the individual 55 grasps 215 the tether 160 second end portion 170 and swings 220 the beam 60 in a free movement pattern 225, see FIGS. 7, 8, 13, and 14.
A further option for the agility enhancement apparatus 50 can further comprise a plurality of weights 135 that are each disposed 155 within the interior 95 and removably engagable 140 to the distal end portion 70, to operationally facilitate a selectable amount of weight to be added to the distal end portion 70, see FIGS. 3 and 4, plus FIGS. 11 and 12. As a further option on the agility enhancement apparatus 50, the plurality of weights 135 can be constructed of a plurality of axial stacked discs 145 along the longitudinal axis 75 being disposed within the interior 95, again see FIGS. 3 and 4, plus FIGS. 11 and 12.
Yet another option for the agility enhancement apparatus 50, can further comprise the pair 195 of flexible tether extensions 160 each having the first end portion 165 and the opposing second end portion 170 with each having the longwise axis 175 spanning therebetween, wherein the pair 195 of flexible tether extension 160 first end portions 165 are disposed 200 within the interior 95 and affixed 205 adjacent to the beam 60 proximal end portion 65 and the pair 195 of flexible tether extension 160 second end portions 170 are independently separate and are each a free cantilever end 180, see FIGS. 7, 13, and 14 in particular and also FIGS. 1 and 2.
Method of Use
Referring primarily to FIGS. 8, 9, and 10 for the use of the agility enhancement apparatus 50 by the individual 55, a method of using the agility enhancement apparatus 50 includes the steps of firstly providing the agility enhancement apparatus 50 that includes the beam 60 in the form of a surrounding sidewall 80 having the proximal end portion 65 and the opposing distal end portion 70 with the longitudinal axis 75 spanning therebetween, wherein the surrounding sidewall 80 can have an outer surface 85 and an opposing inner surface 90, wherein the proximal end portion 65, the inner surface 90, and the distal end portion 70 all act to define a beam interior 95, see FIGS. 3, 4, and 7, in particular. Further, the agility enhancement apparatus 50, includes the weight 125 disposed within the interior 95 being structurally affixed 130 adjacent to the distal end portion 70, wherein the weight 125 makes the distal end portion 70 weigh more than the proximal end portion 65, see FIGS. 3 and 4. In addition, included in the agility enhancement apparatus 50 is the pair 195 of flexible tether extensions 160 that have the first end portion 165 and the opposing second end portion 170 with the longwise axis 175 spanning therebetween, each flexible tether extension 160 first end portion 165 can be disposed within the interior 95 and affixed 185 adjacent to the proximal end portion 65 wherein the flexible tether 160 second end portion 170 is a free cantilever end 180, see FIGS. 1, 2, and 7.
Next, secondly a step of grasping 215 by an individual 55, the pair of flexible tether 160 second end portions 170 having one in each hand 210 of the individual 55, also see FIGS. 1 and 2. Thirdly a step of moving by the individual 55 their hands 215 in a first repetitive pattern 230 causing the beam 60 to swing in a pendulum like manner in a second repetitive pattern 235 to effectuate a repetitive strength and agility coordination agility enhancement for the individual 55, as best shown in FIG. 9.
Optionally for the method of using an agility enhancement apparatus 50, the third moving step is modified by the individual 55 moving each hand 210 in a different repetitive pattern 240 to help increase the strength and agility demands upon the individual 55, as best shown in FIG. 10.
Another option for the method of using the agility enhancement apparatus 50, wherein the first providing step weight can further comprise a plurality of weights 135 that are each disposed within the interior 95 and are each removably engagable to the distal end portion 70, to operationally facilitate an added step of having a selectable amount of weight 125 to be added or removed from the distal end portion 70 to increase or decrease the intensity of the strength and agility demands upon the individual 55, see in particular FIGS. 3, 4, and 5.
As an option for the agility enhancement apparatus 50 in looking at FIGS. 11 and 12 in particular, the plurality of axial stacked weight discs 135 can each have an interfacing removably engagable interlock 145, 150 that is constructed of a protrusion 251 that is received by a cavity 126, wherein the protrusion 251 further includes an annular channel 252 that has a spring clip 253 disposed therein, wherein the spring clip 253 axially slidably frictionally engages 127 the cavity 126 via movement along the longitudinal axis 75.
As another option for the agility enhancement apparatus 50 in looking at FIGS. 1, 2, 8, 9, and 10, the handle 190 can further comprise a wrist safety strap 191 to operationally keep the handle 190 in the user's 55 possession should the user let go of the handle 190 with their hand 210, further an optional cinch lock 192 can be added to the wrist safety strap 191 to tighten the safety wrist strap 191 to the user's 55 hand 210.
As a further option for the agility enhancement apparatus 50 on looking at FIGS. 13 and 14 in particular wherein the affixed 185 first end portions 165 are constructed of a compression bracket 290 and a fastener 295 that is attached to the beam proximal end portion 65 that act to compress the first end portions 165 to the beam proximal end portion 65.
Conclusion
Accordingly, the present invention of an agility enhancement apparatus has been described with some degree of particularity directed to the embodiments of the present invention. It should be appreciated, though; that the present invention is defined by the following claims construed in light of the prior art so modifications and changes may be made to the exemplary embodiments of the present invention without departing from the inventive concepts contained therein.
Patent Application
20190099635
