81 |
PORTABLE MULTIPURPOSE FITNESS DEVICE |
US14067914 |
2013-10-30 |
US20140121082A1 |
2014-05-01 |
EITAN KRAMER; FRANK BLECK; ERIC MICHAEL BERGMAN |
An exercise board with interchangeable center and lateral exercise accessories. The center modules include several different types of devices, each designed to be used for different exercises. The center modules can include a bounce ball, a base that makes the deck unstable, for core workout, and a flat unit that is flush with the deck. The side accessories can include handgrips, skateboard trucks, foot straps, or flat units. |
82 |
Leg Straps with Horizontal Handles |
US14054823 |
2013-10-16 |
US20140113772A1 |
2014-04-24 |
Kendyl A. Roman |
A leg strap with preferably horizontal handles attached at each end of each handle is used to aid in lifting a jumping player, especially for lineouts in Rugby Union. The handles are preferably made of elastic bands with contract to provide a tight fit on the leg of the jumper and when jumping allow for secure grasp by lifters. The simple, reusable, easy to use leg straps provide a level of effectiveness, comfort, convenience, and safety not provided by conventional methods. To use, leg straps are applied to one or more legs of a jumper. When the jumper jumps, one or more lifters grip the leg device. The lifters lift the jumper higher, support the jumper in the jump while the jumper attempts to intercept a ball, and safely lower the jumper. |
83 |
ALARM MAT |
US13589854 |
2012-08-20 |
US20140048009A1 |
2014-02-20 |
Mineo IDO |
An alarm mat includes a sheet, and sound producer from which sound is produced by air inflow and outflow. The sheet is provided with a plurality of projections made of an elastic material, projecting toward an upper-surface side of the sheet with top portions thereof continuously extending, and each having a sealed cavity inside. The plurality of projections are juxtaposed to each other. The sound producer is loaded in the sheet in a manner that air flows in and out of the projections through the sound producer alone. |
84 |
Exercise apparatus with resilient foot support |
US12829203 |
2010-07-01 |
US08562492B2 |
2013-10-22 |
Kevin Gerschefske; Jack S. Barufka |
An exerciser including a movable body carriage mounted on an exerciser frame for movement along tracks provided by the frame. A resilient foot engaging assembly extends from the exerciser frame. The resilient foot engaging assembly is adapted to be engaged by the user's feet to absorb the energy of movement in a first direction and to provide the user with a bouncing movement, which the user may translate into a movement of the movable body carriage in the opposite direction. The resilient foot engaging assembly may be provided as an attachment and retrofitted to existing exercisers. The resilient foot engaging assembly includes a unit mounting frame assembly and an independent usable exercising unit, such as an inflated dome or trampoline unit, removably secured thereon. The exerciser may include a resilient resistance system coupled to the movable body carriage and a set of pull lines with user grips trained over pulleys carried by the exerciser frame. Also disclosed are methods for enabling users to exercise in either one of two different modes. |
85 |
Leg straps with horizontal handles |
US11899530 |
2007-09-06 |
US08556754B2 |
2013-10-15 |
Kendyl Allen Roman |
A leg strap with preferably horizontal handles attached at each end of each handle, is used to aid in lifting a jumping player, especially for lineouts in Rugby Union. The handles are preferably made of elastic bands with contract to provide a tight fit on the leg of the jumper and when jumping allow for secure grasp by lifters. The simple, reusable, easy to use leg straps provide a level of effectiveness, comfort, convenience, and safety not provided by conventional methods. To use, leg straps are applied to one or more legs of a jumper. When the jumper jumps, one or more lifters grip the leg device. The lifters lift the jumper higher, support the jumper in the jump while the jumper attempts to intercept a ball, and safely lower the jumper. |
86 |
Exercise apparatus and method |
US13024911 |
2011-02-10 |
US08480548B2 |
2013-07-09 |
Kevin Gerschefske |
An exerciser including a movable body support mounted on an exerciser frame for movement along tracks provided by the frame. A movable foot support extends from the exerciser frame. The movable foot support is adapted to be engaged by the user's feet to absorb the energy of movement in a first direction and to provide the user with a bouncing movement, which the user may translate into a movement of the movable body support in the opposite direction. The movable foot support may be provided as an attachment and retrofitted to existing exercisers, and, in some embodiments, may comprise independently movable foot supports for each foot. The exerciser may include a resilient resistance system coupled to the movable body support and a set of pull lines with user grips trained over pulleys carried by the exerciser frame. Also disclosed are methods for enabling users to exercise. |
87 |
Activity monitoring systems and methods |
US13231624 |
2011-09-13 |
US08352211B2 |
2013-01-08 |
Curtis A. Vock; Peter Flentov; Dennis M. Darcy |
An activity monitor, comprises housing for attachment to a person; at least one accelerometer disposed within the housing; and a processor disposed within the housing, for processing signals from the accelerometer to assess activity of the person. A method assesses activity of a person, including: sensing acceleration at a first location on the person; processing the acceleration, over time, to assess activity of the person; and wirelessly communicating information indicative of the activity to a second location. |
88 |
Triple/long jump take-off board systems and methods for forming the same |
US12868001 |
2010-08-25 |
US08337318B2 |
2012-12-25 |
Wayne P. Oliver |
A take-off board system for a triple or long jump generally includes an elongated frame, an elongated take-off board, and a track material member. The frame includes inwardly-extending flanges defining a chamber therein. The take-off board includes a first portion slidably receivable in the chamber of the frame, and a second portion defining an outer take-off surface. The track material member is disposed on an outer surface of the frame. The take-off board system is disposable in a first position in a cavity in the ground with the outer take-off surface of the take-off board disposed even with a track surface, and the take-off board assembly is disposable in a second position in the cavity in the ground with an outer surface of the track material member disposed even with the track surface. |
89 |
METHODS FOR FORMING A JUMP PIT |
US13482543 |
2012-05-29 |
US20120285117A1 |
2012-11-15 |
Burt GOULET |
A form is provided for constructing a jump pit with a sand area. The form is constructed in sections. Each section has an inside wall and an outside wall. A support member is located between the outside wall and the inside wall. The sections are secured together onsite. Caps are mounted on the support members. The caps include an inclined surface which slops upwardly and away from the sand area forming the inclined surface. A cover over the sand area is supported by the inclined surface. Optionally, a chamber is located adjacent the outside wall. A grate covers the chamber and the grate is supported by a brace. A mat covers the grate. Openings in the grate and in the mat permit sand through them, thrown from the sand area to drop into the chamber. |
90 |
PROJECTILE LAUNCHER |
US13177743 |
2011-07-07 |
US20120010050A1 |
2012-01-12 |
Gary Smith; Christopher Martyn-Smith; Ian Webb |
A projectile launcher for launching a projectile is provided. The projectile launcher is arranged to be connected to a trampoline having a frame and a jumping mat, the jumping mat connected to the frame by resilient members, the projectile launcher including a propulsion element adapted to provide a motive force to propel a projectile and an energy extraction element arranged to be connected to a trampoline and to extract energy from the action of a user bouncing on the trampoline to provide power to the propulsion element. |
91 |
Exercise apparatus and method |
US11396913 |
2006-04-04 |
US07901338B2 |
2011-03-08 |
Kevin Gerschefske |
An exerciser including a movable body support mounted on an exerciser frame for movement along tracks provided by the frame. A movable foot support extends from the exerciser frame. The movable foot support is adapted to be engaged by the user's feet to absorb the energy of movement in a first direction and to provide the user with a bouncing movement, which the user may translate into a movement of the movable body support in the opposite direction. The movable foot support may be provided as an attachment and retrofitted to existing exercisers, and, in some embodiments, may comprise independently movable foot supports for each foot. The exerciser may include a resilient resistance system coupled to the movable body support and a set of pull lines with user grips trained over pulleys carried by the exerciser frame. Also disclosed are methods for enabling users to exercise. |
92 |
Plyometric Jumping Exercise Game Apparatus and Method of Use |
US12578217 |
2009-10-13 |
US20100120587A1 |
2010-05-13 |
Mark Alexander; Jerry K. Leipheimer; John M. Salvitti |
The present invention is a plyometric jumping exercise game apparatus and method of use. The apparatus is adapted to provide a challenging game for a participant that causes the participant to jump from a first location to a second location in response to predetermined signals. The apparatus provides for timed score keeping and may be used by a single individual or by groups of individuals in competitive play. While use of the apparatus is entertaining for the participant, it also improves the participant's jumping ability, speed, reaction time, and physical endurance. |
93 |
JUMP PIT FORM |
US12621806 |
2009-11-19 |
US20100058572A1 |
2010-03-11 |
Burt GOULET |
A is provided for constructing a jump pit with a sand area. The form is constructed in sections. Each section has an inside wall and an outside wall. A support member is located between the outside wall and the inside wall. The sections are secured together onsite. Caps are mounted on the support members. The caps include an inclined surface which slops upwardly and away from the sand area forming the inclined surface. A cover over the sand area is supported by the inclined surface. Optionally, a chamber is located adjacent the outside wall. A grate covers the chamber and the grate is supported by a brace. A mat covers the grate. Openings in the grate and in the mat permit sand through them, thrown from the sand area to drop into the chamber. |
94 |
Exercise device having position verification feedback |
US11356494 |
2006-02-17 |
US07604570B2 |
2009-10-20 |
Larry C. Wilkins; Vaughan Scott |
An exercise device having position verification feedback capabilities. In one embodiment, the exercise device generally includes a base unit defining a support surface, at least two position sensors arranged along a sensing plane relative to the support surface for detecting the presence of the user along the sensing plane, and a controller in communication with the position sensors to determine the user's position relative to the sensing plane. In another embodiment, the exercise device is configured to simulate the activity of jumping rope. In a further embodiment, an exercise device is provided that is capable of measuring one or more parameters associated with a user's vertical jumping ability. |
95 |
ACTIVITY MONITORING SYSTEMS AND METHODS |
US12370795 |
2009-02-13 |
US20090150114A1 |
2009-06-11 |
Curtis A. Vock; Peter Flentov; Dennis M. Darcy |
An activity monitor, comprises housing for attachment to a person; at least one accelerometer disposed within the housing; and a processor disposed within the housing, for processing signals from the accelerometer to assess activity of the person. A method assesses activity of a person, including: sensing acceleration at a first location on the person; processing the acceleration, over time, to assess activity of the person; and wirelessly communicating information indicative of the activity to a second location. |
96 |
Exercise device having position verification feedback |
US11356943 |
2006-02-17 |
US07513852B2 |
2009-04-07 |
Larry C. Wilkins; Vaughan Scott |
An exercise device having position verification feedback capabilities. In one embodiment, the exercise device generally includes a base unit defining a support surface, at least two position sensors arranged along a sensing plane relative to the support surface for detecting the presence of the user along the sensing plane, and a controller in communication with the position sensors to determine the user's position relative to the sensing plane. In another embodiment, the exercise device is configured to simulate the activity of jumping rope. In a further embodiment, an exercise device is provided that is capable of measuring one or more parameters associated with a user's vertical jumping ability. |
97 |
Activity monitoring systems and methods |
US11434588 |
2006-05-15 |
US07451056B2 |
2008-11-11 |
Peter Flentov; Dennis M. Darcy; Curtis A. Vock |
An activity monitor, comprises housing for attachment to a person; at least one accelerometer disposed within the housing; and a processor disposed within the housing, for processing signals from the accelerometer to assess activity of the person. A method assesses activity of a person, including: sensing acceleration at a first location on the person; processing the acceleration, over time, to assess activity of the person; and wirelessly communicating information indicative of the activity to a second location. |
98 |
Exercise apparatus with resilient foot support |
US11702672 |
2007-02-06 |
US20070219053A1 |
2007-09-20 |
Jack Barufka; Kevin Gerschefske |
An exerciser including a movable body carriage mounted on an exerciser frame for movement along tracks provided by the frame. A resilient foot engaging assembly extends from the exerciser frame. The resilient foot engaging assembly is adapted to be engaged by the user's feet to absorb the energy of movement in a first direction and to provide the user with a bouncing movement, which the user may translate into a movement of the movable body carriage in the opposite direction. The resilient foot engaging assembly may be provided as an attachment and retrofitted to existing exercisers. The resilient foot engaging assembly includes a unit mounting frame assembly and an independent usable exercising unit, such as an inflated dome or trampoline unit, removably secured thereon. The exerciser may include a resilient resistance system coupled to the movable body carriage and a set of pull lines with user grips trained over pulleys carried by the exerciser frame. Also disclosed are methods for enabling users to exercise in either one of two different modes. |
99 |
Hang-timer for providing recording instructions |
US11325212 |
2006-01-03 |
US20070156369A1 |
2007-07-05 |
Jeffrey Alexander; Erich Griebling |
A hang-timer device is disclosed that is capable of issuing recording instructions to a recording device, such as a digital camera. The hang-timer can measure a static acceleration profile of a wearer of the hang-timer, and based on this static acceleration profile it can issue recording instructions to a recording device. For example, if the static acceleration profile changes from about 1 g to about 0 g, the hang-timer can issue instructions for the recording device to record; additionally, if the profile changes from about 0 g to about 1 g, it can issue instructions to stop recording. Moreover, the hang-timer can issue instructions for the recording device to record some period of time before a hang-time event and some period of time after a hang-time event. Various other such variations on the general notion described above are also disclosed. |
100 |
Jump takeoff position indicator system |
US10789146 |
2004-02-28 |
US07236257B2 |
2007-06-26 |
James E. Rubach |
A jump takeoff position indicator system that discloses the point of takeoff of a long jump or triple jump in athletic competition or practice when an athlete's foot comes in contact with a takeoff board when beginning a jump. A plurality of light beams are emitted parallel to the edge of the takeoff board. The light beams are closely spaced, parallel to each other, and transverse to the direction of the jump. The foot position is known by the location of the beams broken at takeoff. A light beam detector detects interruption of the light beams by an athlete's foot and displays the takeoff position on a plurality of visible LEDs. The system provides a memory for storing the takeoff position and recall switch for retrieving and displaying the information after completion of the jump. The system is immune from ambient light disturbances and can easily be moved between multiple takeoff board locations. Microcontrollers are employed in a modular fashion for system control. Furthermore, the system is battery operated with low battery detection provided. |