Patent Grant
7527568
1. Field of The Invention
This invention relates to sports training equipment and, more particularly, to a system and method for training football players and for increasing a football player's strength, while also improving the player's technique.
2. Description of Prior Art
Successful players of American-style football may possess at least two important characteristics, namely physical strength and endurance, and highly developed functional skills and techniques for applying such strength and endurance to particular game situations and positions. For example, for a lineman, such as an offensive lineman, strength and endurance is required to block opposing players of similar or even larger sizes and strength repeatedly play after play. Good functional technique is required to ensure the lineman's strength is applied properly so that the player does not slip or the opposing player does not evade the block or such that the block does not result in a penalty such as for holding. Thus, in training football players, such as linemen, it is important to develop strength endurance as well as functional playing technique.
Various types of football training equipment have been developed and used to allow players to practice their techniques without facing off against another live player, and, in some cases, even without the need for the presence of a coach or trainer. A common example of such training equipment is the conventional football training sled for teaching fundamental and functional techniques such as tackling and blocking. A typical football sled includes a horizontal base, including one or more sled-like runners, and a padded vertical extension mounted at one end of the sled base. The padded portion of the sled may be sized and shaped to represent an opposing player. A lineman may practice blocking techniques, for example, by blocking against the padded portion of the sled, driving the sled straight backwards as he would an opposing player. Weight may be added to the sled to increase effort required to drive the imitated opposing player back off the line. Some more advanced training sleds include a mechanism which allows a player both to drive the sled backward and to lift the padded portion of the sled without lifting the entire sled. This simulates player hip rotation which converts the horizontal movement generated forwardly by the player into a force which a vertical component which tends to lift the opposing player so as to render him momentarily helpless. In at least one such training sled, the padded portion of the sled is mounted on a telescoping arm. A mechanism is provided which prevents rotation of the blockage pad upward unless the pad mounted on the telescoping arm has been driven rearward by sufficient amount. Spring resistant provides resistance to rearward movement of the arm. An illustration of such a training device is shown in U.S. Pat. No. 5,462,272.
Typical football training equipment, such as training sleds are used as tools for training and practicing functional technique such as blocking, but do relatively little to increase the strength and endurance in the particularly functional application being taught or practiced. Furthermore, such training equipment is a tool for qualitative training only. With the use of such equipment, a coach or trainer can observe a player's technique and instruct him or her in required corrections and adjustments thereto. Such equipment does not provide for a quantitative measure of the effective application of the player's strength and endurance to the particular functional technique being taught in practice.
Moreover, while the apparatuses and devices of the past may provide examples of sleds having pads that can be driven, the prior art lacks a training device that simulates a game environment wherein a player is required to drive an opposing player rearward and also upward. Obviously, because not all players are built of the exact same height and shape, devices of the past did not provide a life-size dummy for performing such training and also failed to provide any type of life-size simulation that would simulate the movements of an opposing human player.
Further, the devices of the past failed to provide an indication of the power rating which provides an indication of the speed and power at which a player, such as a lineman, is engaging a life-size dummy and simultaneously driving the dummy in a desired direction. What is also lacking in the known devices of the past is that providing one or more of the combination of training devices with a capability of providing increased resistance as the player is driving the dummy upward and/or rearward, which facilitates increasing player's strength and endurance.
What is needed, therefore, is an improved training apparatus which overcomes one or more of the problems or deficiencies of the prior art.
In one embodiment, the invention provides a system and method that overcomes one or more of the problems identified in the prior art.
In another embodiment, the system and method provides a device and system for training a player proper football technique.
Still another embodiment illustrates a device that provides a life-size dummy that simulates an opposing player.
Another aspect, an embodiment is provided that provides increased resistance to the player as the player drives the training device.
In still another aspect, an engagement member is provided that can be driven upward on a predetermined angle, such as an angle of about 45 degrees, and substantially simultaneously or thereafter be driven rearward.
In still another aspect, one embodiment provides a system and method for providing an audio and visual indication of a speed and/or power rating associated with a training event during which a player engages the engaging member.
In still another aspect, another embodiment provides a system and method that enables a position of the engagement member to be adjusted relative to the player and/or relative to the ground.
In one aspect, the embodiment comprises a training system comprising a first frame, a second frame moveably mounted on the first frame so that the second frame can move in a first predetermined direction on the first frame and an engaging member moveably mounted on the second frame so that the engaging member can move on the second frame in a second predetermined direction and independently of movement of the second frame on the first frame. The second frame adapted to move from a second frame home position in a first predetermined direction when a player engages the engaging member and the engaging member adapted to move from an engaging member home position in a second predetermined direction in response to the player engaging the engaging member, wherein the engaging member and the second frame are adapted to move independently and the first predetermined direction is different from said second predetermined direction, the second predetermined direction being at least partially upward relative to the ground.
In one aspect, the embodiment comprises a training system comprising a first frame, a second frame moveably mounted on the first frame, and an engaging member moveably mounted on the second frame, the second frame adapted to move from a second frame home position in a first predetermined direction when a player engages the engaging member and the engaging member adapted to move from an engaging member home position in a second predetermined direction in response to the player engaging the engaging member, wherein the first predetermined direction is different from the second predetermined direction, wherein the system further comprises a resistance system for providing resistance as the player moves the engaging member away from the engaging member home position, wherein the second frame comprises a weight support for supporting weight, the resistance system further comprising a drive chain coupling the first frame, the second frame and the weight support such that when the player moves the engaging member away from the engaging member home position, the weight moves on a second member to provide an increased amount of resistance to the player.
In another aspect, another embodiment comprises a football training system comprising a base, a first support moveably mounted on the base, a second support moveably mounted on the first support so that the second support can move in a first direction on the first support and an engaging member support for supporting an engaging member above the ground, the engaging member support being adapted to move on the second support in a second direction independently of the movement of the second support on the first support, the engaging member being adapted to move away from the ground along a path that cooperates with the ground to define a predetermined angle and the second support also being adapted to move on the first support, the movement of the engaging member being at least partially upward relative to the ground.
In another aspect, another embodiment comprises a football training system comprising a base, a first support moveably mounted on the base, a second support moveably mounted on the first support, and an engaging member support for supporting an engaging member above the ground, the engaging member being adapted to move away from the ground along a path that cooperates with the ground to define a predetermined angle and the second support also being adapted to move on the first support, wherein the football training system further comprises a resistance system coupled to at least one of the first support, the second support or the engaging member support for providing resistance as a player moves the engaging member away from an engaging member home position, wherein the resistance increases at an increasing rate as the player moves the engaging member away from the engaging member home position, wherein the second support comprises a weight support for supporting weight, the resistance system further comprising a drive chain coupling a first frame, a second frame and the weight support such that when the player moves the engaging member away from an engaging member home position the weight support moves to provide a generally increasing amount of resistance to the player.
In another aspect, another embodiment comprises a training system comprising a first frame, a second frame moveably mounted on the first frame, and an engaging member moveably mounted on the second frame, the second frame being adapted to move from a second frame home position in a first predetermined direction when a player engages the engaging member and the engaging member adapted to move from an engaging member home position in a second predetermined direction in response to the player engaging the engaging member, wherein the first predetermined direction is different from the second predetermined direction, wherein the training system comprises resistance means for providing at least one of a variable or fixed resistance to the player after the player engages the engaging member and moves it in at least one of the first or second predetermined positions.
These and other objects and advantages of the invention will be apparent from the following description, the accompanying drawings and the appended claims.
Referring now to
The training system 10 comprises a first frame or support 12, a second frame or support 14 that is movably mounted on the first frame 12 in a manner described later herein, and an engaging member support or frame 16 that is movably mounted on the second frame 14. In the embodiment being illustrated, the engaging member support 16 supports a generally or substantially life-like or life-size dummy or engagement member 18, which is pivotally and movably mounted on the engaging member support 16 in the manner described later herein relative to
As illustrated in
The first and second frame members 20 and 22 are coupled together with at least one or a plurality of cross frame members 24 and 26 as shown in
Notice in
Referring now to
A second pair of vertical support members 60 and 62 is mounted on surface 40a as shown. A pair of intermediate reinforcing frame or support members 64 and 66 are secured to the vertical support members 60 and 62 by conventional means, such as a weld or fastener. A support member 70 joins the vertical support members 60 and 62 to the support frame member 68 as shown. In the embodiment being described, the support member 70 is angled downward from left to right (as viewed in
A pair of opposing plates or planar members 72 and 74 are secured, for example by a weld, to the vertical support members 60 and 62, respectively. The opposing plates or planar members 72 and 74 comprise and rotatably support a plurality of wheels 76, 78, 80 and 82 that cooperate to define a receiving channel or track 79 (
In the embodiment being described, the engagement support member 16 comprises a plurality of apertures or holes 91 that receive a rod or stops 92 or 94, which may be a bolt. When the engagement member 18 is not being engaged, the stops 92 and 94 prevent the engagement member 18 from exiting the track 19. During use, the player P may engage the engagement member 18 and drive it in the direction of arrow B (
Notice in
Substantially simultaneously or even prior to the stop 94 engaging the pads 96 and 98, the second support 14 may move in the direction of arrow C in
Thus, it should be understood that a distance D (
Referring now to
In the embodiment being described, the engagement member 18 comprises a cylindrical female tubular member 110 that has a life-size or life-like dummy mounted or overmolded thereon. The tubular member 110 has an internal female area 117 (
The training system 10 comprises means for adjusting the distance F (
It should be understood that the slots or apertures 116 and 118 permit the engagement member 18 to swivel or pivot about an axis of the cylindrical member 104 in the direction of double arrow K (
Advantageously, the training system 10 provides the engagement member 18 that not only moves in the direction of movement of the player P, but also simulates an opposing player by swiveling or pivoting in the manner illustrated in
Referring now to FIGS. 4 and 14-16, the training system 10 further comprises a resistance system 120 or means for providing at least one of a variable or fixed resistance to the player P as the player P moves or engages the engagement member 18 and drives it in the direction of arrow C in
To provide variable resistance, the second support 14 comprises a pivoting support 124 that has a platform 126 (
The resistance system 120 comprises a drive train 134 (
To perform the function of raising the ends 125a and 127a of the pivoting support 124, the resistance system 120 comprises a primary drive chain 140 that has an end 140a secured to the at least one or a plurality of cross frame members 26 that is mounted between a pair of flanges 142 and 144 (
As best illustrated in
Notice that drive chains 164 and 166 have ends 164a and 166a that are mounted to the sprockets 160 and 162, respectively, as shown. Second ends 164b and 166b are mounted, for example, by a screw, or nut and bolt or other suitable fastener to the legs or elongated support members 125 and 127, respectively, of the pivoting support 124.
Notice that an intermediate axle 174 is provided having two sprockets 176 and 178 that are aligned with, driven by and responsive to the drive chain 164 and 166, respectively, as shown in FIGS. 4 and 15-16. The axle 174 (
In the illustration being described, as the player P engages the engagement member 18 and the second support 14 is driven in the direction of arrow C, the primary drive chain 140 rotates the sprocket 150, which in turn rotatably drives the sprockets 160 and 162. The sprockets 160 and 162 collect their respective drive chains 164 and 166 which causes the ends 125a and 127a of the supports 125 and 127 to move or be raised from the position illustrated in
The rotation of the axle 188 drives the sprocket 190 which in turn drives the drive chain 194 to cause the platform 126 and any associated weight thereon, such as weight 38 illustrated in
Referring back to
In general, player P in
The invention computes (1) the reaction time of the player P, (2) the speed with which he moves the dummy 18, (3) the power with which he attacks the dummy, as indicated by the weight of weights 38 and the speed at which they are lifted, as well as other parameters, and displays these parameters to the player P.
Because of the low cost of modern personal computers, one embodiment of the invention contemplates using a personal computer for the computation described herein, the display of the computer for displaying data. Sensor input to the computer can be achieved using known data-acquisition cards, such as those available from Keithley-Metrabyte, for example.
In block 1000 of
When the start signal is received, block 1005 in
Block 1010 indicates that, when the count-down timer reaches zero, a “go” signal is issued to the player. As explained herein, the “go” signal can take the form of a flashing light, a buzzer, a simulated voice, or other signal. The components issuing the “go” signal are represented by blocks 204 and 206 in
In addition, the time when the “go” signal is issued is marked as time T1 as block 1010 indicates.
When player P detects the “go” signal, he attacks the dummy 18 in
Contact with the dummy can be detected in numerous ways. For example, as discussed above, an accelerometer can be attached to the dummy 18. When the dummy 18 moves, an acceleration will occur, which can be detected by associated circuitry.
It may be desirable to include a type of filter, to suppress spurious acceleration. For example, if a heavy truck were to roll by the player P, the truck may shake the ground and trip a sensitive accelerometer. Also, the coach may wish to ride the apparatus to which the dummy 18 is attached, because otherwise the player P will move away from the coach during attacks, especially repeated attacks, making it difficult for the coach to issue instructions to the player P. Normal body movement of the coach-passenger may trip the accelerometer.
Other approaches are possible to detect contact between the player P and the dummy 18. For example, a detector (contact or non-contact) may be trained on a specific spot on engaging member support 16 in
As another example, a chest plate (not shown), somewhat analogous to body armor, may be attached to the dummy 18. When the chest plate is moved toward the body of the dummy, a sensor may detect that movement, and infer contact by the player P. This sensor may resemble the floor switches used by supermarkets to detect a customer, and open an entry door in response.
At this time, the dummy is moving in the direction of arrow B in
Block 1025 in
Block 1030 in
Speed of the player P can be computed. The difference between T3 and T2 indicates the time required by the dummy to move between the positions shown in
Power delivered by the player can be computed. As shown in
One illustrative way to calculate the force or power rating is to calculate an average number based on various input variables. For example, one average number may correspond to an average number, the numerator of which is the sum of at least one of the following N number of variables:
(1) a first number corresponding to an initial hit force;
(2) a second number associated with an impact force that the player engages the engagement member; or
(3) a speed at which the second frame moves over a given time,
and wherein the denominator is the total number of variables selected to determine the numerator.
Block 1030 indicates that the parameters computed are displayed. The display allows the coach and the player to learn (1) reaction time, (2) player's speed, and (3) power delivered during the attack.
Block 1035 indicates that the speed of the sled is measured and displayed. As explained above, a wheel 30 may be used to measure ground speed of the sled, and this speed is measured and displayed.
Block 1040 in
Some additional considerations are the following.
The system may not undertake all the processes indicated in
In the case when a personal computer is used for the computation, a detailed interface can be presented to the user, allowing the user to select from among dozens of different options offered. Such options may include, for example, date of practice, speed data, top hit data, number of times hit during a period (e.g., one day), history of use information, number of repetitions and progress information such as an increase in hit force over time and the like.
In the general case, it is contemplated that the user is given the option of selecting any combination of processes in
It was stated above that the computed speed of the player is an average speed, based on the difference between T3 and T2. However, in an embodiment using an accelerometer, a more precise computation of speed is possible.
For a constant acceleration, current speed equals acceleration x time. For a non-constant acceleration, current speed is the integral, in the calculus sense, of acceleration over time.
Of course, if acceleration terminates before the stop 94 reaches the stop pad 96 in
It is pointed out that the speeds discussed above are speeds of the dummy 18, travelling in the direction of arrow B in
In one mode of operation, the user tells the controller 202 in
The control circuit or controller 202 may be provided on a board (not shown) and mounted in the housing 208 having the displays 204a and 204b which are mounted in a housing 208. Also, the display 204 may comprise at least one or a plurality of displays 204a and 204b and/or audio devices 206 that are mounted in a housing 208, as illustrated in
In the illustration being described, the training system 10 may comprise at least one or a plurality of sensors, such as sensors 210 and 212. In the embodiment being described, the sensor 210 comprises an accelerometer, Model No. ADXL available from Analog Devices of Norwood, Mass., mounted in the engagement member 18. The sensor 210 senses an impact by the player P and provides a signal to the controller 202 in response thereto. When the player P moves or drives the engagement member 18 until the stop 94 engages the pads 96 and 98, the sensor 210 or accelerometer generates a second signal corresponding to an increased resistance when the stop 94 engages the pads 96 and 98.
The control circuit or controller 202 receives the first and second signals and generates at least one or a plurality of player measurements or useful information in response thereto. For example, the control circuit or controller 202 may initially generate a “go”, “hike” or “hut . . . hut” audio signal through speakers 206a upon which the player P begins the training procedure. When the player P engages the engagement member 18 the sensor 210 generates the aforementioned first signal in response thereto. The controller 202 uses the begin and first signal to calculate a speed or time duration that it took the player P to engage the engagement member 18 after receiving the “go”, “hike” or “hut . . . hut” signal.
As the player P drives the engagement member 18 backward until the stop or rod 94 engages the pads 96 and 98, the sensor 210 generates the second signal. The controller 202 uses the first and second signals and provides a measurement of the speed at which the engagement member 18 stops relative to the second support 14. This provides an indication of a force or power at which the player P has driven the engagement member 18 at the time it engages the pads 96 and 98.
The controller 202 uses the speed and power signals or sensed signals to generate a speed rating that is displayed on display 204a and a power rating that is displayed on display 204b to provide a plurality of player measurements that enable a comparison of one training episode to another training episode involving the same or different player P. Thus, the performance measurer 200 enables measuring, monitoring and improving a player's performance by the player, a coach or a trainer.
In one embodiment, the sensor 210 may be mounted on the cylindrical member 104 or even integrally molded in the engagement member 18.
The training system 10 may also comprise the second sensor 212 that is coupled to the controller 202. In the illustration being described, the second sensor 212 is a rotary sensor Model No. RV24A-10-15F-B5K available from Alpha of Taoyuan, Taiwan, associated with wheel 30 that measures a speed of rotation of the wheel and thereby gives an indication of the speed at which the second support 14 is moved relative to the ground. This, in turn, gives an indication of how fast the player P is driving the engagement member and/or second support 14.
Advantageously, engagement member 18 comprises a life-like or life-size dummy of at least a bust of a person, such as an opposing football player. In one embodiment, the engagement member 18 may comprise integrally molded pads or external pads (not shown) that simulate or constitute the shoulder pads 220 (
Advantageously, the training system 10 provides means for training a player and improving a player's skills in movement relative to another player (not shown) which is represented or simulated by engagement member 18. During operation, the performance measurer or measurement means 200 may comprise a countdown timer, reset or start button 214 which a player, coach or trainer may use to initiate the training episode. In this regard, the countdown timer or start button may, after a predetermined period such as four seconds or even a random period, generate a signal which the control circuit or controller receives and generates an audio signal, such as a “go”, “hike”, “hut . . . hut” exclamation or the like. Although not shown, audio may be generated or broadcast through speakers 206a that simulates or replicates or provides a recording of, for example, an opponent's quarterback's voice and inflection to provide a realistic game-like experience.
The player P responds to the audio information by “firing out” in the direction of arrow C (
As mentioned earlier herein, the speed rating displayed on 204a may be directly related to the speed or time it took the player P to engage the engagement member 18 and drive it until the stop 94 engaged the pads 96 and 98 (
Advantageously, the training system 10 provides means and apparatus for measuring the initial contact speed at which a player P engages the engagement member 18, a force at which the player P has driven the engagement member 18, and also a speed at which the player P is driving at least one of the engagement member 18 and/or the second support 14 in the direction of arrow C in
While the apparatus and method herein described, and the form of apparatus for carrying this method into effect, constitute preferred embodiments of this invention, it is to be understood that the invention is not limited to this precise method and form of apparatus, and that changes may be made in either without departing from the scope of the inventions, which is defined in the appended claims.
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| Number | Date | Country | |
|---|---|---|---|
| 20080058128 A1 | Mar 2008 | US |
