The present invention relates generally to sporting apparatus and methods and more specifically to sporting apparatus and methods including sports throwing cages for use in athletic throwing events.
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Sometimes upon release, an errant hammer 166 does not propel toward the open end but might head in another direction toward the audience, watchers and passersby outside the cage. When this happens, a net that encircles the cage engages the errant implement to prevent it from reaching the audience.
At other times, when the net is tied back to its supporting pole, the errant hammer 166 would strike the pole to which the net was tied. After the pole is struck, the errant hammer 166 might cause one or more dents on the pole, typically made of aluminum; and might also tear the attached net. Users would then replace one or more of the poles after several such dents. At other times, the errant hammer 166 can also ricochet back toward the athlete after striking the pole.
Moreover, as the athlete performs, the audience typically watches the athlete through the net between the supporting poles. Depending on the position of the viewing audience, some of the poles would partially obstruct the audience's view as well as the athlete's view during performance. A similar context exists for other throwing events, such as discuss throwing, etc.
It is within the aforementioned context that a need for the present invention has arisen. Thus, there is a need to address one or more of the foregoing disadvantages of conventional systems and methods, and the present invention meets this need.
Various aspects of apparatus and methods for sports throwing cages the throwing cage system can be found in exemplary embodiments of the present invention.
In a first embodiment, the apparatus for sports throwing cages includes a pole, where one or more of the poles can be utilized to form a sports throwing cage. The pole might include multiple curtain couplings, multiple arms, a branch pole, and a support portion or base that engages the ground to hold up the pole.
The multiple curtain couplings are attached to each one of the arms to form multiple contact points for attaching a vertical curtain net. Unlike conventional throwing cages that use poles with a single arm and a single point of contact for attaching a vertical net curtain such that many poles are needed to support the vertical net curtain, the pole of the present invention considerably reduces the number of poles for the sports throwing cage by employing multiple arms and multiple points of contact on the pole for the vertical net curtain. In this manner, as the athlete performs, the audience watching the athlete through the vertical net curtain between the supporting poles would have a relatively unobstructed view because of the fewer poles employed by the present invention. The athlete similarly would have an unobstructed view for performing.
Moreover, each multiple arm is coupled to the branch pole, which is itself attached to the support at a bend. The bend is situated in the bent pole at a bend height. The support is coupled through the bend to support the arms and their curtain couplings that have a vertical net curtain forming an offset between the vertical net curtain and the support of the bent pole.
Conventional systems have little or no offset between the pole and the vertical net curtains (or curtain rope) so that the vertical net curtains can be tied back to the pole. Unlike such conventional systems, the offset between the vertical net curtains and pole of the present invention prevents the vertical net curtain from being tied back to the pole. In this manner, an errant implement or hammer thrown by an athlete cannot dent the pole, essentially eliminating significant costs associated with replacing dented poles of sports throwing cages and/or repairing the torn netting.
In a second embodiment, the apparatus includes a pole including multiple curtain couplings, a support, and a bend. The pole has a pole height and the bend is situated in the pole at a bend height.
The support is coupled to the bend to support the curtain couplings for a vertical net curtain, with a ratio of the bend height to the pole height adapting the pole to form an offset to the vertical net curtain that reduces the chance of contact between an errant implement and the pole. The curtain couplings are for hanging one or more net curtains to create a sports throwing cage to contain an implement as thrown in the athletic event.
A further understanding of the nature and advantages of the present invention herein may be realized by reference to the remaining portions of the specification and the attached drawings. Further features and advantages of the present invention, as well as the structure and operation of various embodiments of the present invention, are described in detail below with respect to the accompanying drawings. In the drawings, the same reference numbers indicate identical or functionally similar elements.
Reference will now be made in detail to the embodiments of the invention, examples of which are illustrated in the accompanying drawings. While the invention will be described in conjunction with the preferred embodiments, it will be understood that they are not intended to limit the invention to these embodiments. On the contrary, the invention is intended to cover alternatives, modifications and equivalents, which may be included within the spirit and scope of the invention as defined by the appended claims. Furthermore, in the following detailed description of the present invention, numerous specific details are set forth to provide a thorough understanding of the present invention. However, it will be obvious to one of ordinary skill in the art that the present invention may be practiced without these specific details. In other instances, well-known methods, procedures, components, and circuits have not been described in detail as to not unnecessarily obscure aspects of the present invention.
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The offset results from the bend 230, specifically the top pole 240 is coupled to the support 220 at the bend 230 angle. The arm 250 then attaches to the top pole 240 in a substantially horizontal direction (in one embodiment). The vertical net curtain 280 is then attached to the arm 250 at two points via net coupling 210 and net coupling 212. The vertical net curtain 280 is at an offset 282 from the support 220. This offset 282 in one embodiment, is at least 3 of feet.
The bent pole 200 may be made of aluminum, steel or other similar high tensile strength materials. The net couplings 210, 212 may similarly be made of aluminum, steel, or other high tensile strength materials. The dimensions of the pole and couplings, in one embodiment, may be based on IAAF (International Association of Athletics Federation) specifications.
The bent pole 200 has a pole height 202 and the bend 230 is situated at the bend height. The ratio of the bend height to the pole height might be between 20% and 67%. In certain embodiments, this ratio may be at least 25% and at most 60%. In certain further embodiments, this ratio may be at least 33% and at most 57%. In further embodiments, this ratio may be at least 40% and at most 53%. These ratios may also apply to the bent pole 300 of
The arrangement of the bent pole 200 and offset 284 minimize the chance that the vertical net curtain 280 rope that holds the vertical net curtain 280 in place will be tied back to the pole; as such, unlike conventional systems where there is little or no offset between the net and the ropes, the bent pole of the present invention is offset from the net so that the net cannot be tied back onto the pole. Consequently, an errant implement 166 cannot hit the bent pole or repel off the bent pole to hit and seriously injure an athlete.
This is also true for any of the embodiments 300, 400 and 500 as shown in
Conventional aluminum cages have low wind ratings, which means the cage's nets need to be lowered if winds exceed the cage rating (for example 20 mph). This makes cage operation labor intensive. Often the cages require framed gates that are heavy and require support wheels which are often difficult to operate to open and shut the door of the cage. Nets often get tangled and damaged in the wheel brackets.
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In some embodiments, the pole height 202 may vary from 5.0 to 10.5 meters and the bend height 232 may vary from 2.0 to 6.0 meters. For example, when the pole height is 5.0 meters, the bend height may be 2.0 meters. Another example, when the pole height is 10.5 meters the bend height may be 6.0 meters. In some embodiments, the offset 282 may be between 0.5 meters to 1.2 meters.
The discussion of further advantages to using, constructing and operating sports cage nets based upon the embodiments 200, 300, 400 and/or 500 will be found after the
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For example, branch pole 360 includes a first arm 350 including curtain couplings 210 and 212. The second branch pole 362 includes a second arm 352 further including curtain couplings 314 and 316. The cross section A-A is shown and will be discussed in detail regarding
In some embodiments, the pole height 202 may be between 4.5 meters and 7.5 meters. The bend height 232 may be between 3.0 meters and 5.0 meters. For example, one bent pole 300 may have a pole height of 4.5 meters and a bend height of 3.0 meters. In another example of the bent pole 300, the pole height may be 7.5 meters and the bend height may be 5.0 meters.
In some embodiments, the branch pole 360 and/or 362 may be 2.0 to 5.0 meters long. In some embodiments, the arm 350 and/or 352 may be 2.0 to 3.5 meters long.
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The cross section A-A is shown and will be discussed in detail regarding
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These components may include any combination of the support 220, bend 230, top pole 240, the arm 350, and/or the curtain couplings 210 and/or 212. In other embodiments, the package 800 may include components for the bent pole 200 of
Note that in some embodiments, the first branch pole 360 and the second branch pole 362 may be manufactured as a single unit. Further note, in some embodiments, the bend 230, the first branch pole 360 and the second branch pole 362 may be manufactured as a single unit. In other embodiments, the package 800 may include components for the bent pole 500 of
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In another embodiment of the present invention, the apparatus for sports throwing cages includes a package 800 to create at least one of the bent poles 200, 300, 400, and/or 500. The package may further include components such as a support 220, a bend 230, a top pole 240, a branch pole(s) 360 and/or 352, an arm(s) 350 and/or 352 and/or curtain couplings 210, 212, 314 and/or 316.
In another embodiment, a method includes at least one of the following: The method may include installing a bent pole tending away from vertical and including multiple curtain couplings to minimize contact between an errant implement and the bent pole. The multiple curtain couplings may be adapted to hang one or more net curtains to create a throwing cage adapted to contain the errant implement away from the bent pole as thrown in an athletic event.
The method may include operating the throwing cage without a concrete apron to support the bent pole. The method may include using the throwing cage during the athletic event to improve a spectator's view of an athlete competing in the athletic event throwing the implement. And/or the method may include leaving the throwing cage operational until wind speed approaches 74 mph, and in some situations, until the wind speed approaches 95 miles per hour.
While the above is a complete description of exemplary specific embodiments of the invention, additional embodiments are also possible. Thus, the above description should not be taken as limiting the scope of the invention, which is defined by the appended claims along with their full scope of equivalents.