The present invention relates generally to sporting goods, namely an adjustable and attachable bracket mechanism for sports goal practice backstop systems. More specifically, the invention relates to an adjustable bracket that can telescope to fit all frame sizes and widths of a hockey goal.
Many sports like hockey, lacrosse, golf, and soccer require a player to participate in the game by scoring goals, which involves the utilization of some type of ball or similar object in order to accomplish the outcome of the game. A player must successfully score a goal by getting the ball or puck into a goal. Goal backstops are often used during practice to aid in retaining the ball or playing within the confines of the playing field or practice area.
Many players spend countless hours practicing shooting pucks and balls into locations that tend to be more difficult for the goalie to protect. These target shooting practice usually occurs within a predefined practice area with the help from a sports goal backstop system to retain a puck or a ball. Any interrupted practice situations can become frustrating, discouraging, and cause players, especially younger players to quickly lose interest and/or practice their shooting drills less. Any time spent finding and retrieving wild pucks and balls takes time away from actual practice and ultimately is wasted time for individuals trying to perfect their shooting.
In addition, depending on the location of the field, rink, or practice area, and the inherent proximity to wooded areas, houses, and/or automobiles, when shots are missed, the ball may be lost and damage may additionally be incurred by surrounding houses, automobiles, and even people and animals. For example, a hockey puck can cost about $3.00 per puck, which can place additional financial burden on players on a regular basis and renders practicing intricate shots prohibitive from a budgetary standpoint. Furthermore, an innocent bystander or personal property may withstand injury or damage from loose, wild pucks, taking chances will inherently be discouraged.
As a result, players rely on various types of sports goal backstops to retain a ball, to prevent it from travelling beyond the goal or the practice area, and to keep the ball in a general practice area. Further, backstops are used in retrieval of shots that miss the desired mark.
However, some prior art backstop apparatuses require extensive setup and maintenance, including the possibility of using tools to assemble and drill holes in the goal in order to install the apparatus. This type of design is likely quasi permanent due to the difficulty in setting up and handling the components of the apparatuses.
Further, many prior art utilizes a “fence-like” design that simply comprises a long metal tubular framed net installed to the ground behind the goal using stabilizing cables at each end. This type of design is flimsy and does not withhold impact from pucks, balls, or strong wind, which substantially increases the likelihood of being damaged during practice. More importantly, they do not offer backstop support for “bounce shots” as described above.
Additionally, some prior art backstops adopt a “cage” type design, similar to a golf practice apparatus, which is intended to fully encase the entire goal. However, these backstops possess very limited backstop protection from side to side and above the goal standpoints. The cage-like design is extremely restrictive when trying to practice shooting on a net at an angle.
In other instances, many prior art backstop systems cannot be easily stored away at the end of practice and take up massive amount of storage space. Others are statically attached to a practice goal, which must be transported and set up at the field for practice, and then transported from the field. The process is not only cumbersome, but also extremely time consuming.
The present invention, as illustrated herein, is clearly not anticipated, rendered obvious, or even present in any of the prior art mechanisms, either alone or in any combination thereof.
Provided in one aspect is a smart backstop system mounted on a hockey goal which comprises a universally attachable and adjustable bracket mechanism that may telescope to fit all frame sizes and widths of a hockey goal and other similar types of sports goals. The backstop system provides improved side coverage of a practice area with a forward lean design. It is durable, lightweight, versatile yet can be transported and stored easily without the need to utilize any tools.
Accordingly, certain aspects are directed to an universal sports goal practice backstop system comprising a telescoping bracket mechanism that can be mounted securely on a hockey goal of all sizes and widths and other similar sports goals via a plurality of bolt clamping apparatuses, wherein the bracket further comprises a frame with an inner and outer telescoping tube assemblies and lock/unlock buttons for length adjustability.
In a preferred embodiment, the system is easy to mount and dismount from a hockey goal by hand via a plurality of bracket mechanisms and pivot bracket mechanisms. It is lightweight, compact, and durable. It may fit but is not limited to a configuration such as a 60 inch×10 inch×8 inch box or in a travel bag or other duffle bag mechanism. Once the setup is completed, it requires only one person to deploy and stow the present system.
In one embodiment, a sports goal practice backstop system is configured to removably attach to a sports goal comprising a telescoping bracket frame. The telescoping bracket frame is removably mounted to a sports goal and is comprised of at least two bolt clamping mechanisms. Each of the bolt clamping mechanisms comprise a clamp configured to removably attach to the sports goal, a clamp knob configured to prevent the sports goal practice backstop system from rotating during use, and a bracket configured to center the telescoping bracket frame. The sports goal practice backstop system further comprises a pair of pivot bracket assemblies located at each end of the telescoping bracket frame. Each pivot bracket assembly further comprises a corresponding net pole socket, and a first and second telescoping net pole. Each net pole is received in a corresponding net pole socket on the pivot bracket assembly. The first and second telescoping net poles extend outwardly from each end of the telescoping bracket frame.
In one embodiment, the backstop system does not require any drilling of holes in a goal and the utilization of tools to assemble and mount the system on the goal because the frame has a plurality of self-centering “V” brackets and J-bolt clamp knobs to accommodate and securely mount the backstop system on goals with different diameters.
In one embodiment, the backstop system further comprises a pair of universal pivot bracket assemblies attached to the right and the left end of the system, wherein the “X” shaped configuration on the back side of the mounting base of the pivot bracket assemblies allows the mounting bases to be attached to either the left or the right end of the inner tube assembly. Additionally, each pivot bracket assembly further includes a net pole socket, wherein the exterior of the sockets has reinforcement rings to improve hood strength around the net pole sockets to help prevent breaking under pole lateral stress; and wherein a pivot bracket polymer insert is located inside each net pole socket to absorb energy and minimize stress on the socket to prevent fatigue.
In one embodiment, each pivot bracket assembly further comprises a pair of net retainer holes for the straps that retains a net assembly to the pivot bracket assembly.
In yet another embodiment, the present system provides a lift to unlock design for the pivot bracket sockets which allows a user to lift to unlock and rotate the pivot bracket assemblies into a forward lean position from a fold-away position. A user may lift to unlock the backstop system from the fold-away position by pulling the universal pivot brackets to deploy the net assembly. This procedure repeats in reverse to stow away the backstop.
Additionally, the backstop system provides extended coverage around the area of the frame and allows the player to stow the backstop netting behind the goal in a non-functional area so that the goal can be practiced without the interference of a backstop. The benefit of this design is that the player can easily deploy the backstop for practice and then quickly stow it away for game-like shooting and scrimmages.
In yet another embodiment, the present system provides a backstop design that offers shot protection from all angles including the top due to its innovative forward angular design on all three sides—top, left, and right. The top angle design allows the player to take bounce shots with a high probability of stopping it in the event that it misses the intended target. The corner and side gap shorts are supported by the forward angular side design. If the player wishes to practice sharp angle shots from either side, the player simply folds the shooting side net wing back behind the goal, leaving the rest of the system intact and functioning, thus allowing the player to shoot without interference from the backstop on that given side.
The present invention provides a universally adjustable and attachable backstop system for hockey goals and other similar sports goals with a telescoping bracket mechanism and a number of pivot bracket mounting mechanisms that are designed to fit all sizes and widths of a hockey goal. The backstop system provides extended and adjustable side coverage of a practice area with its forward lean design. It may facilitate in the prevention of a wayward shot from traveling beyond the goal and thus eliminate the need for the players to chase the ball or puck. This allows for more efficient practice time. Further, the backstop system is durable, lightweight, versatile yet can be transported and stored easily without the need to utilize any tools.
Reference will now be made to non-limiting embodiments, examples of which are illustrated in the Figures.
Additionally, the bolt clamp apparatuses 15a-15c further comprises J clamps 18a-18c and clamp knobs 22a-22c, wherein the clamp knobs 22a-22c may have large diameters in order to prevent catching or snagging in the backstop netting. In a preferred embodiment, net pole sockets 19a and 19b each comprises concentric rings 28a and 28b to improve strength of the net pole sockets 19a and 19b to help prevent breaking under pole lateral stress.
In one embodiment as shown in
In one embodiment as shown in
Various components of one embodiment of a net assembly 30 are shown in
This application claims the benefit of and takes priority from U.S. Provisional Patent Application Ser. No. 63/351,588 filed on Jun. 13, 2022, the contents of which are herein incorporated by reference.
Number | Date | Country | |
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63351588 | Jun 2022 | US |