1. Field of the Present Disclosure
The present disclosure is generally concerned with basketball systems. More specifically, the disclosed embodiments concern a basketball system that may, in one implementation, include a base to which a post is attached. An adjustment mechanism may be attached to the post. A backboard support structure may be attached to the adjustment mechanism. A backboard may be attached to the backboard support structure. Finally, a rim may be attached to the backboard.
2. Description of Related Art
A variety of different basketball systems have been constructed, but many suffer from one or more deficiencies. Example embodiments within the scope of this disclosure may thus present one or more advantages relative to other basketball systems. Such advantages may relate to a single piece backboard that can be supported without the use of adhesives. Other advantages may relate to the use of a post with rolling elements. Still other advantages may relate to a lift mechanism that is biased in an extended position. Yet other advantages may relate to the use of one or more blow-molded plastic components. The aforementioned possible advantages are presented solely by way of illustration and may or may not apply to any given embodiment and, accordingly, such advantages, if any, should be not construed to limit the scope of the invention in any way.
It should be noted that the embodiments disclosed herein do not constitute an exhaustive summary of all possible embodiments, nor does this brief summary constitute an exhaustive list of all aspects of any particular embodiment(s). Rather, this brief summary simply presents selected aspects of some example embodiments. It should be noted that nothing herein should be construed as constituting an essential or indispensable element of any invention or embodiment. Rather, various aspects of the disclosed embodiments may be combined in a variety of ways so as to define yet further embodiments. Such further embodiments are considered as being within the scope of this disclosure. As well, none of the embodiments embraced within the scope of this disclosure should be construed as resolving, or being limited to the resolution of, any particular problem(s). Nor should such embodiments be construed to implement, or be limited to implementation of, any particular technical effect(s) or solution(s).
Disclosed embodiments are generally concerned with basketball systems and associated components. Embodiments within the scope of this disclosure may include any one or more of the following elements, and features of elements, in any combination: a base, which may or may not comprise a plastic structure that has been blow-molded, roto-molded, or constructed with a twin-sheet process; a base which may be at least partially hollow and configured to be at least partly filled with a ballast material; an auxiliary base unit that may be connected, at least indirectly, to a base; a post configured to be connected, at least indirectly, to a base; a post configured to be received, removably or otherwise, in a base; a base that may include one or more wheels or other devices of similar functionality connected, at least indirectly, to the base; a backboard support structure configured to be connected, at least indirectly, to a post; a backboard configured to be connected, at least indirectly, to a backboard support structure; a backboard support arm which may or may not comprise a plastic structure that has been blow-molded, roto-molded, or constructed with a twin-sheet process; a fixed backboard support arm; a triggerless adjustment mechanism that enables a user to raise and lower an associated backboard; an adjustment mechanism configured to adjust a height of a backboard; an adjustment mechanism configured to adjust a height of a backboard and also configured so that the adjustment mechanism is biased to a fully extended state where a height of the backboard is at a maximum; an adjustment mechanism configured to adjust a height of a backboard and also configured so that the adjustment mechanism is biased such that force is required to overcome the bias in order to change the height of the backboard; an adjustment mechanism configured to adjust a height of a backboard and also configured so that the adjustment mechanism is biased to an extended state such that force is required to overcome the bias in order to move the adjustment mechanism to a non-extended state and/or to a less than fully extended state; an adjustment mechanism configured so that a user can unlock the adjustment mechanism, so as to enable backboard movement, by rotating a handle of the adjustment mechanism toward the user; an adjustment mechanism configured so that, when the adjustment mechanism is unlocked, a user can decrease the height of the backboard by pulling a handle of the adjustment mechanism toward the user; a rim configured to be connected, at least indirectly, to a backboard; a rim configured to be partially, or completely, rigidly connected, at least indirectly, to a backboard; a backboard frame configured to enable a backboard to be connected to the backboard frame with little, or no, adhesive; a backboard substantially comprising formed polycarbonate; a backboard substantially comprising a formed acrylic; a biasing mechanism configured to bias an adjustment mechanism to a desired state or configuration; and, a biasing mechanism configured to be locked and unlocked.
Note that as used herein, the term ‘at least indirectly connected’ embraces arrangements in which, for example, a first element is connected to a second element not directly but by way of one or more intervening elements, and also embraces arrangements in which, for example, a first element is directly connected to a second element.
The appended drawings contain figures of some example embodiments to further clarify various aspects of the present disclosure. It will be appreciated that these drawings depict only some embodiments of the disclosure and are not intended to limit its scope in any way. The disclosure will be described and explained with additional specificity and detail through the use of the accompanying drawings in which:
a is a partial perspective view of an adjustment mechanism, indicating a handle in a position that corresponds to an unlocked biasing mechanism;
b is a partial perspective view of an adjustment mechanism, indicating a handle in a position that corresponds to a locked biasing mechanism;
The present disclosure is generally concerned with basketball systems. In brief, a basketball system may, in one implementation, include a base to which a post is attached. An adjustment mechanism may be attached to the post. A backboard support structure may be attached to the adjustment mechanism. A backboard may be attached to the backboard support structure. Finally, a rim may be attached to the backboard.
In general, basketball system components disclosed herein may be constructed with a variety of components and materials including, but not limited to, plastic (including blow-molded, roto-molded, and twin sheet plastic structures and elements) including polycarbonates, composites, metals, and combinations of any of the foregoing. Suitable metals may include steel, aluminum, and aluminum alloys, although the skilled person will understand that a variety of other metals may be employed as well and the scope of the invention is not limited to the foregoing examples. Where metal is employed in the construction of a basketball system component, the metal elements may take one or more forms including, but not limited to, square tube, rectangular tube, round tube, pipe, angles, flatbar, I-shapes, T-shapes, L-shapes, and combinations and portions of any of the foregoing.
Depending upon the material(s) employed in the construction of the basketball system, a variety of methods and components may be used to connect, releasably or permanently, various elements of the basketball system. For example, the various elements of a basketball system or basketball system component within the scope of this disclosure may be attached to each other by any one or more of allied processes such as welding or brazing, and/or mechanically by way of fasteners such as bolts, screws, pins, and rivets, for example.
Some, none, or all of portions of a one or more of the basketball system components may be coated with paint or other materials. Surface treatments and textures may also be applied to portions of the basketball system. At least some of such materials may serve to help prevent, or reduce, rust and corrosion.
Directing attention first to
With general reference now to
Example Post and Base Configurations
With continued reference to
The base 200 may be configured with any desirable configuration. For example, and as discussed in further detail below and also illustrated in the Figures, the base 200 may include one or more recesses, pockets, grooves, tunnels, through holes, lugs, openings, ribs, contours, or other features, or combinations of any of the foregoing. In some instances, one or more of such features may enable removable, or permanent, attachment of various structures to the base 200.
For example, in at least some embodiments, the base 200 is configured to enable the attachment, to the base 200, of one or more auxiliary base units (not shown), which may comprise blow-molded plastic structures having substantially hollow interiors. The auxiliary base units may be similar to the base 200 in that one or more of the auxiliary base units include one or more plugs that enable the auxiliary base unit to be filled with a ballast material, which can also be removed from the auxiliary base unit when desired.
In general, one or more of the auxiliary base units can be removably attached to the base 200 through the use of fasteners such as bolts, screws or pins. In some embodiments, one or more auxiliary base units may be provided that are substantially solid and made of a relatively heavy material such as steel, or concrete. Like the substantially hollow auxiliary base units, the substantially solid auxiliary base units may be configured to be releasably attached to the base 200.
As best indicated in
With continued reference to
With continued reference to
With continued reference to
Example Adjustment Mechanism
Directing attention now to
As indicated in the aforementioned Figures, the adjustment mechanism 500 includes a biasing mechanism 501, such as a gas shock or similar component. The biasing mechanism may additionally, or alternatively, comprise one or more springs or elements of similar functionality.
In the illustrated example, the biasing mechanism 501 includes a piston 503 arranged for reciprocal movement relative to a housing 505 within which the piston 503 is at least partially received. In general, the biasing mechanism 501 is configured such that the piston 503 is biased out of the housing 505 into an extended position such that exertion of a force is necessary to push the piston 503 back into the housing 505, that is, to a retracted position. One effect of such a bias may be that the adjustment mechanism 500 and, thus, the backboard 700, is biased toward an extended position.
In other embodiments, the biasing mechanism 501 may have a neutral bias such that, in the absence of any force, the piston 503 tends to remain in a fixed position relative to the housing 505 after the piston 503 has been moved. In still other embodiments, the biasing mechanism 501 may be configured such that the piston 503 is biased into the housing 505 such that exertion of a force is necessary to draw the piston 503 away from the housing 505 into the extended position.
Regardless of the nature of the bias of the biasing mechanism 501, the biasing mechanism 501 may include a locking mechanism 507, such as a pin for example, that permits the position of the piston 503 to be locked relative to the housing 505. In an embodiment where the piston 503 is biased into the extended position, the exertion of a force on the piston 503 may move the piston 503 to the retracted position. The locking mechanism 507 then enables the piston 503 to be locked into the retracted position. Correspondingly, release of the locking mechanism 507 enables the piston 503 to move automatically to an extended position. In the illustrated embodiment, where the locking mechanism 507 comprises a pin, movement of the pin a distance into the housing 505 unlocks the biasing mechanism 501 such that the piston 503 is able to move relative to the housing 505. Correspondingly, movement of the pin a distance out of the housing 505 locks the biasing mechanism 501 such that the piston 503 is fixed relative to the housing 505. In this way, the adjustment mechanism 500 and, thus, the backboard 700, can be substantially prevented from moving.
Movement of the pin a distance into the housing 505 may be effected as disclosed elsewhere herein. Correspondingly, the pin may be biased a distance out of the housing 505 so that in the absence of a counteracting force or component, the pin is in a position that corresponds to a locked disposition of the biasing mechanism 501.
As further disclosed in the example of
As indicated in
As best shown in
With particular attention now to
With particular reference now to
As explained below, the handle 529 can be rotated to effect locking and unlocking of the biasing mechanism 501. As shown in
With reference to the handle 529 position shown in
At such time as the backboard 700 is positioned at the desired height, the user may then lock the biasing mechanism, thereby securing the backboard 700 is a desired position, by rotating the handle 529 upward. In particular, as the handle 529 is rotated upward, the upper cam surfaces 529A slide past the actuation bar 533. As a result of the differing configuration and arrangement of the lower cam surfaces 529B, the lower cam surfaces 529B enable the actuation bar 533, still in contact with the locking mechanism 507, to move downward in the slot 535 away from the locking mechanism 507. This motion of the actuation bar 533, in turn, enables the locking mechanism 507 to extend a distance from the housing 505, so that the biasing mechanism 501 is locked.
As should be apparent, the example adjustment mechanism 500 may be advantageous in one or more ways. By way of illustration, a user can unlock the biasing mechanism 501 and lower, or permit the elevation of, the backboard 700 solely by use of the handle 529. No triggers or trigger mechanisms are required. As another example, because the biasing mechanism 501 is configured to bias the adjustment mechanism 500 toward an extended position, raising the backboard 700 is relatively easily accomplished, without significant effort on the part of the user. As a further example, the weight of the backboard 700 and other elements also enable a user to lower the backboard 700 relatively easily after the biasing mechanism 501 has been unlocked.
Example Backboard Support Structure and Related Elements
Turning now to
As indicated in the example of
In addition to the center support member 601, the backboard support structure 600 may also include a pair of backboard support arms 611. In at least one example embodiment, the backboard support arms 611 are made of blow-molded plastic but, as noted elsewhere herein, the backboard support arms 611, like other components of the disclosed basketball systems, may be constructed of metal, composites, plastics, or any combination of the foregoing. The lower portion of each backboard support arm 611 is attached to the center support member 601. This attachment may be effected with bolts, brackets and/or any other suitable device(s). As well, the two backboard support arms 611 split into portions that are attached to the frame 701. In the example of
As noted above, and disclosed in
With attention now to
As indicated in
Directing further attention now to the attachment of the brackets 605 to the backboard 700 and rim 800, four fasteners 609 are provided that extend from the rim side of the backboard 700 through a box 801, which may be constructed of folded metal, that serves to distribute the load imposed by the rim 800 on the backboard 700. Additionally, a U-bolt 803 or similar device may be provided that extends through the brackets 605 and the box 801. Disposed on each leg of the U-bolt 803 extending from the rim side of the backboard 700 is a spring 805. The springs 805 are retained in place by a plate 807 through which the legs of the U-bolt 803 extend. Among other things, the springs 805 may permit the rim 800 to flex downward in response to imposition of a force or load, and the plate 807 may help ensure that the springs 805 are uniformly compressed when exposed to a load or force. A bracket 809 attached to the box 801 supports a pin 811 which is received by holes 813A defined by a housing 813 within which the springs 805 are disposed. The housing 813 also defines holes that receive the ends of the fasteners 609 such that the nuts that secure the fasteners 609 are disposed within the housing 813. Finally, the housing 813 includes a removable cover 813B.
Although this disclosure has been described in terms of certain embodiments, other embodiments apparent to those of ordinary skill in the art are also within the scope of this disclosure. Accordingly, the scope of the disclosure is intended to be defined only by the claims which follow.
This application hereby claims priority to U.S. Provisional Patent Application Ser. 61/446,749, entitled BASKETBALL SYSTEM, filed Feb. 25, 2011, and incorporated herein in its entirety by this reference.
Number | Date | Country | |
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61446749 | Feb 2011 | US |