The embodiments disclosed herein relate to sports screens, and, in particular to temporary retractable sports containment screens.
Many different sports require a player to launch a projectile (e.g. a ball, puck or the like) towards a goal or target. For a player to improve their eye hand coordination, they typically practice by launching projectiles towards an unattended goal or a target. During practice, players typically do not hit the goal or the target with every launched projectile and, when the goal or target is positioned in front of a structure, this can lead to the launched projectile striking and damaging the structure.
Sports screens or shields have been developed to be used as training aids with goals or targets. These screens or shields may are typically positioned either on or around a goal or target to prevent a launched projectile that misses the goal or target from travelling a great distance beyond the goal or target or striking a structure behind the goal or target.
Depending on the type of goal or target being used for practice, the sports screens or shields currently available can be very large in size and therefore cumbersome to position on or around the goal or target.
Accordingly, there is a need for new or improved retractable sports screens.
According to an embodiment, a retractable sport screen is provided. The sport screen includes a head roll mountable to a structure and a screen couplable to the head roll tube being movable between a first position and a second position. The screen is rolled up around the head roll tube when in the first position and extended towards a ground when in the second position. The screen further includes a middle bar received in a first pocket of the screen and spaced from the head roll when the screen is in the second position, a bottom bar received in a second pocket of the screen and spaced from the middle bar in a direction away from the head roll when the screen is in the second position, the bottom bar being weighted to provide tension to the screen to inhibit a launched projectile striking the screen from contacting the structure when the screen is in the second position, and a mounting assembly for mounting the head roll to the structure.
The head roll may comprise a head roll tube and an axle extending from each end of the head roll.
The mounting assembly may comprise a mounting bracket mountable to the structure and a drop-in bracket securable to the mounting bracket, the drop-in bracket having a receiver for receiving the axle.
The drop-in bracket may be secured to the mounting bracket by fasteners, each fastener extending through one of a plurality of securing holes of the drop-in bracket and a corresponding one of a plurality of fitment holes of the mounting bracket.
The plurality of fitment holes of the mounting bracket may be radially aligned with and radially spaced from a central point of the mounting bracket, the central point defined by an axis of the axles.
One of the axles may extend from a first side of the head roll and comprise an annular retaining groove that engages the receiver of the drop-in bracket for the drop-in bracket to receive the axle.
The mounting assembly may comprise a gear box for rotating the head roll and moving the screen between the first and second positions.
The mounting assembly may further comprise a side bracket and a gear box drive, the gear box being positioned between the side bracket and the gearbox drive, the gear box drive engagable with one of the axles extending from a second side of the head roll.
The middle bar may comprise two components telescopically engaged with a middle bar joiner.
The bottom bar may comprise two components telescopically engaged with a bottom bar joiner.
Other aspects and features will become apparent, to those ordinarily skilled in the art, upon review of the following description of some exemplary embodiments.
The drawings included herewith are for illustrating various examples of articles, methods, and apparatus of the present specification. In the drawings:
Various apparatus or processes will be described below to provide an example of each claimed embodiment. No embodiment described below limits any claimed embodiment and any claimed embodiment may cover processes or apparatus that differ from those described below. The claimed embodiments are not limited to apparatus or processes having all of the features of any one apparatus or process described below or to features common to multiple or all of the apparatus described below.
Turning to the Figures,
Head roll 1a includes a head roll tube 1 and at least one axle 20 extending therefrom (see
A screen (e.g. fabric) 10 of sports screen 100 may be fabricated from a flexible sheet material, optionally including an open mesh array as shown, and may include a printed or attached overlay 9 depicting a shooters target for a particular sport, such as but not limited to hockey, as shown in
At its lower extremity when in operation, sports screen 100 includes a weighted bottom bar 11 extending across the full width of the sports screen 100 between garage port-side-wall 2a and starboard-side-wall 2b.
Sports screen 100, in use, may extend the full height of a garage door opening from head roll 1a to bottom bar 11 which may be in contact with or just above a surface of the ground. In one embodiment, bottom bar 11 is just above the surface of the ground to tension screen 10 vertically and not leave any space below the bar 11, as shown in
At about its mid-height (see
As shown in
The head roll 1a in
Head roll tube 1 is closed at its port-side end with idler end 3 which provides a secure mounting for an axle 20 (see
Head roll tube 1 is rotated about its axis along line 6-6 to roll up and alternately, extend by unrolling, screen 10 as by operation of hand crank 12 or a motorized drive, with or without a remote control, not shown.
Middle bar 18, shown in
Bottom bar 15 is similarly a pair of telescoped components (e.g. stiff fiberglass rods) engaged horizontally and laterally with each other in a pocket of screen 10.
Head roll tube 1 is closed at its starboard-side end with gear-box drive 9 engaged in torque transmitting relationship with tube 10 as by the telescoping fit shown in
In
Mounting assembly 200 comprises a mounting (e.g. angle) bracket 4 and a drop-in bracket 5. Mounting bracket 4 may have an L-shape which includes attachment holes 24 and 25 whereby mounting bracket 4 may be attached to a structure 2 (e.g. a garage door frame 2 or structure wall face 7). Mounting bracket 4 is provided with a plurality of pairs of fitment holes 26, 27, 28 and 29 with each a-b pair perpendicular to, radially aligned with and equally radially spaced from axle 6 about a common intersection point 30. Axle 20 is supported upon drop in bracket 5.
Drop-in bracket 5 is itself secured to mounting bracket 4 by a pair of screws 7 with corresponding nuts 8 using mounting holes 32a and 32b and a corresponding pair of fitment holes 26, 2728 or 29 chosen for horizontal alignment along its axis 33 of drop-in bracket 5 with the ground. Drop-in bracket 5 includes an open receiver 31 for ease of assembly on site and a security lock pin 24 to retain axle 20 within receiver 31 in use. As can be seen, a port-side of mounting assembly 200 engages loading axle 20 and corresponding head roll tube 1 downward so that axle 6 engages in receiver 31 where it is restrained by lock pin 24 and annular groove 35, item 6 in the bill of materials above and in
In
In
Each end of middle bar 18 is provided with a Velcro end cap 20 including an insert 37 rotationally secured to strap 38 for rotation about axis 37 as by nut 39. Each Velcro cap is telescopically engaged with middle bar 18 as by alignment of its main axis 37 with the main axis 36 of the middle bar and loose insertion along directions A and B.
Screen 10 includes Velcro® catchment patches not shown at each lateral edge of pocket or series of loops across the face which engage with Velcro® straps 38 to restrain Velcro® end caps 20 in relation to the screen 10 and to provide for a free sliding engagement of middle bar 18 across the screen 10 along axis 36, now horizontal.
Engagement of crank 12 will rotate head roll tube 1 about its long axis and roll up screen 10 around its length. Middle bar 18 and bottom bar 15 are rolled up along with the screen 10 ready for immediately use upon being unrolled.
While the above description provides examples of one or more apparatus, methods, or systems, it will be appreciated that other apparatus, methods, or systems may be within the scope of the claims as interpreted by one of skill in the art.
Number | Date | Country | Kind |
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1618739.5 | Nov 2016 | GB | national |