BACKGROUND
The present invention relates to cornhole boards, and more specifically to a cornhole board leveling system.
Cornhole is a lawn game in which players or teams take turns throwing fabric bean bags or other items at a raised, angled board with a hole at an end. FIG. 1 shows a typical cornhole board 10. A single cornhole board 10 is preferably 2 by 4 feet (0.61 by 1.22 m), with a 6-inch (150 mm) diameter hole 3. The cornhole board 10 has a first end 2a opposite a second end 2b, and a top surface 2c opposite the bottom surface 2d, and two side surfaces 2h. The side surfaces 2h have a top edge 2i and a bottom edge 2j. Legs 4, 5 are attached to the second end 2b. A hole 3 is present along the top surface 2c and extends from the top surface 2c through to the bottom surface 2d. The hole's center is positioned 9 inches (230 mm) down from the center of the edge 2e of the board.
The legs 4, 5 have a first end 4a, 5a connected to the bottom 2d surface of the board 10 and the second end 4b, 5b which contacts the ground 6. It is noted that there is space between the legs 4, 5 and a back edge 2g of the second end 2b of the cornhole board 10. The second end 2b of the board 10 is a greater distance from the ground than the first end 2a. The legs 4, 5 are typically made of boards with a thickness of 1.5 inches (38.1 mm) or less and a maximum width of 3.5 inches (88.9 mm) since the boards are typical 2 ft (60.96 cm)×4 ft (121.92 cm). The front edge 2f of the first end 2a contacts the ground.
Each board 10 is angled with the back edge 2e of the playing surface 12 inches (300 mm) above the ground, and the front edge 2f three to four inches (76-102 mm) above the ground with an angle of 10 degrees. A standard court places the two boards 33 feet (10 m) or 27 feet (8.2 m) apart, measuring from the front edge 2f of the boards. The boards are often set up on a lawn which is not level, making placement and angling of the boards appropriately and fairly very difficult.
SUMMARY
According to one embodiment of the present invention, a kit for leveling one or more cornhole boards is disclosed. The kit comprises: at least one pair of back leg bracket assemblies and one or more front leg bracket assemblies.
The back leg bracket assemblies comprising: a right leg bracket assembly and a left leg bracket assembly. The right leg bracket assembly has a right leg having a right leg portion connected to a right leg base portion at a first angle; a right back leg bracket guide having a right leg guide body defining a closed end bore adapted to receive a right leg of a back of one or more cornhole boards and connected to a right leg guide defining a right leg through bore and a right leg screw bore perpendicular to and connected to the right leg through bore adapted to receive a screw; wherein the right leg portion of the of the right leg is received within the right leg through bore, such that the right leg guide is vertically adjustable about the right leg portion. The left leg bracket assembly has a left leg having a left leg portion connected to a left leg base portion at a second angle; a left back leg bracket guide having a left leg guide body defining a closed end bore adapted to receive a left leg of a back of one or more cornhole boards and connected to a left leg guide defining a left leg through bore and a left leg screw bore perpendicular to and connected to the left leg through bore adapted to receive a screw; wherein the left leg portion of the of the left leg is received within the left leg through bore, such that the left leg guide is vertically adjustable about the left leg portion; and
The one or more front leg bracket assemblies each comprises: a front leg having a front leg portion connected to a front leg base portion at a third angle; and a front leg bracket guide body defining a closed end bore adapted to receive a front edge of the at least one cornhole boards comprising a guide body defining a guide body closed end bore and connected to front leg bracket leg guide defining a through bore and a screw bore perpendicular to and connected to the through bore to receive a screw; wherein the front leg portion of the of the front leg is received within the through bore, such that the front leg bracket guide is vertically adjustable about the front leg.
The kit can also include a collapsible reducing wedge for insertion within the right leg guide body and/or the left leg guide body, a reducing shim for insertion within the one or more front leg bracket assemblies and a horizontal and angle slope level. It is noted that the reducing shims are used for legs that are less than 1.5 inches (38.1 mm) in width.
According to another embodiment of the present invention, a kit for leveling one or more cornhole boards is disclosed. The kit comprises: at least one pair of back leg bracket assemblies, one or more front leg bracket assemblies, an alignment cable and alignment clips.
The back leg bracket assemblies comprising: a right leg bracket assembly and a left leg bracket assembly. The right leg bracket assembly has a right leg having a right leg portion connected to a right leg base portion at a first angle; a right back leg bracket guide having a right leg guide body defining a closed end bore adapted to receive a right leg of a back of one or more cornhole boards and connected to a right leg guide defining a right leg through bore and a right leg screw bore perpendicular to and connected to the right leg through bore adapted to receive a screw; wherein the right leg portion of the of the right leg is received within the right leg through bore, such that the right leg guide is vertically adjustable about the right leg portion. The left leg bracket assembly has a left leg having a left leg portion connected to a left leg base portion at a second angle; a left back leg bracket guide having a left leg guide body defining a closed end bore adapted to receive a left leg of a back of one or more cornhole boards and connected to a left leg guide defining a left leg through bore and a left leg screw bore perpendicular to and connected to the left leg through bore adapted to receive a screw; wherein the left leg portion of the of the left leg is received within the left leg through bore, such that the left leg guide is vertically adjustable about the left leg portion.
The one or more front leg bracket assemblies each comprises: a front leg having a front leg portion connected to a front leg base portion at a third angle; and a front leg bracket guide body defining a closed end bore adapted to receive a front edge of the at least one cornhole boards comprising a guide body defining a guide body closed end bore and connected to front leg bracket leg guide defining a through bore and a screw bore perpendicular to and connected to the through bore to receive a screw; wherein the front leg portion of the of the front leg is received within the through bore, such that the front leg bracket guide is vertically adjustable about the front leg.
The alignment cable has a first end and a second end separated by a length, the first end and the second end each having a retainer.
The left side alignment clip is adapted to mount to a left side of the first cornhole board. The left side alignment clip comprises: a left side alignment clip body with an a left side alignment clip first portion having a first end, a second end opposite the first end, a first side and a second side opposite the first side, a left side alignment clip second portion connected to the left side alignment clip first portion at the first end on the first side; and a left side alignment clip third portion connected to the left side alignment clip first portion at the second end on the second side defining at least one left side alignment piece.
The right side alignment clip adapted to mount to a right side of the second cornhole board. The right side alignment clip comprises: a right side alignment clip body with an a right side alignment clip first portion having a first end, a second end opposite the first end, a first side and a second side opposite the first side, a right side alignment clip second portion connected to the right side alignment clip first portion at the first end on the first side; and a right side alignment clip third portion connected to the right side alignment clip first portion at the second end on the second side defining at least one right side alignment piece.
The kit can also include a collapsible reducing wedge for insertion within the right leg guide body and/or the left leg guide body, a reducing shim for insertion within the one or more front leg bracket assemblies and a horizontal and angle slope level. It is noted that the reducing shims are used for legs that are less than 1.5 inches (38.1 mm) in width.
A method of leveling of aligning and leveling a first cornhole board and a second cornhole board for playing on uneven ground is also disclosed.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 shows an example of a cornhole board.
FIG. 2 shows a cornhole board with a bracket leveling system.
FIG. 3 shows a first end view of the cornhole board with the bracket leveling system.
FIG. 4 shows a second end view of the cornhole board with the bracket leveling system.
FIG. 5a shows an exploded view of bracket assembly on a first end cornhole board with the bracket leveling system.
FIG. 5b shows a bracket assembly on a first end of the cornhole board.
FIG. 6a shows a side view of the right leg of the bracket assembly.
FIG. 6b shows a front view of the right leg of the bracket assembly.
FIG. 6c shows a top view of the right leg of the bracket assembly.
FIG. 6d shows a perspective view of the right leg of the bracket assembly.
FIG. 7a shows a front view of the right leg bracket.
FIG. 7b shows a top view of the right leg bracket.
FIG. 8a shows a side view of the right leg bracket.
FIG. 8b shows a cut away of the right leg guide.
FIG. 8c shows a cut away of the right bracket.
FIG. 9a shows a side view of the left leg bracket assembly.
FIG. 9b shows a front view of the left leg bracket assembly.
FIG. 9c shows a top view of the left leg bracket assembly.
FIG. 9d shows a perspective view of the left leg bracket assembly.
FIG. 10a shows a front view of the left leg bracket.
FIG. 10b shows a top view of the left leg bracket.
FIG. 11a shows a side view of the left leg bracket.
FIG. 11b shows a cut away of the left leg guide.
FIG. 11c shows a cut away of the left leg bracket.
FIG. 12 shows a bracket assembly on the second end of the board.
FIG. 13 shows a cut away of the insert bracket assembly on the second end of the board.
FIG. 14a shows a side view of the front leg bracket.
FIG. 14b shows a front view of the front leg bracket.
FIG. 14c shows a top view of the front leg bracket.
FIG. 14d shows a perspective view of the front leg bracket.
FIG. 15a shows a side view of the left leg of the front bracket assembly.
FIG. 15b shows a front view of the left leg of the front bracket assembly.
FIG. 15c shows a top view of the left leg of the front bracket assembly.
FIG. 15d shows a perspective view of the left leg of the front bracket assembly.
FIG. 16a shows a top view of the rear leg bracket with the shim installed with 50% compression to little compression.
FIG. 16b shows a top view of the rear leg bracket with the shim installed with greater than 50% compression.
FIG. 17a shows a front view of the left rear leg shim at angle beta.
FIG. 17b shows a side view of the left rear leg shim at angle beta.
FIG. 17c shows a top view of the left rear leg shim at angle beta.
FIG. 17d shows a perspective view of the left rear leg shim at angle beta.
FIG. 17e shows a front view of the right rear leg shim at angle alpha.
FIG. 17f shows a side view of the right rear leg shim at angle alpha.
FIG. 17g shows a top view of the right rear leg shim at angle alpha.
FIG. 17h shows a perspective view of the right rear leg shim at angle alpha.
FIG. 18 shows the front leg bracket assembly with a leg of the cornhole board and reducing shim.
FIG. 19 shows a perspective view of the front leg bracket for holding compressible material to form a reducing shim.
FIG. 20a shows a front view of the level.
FIG. 20b shows a side view of the level.
FIG. 20c shows a top view of the level.
FIG. 20d shows a perspective view of the level.
FIG. 21a shows a left side alignment clip.
FIG. 21b shows a right side alignment clip.
FIG. 22a shows a left side alignment clip on the cornhole board.
FIG. 22b shows a right side alignment clip on the cornhole board.
FIG. 23a shows an alignment cable with solid ends.
FIG. 23b shows an alignment cable with looped ends.
FIG. 24a shows a side view of the right surface alignment line attachment clip.
FIG. 24b shows a top view of the right surface alignment line attachment clip.
FIG. 24c shows a perspective view of the right surface alignment line attachment clip.
FIG. 25a shows a side view of the left surface alignment line attachment clip.
FIG. 25b shows a top view of the left surface alignment line attachment clip.
FIG. 25c shows a perspective view of the left surface alignment line attachment clip.
FIG. 26a-26b shows a method of leveling the cornhole board.
FIG. 27 shows a method of leveling the cornhole boards laterally.
FIG. 28 shows a method of adjusting the slop of the cornhole boards.
FIG. 29 shows a top view of placing the first board on the ground across from a second board, connecting alignment clips of the first and second boards using an alignment cable with the first board and second board not in alignment with a length of the alignment cable.
FIG. 30a shows a top view of the first and second boards moved to be in alignment with a length of the alignment cable.
FIG. 30b shows a side view of FIG. 30a.
DETAILED DESCRIPTION
FIGS. 2-4 show a corn hole board 10 with front leg bracket assemblies 40, 41 on the first end or front end 2a and back leg bracket assemblies 20, 21 on the second end or back end 2b to level the corn hole board 10 relative to the ground 6. Both the back leg bracket assemblies 20, 21 and the front leg bracket assemblies 40, 41 are individually adjustable to raise or lower the front end 2a or back end 2b of the corn hole board 10.
FIGS. 5a-11c show the back leg bracket assemblies 20, 21. The right back leg bracket assembly 20 has a right leg 22 of a leg portion 24 and a base portion 23 as shown in FIGS. 6a-6d and a right back leg bracket guide 29 shown in FIGS. 7a-8c. The left back leg bracket assembly 21 has a left leg 29 of a leg portion 25 and a base portion 26 as shown in FIGS. 9a-9d and a left back leg bracket guide 30 shown in FIGS. 10a-11c.
The base portion 23 of the right leg 22 has a first surface 23a and a second surface 23b, opposite the first surface 23a. The second surface 23b contacts the ground 6. The leg portion 24 has a first end 24a and a second end 24b. The second end 24b of the leg portion 23 is attached to the first surface 23a of the base portion 23 at an angle alpha. The angle alpha is preferably between 20-30 degrees. More preferably, the angle alpha is 27 degrees.
Referring to FIGS. 7a-8c, the right back leg bracket guide 29 has a guide body 27 defining a closed end bore 27a and is connected to a leg guide 28. The leg guide 28 defines a through bore 28a and a screw bore 28b perpendicular to and connected to the through bore 28a.
The leg guide 28 is fixed to the guide body 27 at the same angle alpha as the right leg 22 to the base portion 23. The screw bore 28b receives a screw 33 that abuts the right leg 22 received within the through bore 28a.
The base portion 26 of the left leg 29 has a first surface 26a and a second surface 26b, opposite the first surface 26a. The second surface 26b contacts the ground 6. The leg portion 25 has a first end 25a and a second end 25b. The second end 25b of the leg portion 25 is attached to the first surface 26a of the base portion 26 at an angle beta. The angle beta is preferably between 20-30 degrees. More preferably, the angle beta is 27 degrees. In one embodiment, the angle alpha equals the angle beta.
Referring to FIGS. 9a-11c, the left back leg bracket guide 30 has a guide body 31 defining a closed end bore 31a and is connected to a leg guide 32. The leg guide 32 defines a through bore 32a and a screw bore 32b perpendicular to and connected to the through bore 31a. The leg guide 31 is fixed to the guide body 32 at the same angle beta as the left leg 29 to the base portion 26. The screw bore 32b receives a screw 33 that abuts the left leg 29 received within the through bore 31a.
As shown in FIG. 5a, the legs 4, 5 of the cornhole board 10 are inserted into bore 27a, 31a of the guide bodies 27, 31. The leg portion 24, 25 is inserted into the through bore 28a, 32a. A screw 35 is received within the screw bore 28b, 32b. The height of the leg 4, 5 is adjusted by moving the guide body 27, 31 along the length of the leg portion 24, 25 and fixed in place with the screw 35 which interacts with the leg 24, 25.
FIG. 5b shows an initial position in which the leg 4, 5, of the cornhole board 10 is at the least amount of height added to raise the back end 2b of the cornhole board 10.
FIGS. 12-13 shows the front bracket assemblies 40, 41 which can be mounted to the first or front end 2a of the cornhole board 10. The front bracket assemblies 40, 41 engage at least a front edge 2f of the cornhole board 10. Referring to FIGS. 14a-14d, the front bracket assemblies 40, 41 each have a guide body 55 defining a closed ended bore 55a which receives the front edge 2f. It is noted that the front edge 2f can be a board with 2 inches (50.8 mm) or less of width. Attached to the guide body 55 is a leg guide 56. The leg guide 56 has a through hole 56a parallel to the closed end bore 55a of the guide body 55.
FIGS. 15a-15d show the front legs 54 of which a portion are received by the through hole 56a of the leg guide 56. The front legs 54 have a base portion 53 connected to a leg portion 52. The leg portion 52 has a first end 52a and a second end 52b. The base portion 53 has a first surface 53a and a second surface 53b, opposite the first surface 53a. The second surface 53b contacts the ground 6. The second end 52b of the leg portion 52 is attached to perpendicular to the first surface 53a of the base portion 53.
The height of the front end 2a of the cornhole board 10 can be raised and adjusted to different heights based on movement of the leg portion 52 within the through hole 56a of the leg guide 56.
FIGS. 17a-17d show a collapsible reducing wedge 60 that can be inserted between the left back leg 4 and the left back leg bracket guide 30 depending on the thickness of the left back leg 4. It is noted that the collapsible reducing wedge 60 is angled at an angle beta to match the leg guide 32 of the left leg bracket guide 30.
FIGS. 17e-17h shows a collapsible reducing wedge 63 that can be inserted between the right back leg 5 and the right back leg bracket guide 29 depending on the thickness of the right back leg 5. It is noted that the collapsible reducing wedge 63 is angled at an angle alpha to match the leg guide 28 of the right leg bracket guide 29.
If the thickness of the right and left back legs 4, 5 is not enough to fill the closed end bore 27a, 31a, the collapsible reducing wedge 60, 63 can be used as a shim to fill the closed end bore 27a, 31a. The collapsible reducing wedge 60, 63 each have a collapsible material 62 attached to a rigid shim plate 61. In a non-compressed state, the collapsible material has 62 a distance d3.
FIG. 16a shows the board leg 4, 5 of a first thickness w1. The collapsible reducing wedge 60 is inserted within the closed end bore 27a, 31a adjacent to the board leg 4, 5, with the collapsible material reduced to a distance d1. In this figure the board leg 4, 5 has a thickness of approximately ¾ inch. FIG. 16b shows a board leg 4, 5 with a second thickness w2, greater than thickness w1, but still not a thickness large enough to fill the closed end bore 27a, 31a. The thickness of the board legs 4, 5 is greater than ¾ inch. As shown, the collapsible material is collapsed to a distance d2, less than d1. Therefore, the collapsible reducing wedge 60 is adaptable to act as a shim for various thicknesses of the legs 4, 5.
FIGS. 18-19 show a reducing shim 65 for filling the space within the closed end bore 55a of the guide body of the front bracket assemblies 40, 41 after the front edge 2f of the cornhole board has been inserted into the closed end bore 55a. The reducing shim 65 has a C-shaped rigid body 65 defining an opening 66 for receiving a collapsible material 67.
FIGS. 26a-28 are a method of aligning and leveling cornhole boards for playing on uneven ground.
In a first step (step 302), a first cornhole board 10a is placed on the ground opposite a second cornhole board 10b. It is noted that the first end 2a of each of the first cornhole board 10a and the second cornhole board 10b face each other as shown in FIG. 29.
An alignment clip 70, 71, is then placed on the back corner edges 2g of the first and second cornhole boards 10a, 10b. FIGS. 25a-25c shows a left side alignment clip 70 and FIGS. 24a-24c shows a right side alignment clip 71 (step 304).
FIG. 22a shows the left side alignment clip 70 on back corner edge 2g near leg 4 of the first cornhole board 10a. FIG. 22b shows the right side alignment clip 71 on back edge 2g near leg 5 of the second cornhole board 10b. It is noted that the right side alignment clip 71 could be used near leg 4 of the first cornhole board 10a and the left side alignment clip 70 used near leg 5 of the second cornhole board 10b. It is noted that the right side alignment clip 71 is a mirror image of the left side alignment clip 70.
Referring back to FIGS. 24a-25c, the alignment clips 70, 71 each have a body 72 with a first portion 73 with a first end 73a and a second end 73b and a first side 73c and a second side 73d. Connected to the first portion 73 at the first end 73a on the first side 73c is a second portion 74. Connected to the first portion 73 at the second end 73b on the second side 73d is a third portion 75 which defines at least one hook 76.
The alignment clips 70, 71 are placed onto the cornhole boards 10a, 10b such that the corner edge 2g contacts the first portion 73, the second portion 74 is received underneath and behind the second end 2b between the leg 4, 5 and the corner edge 2g, and the third portion 75 is adjacent to second end 2b.
Referring back to FIGS. 26a-26b, the alignment clips 70, 71 attached to the first and second cornhole boards 10a, 10b are connected together using an alignment cable 80, 81 (step 306) as shown in FIG. 29.
FIG. 23b shows an alignment cable 81 with a first end 81a separated from a second end 81b by a length 81c. The length 81c of the alignment cable can be 35 feet or 41 feet long. Markers 82 may be present along the length 81c of the alignment cable 81 to indicate 27 feet between each first end 2a of the first and second cornhole boards 10a, 10b. While not shown, the markers 82 can also indicate 33 feet between the first end 2a of the first cornhole board 10a and the first end 2a of the second cornhole board 2a. At the first end 81a and the second 81b are loops 84 that can be accepted around the hooks 76 of the alignment clips 70, 71.
Alternatively, alignment clips 78, 79 are placed onto the cornhole boards 10a, 10b in step 304. The alignment clips 78, 79 have each have a body 72 with a first portion 73 with a first end 73a and a second end 73b and a first side 73c and a second side 73d. Connected to the first portion 73 at the first end 73a on the first side 73c is a second portion 74. Connected to the first portion 73 at the second end 73b on the second side 73d is a third portion 87 which defines at least two flanges 85a-85c which define holes 86a, 86b. The alignment clips 78, 79 are placed on the cornhole boards 10a, 10b. such that the corner edge 2g contacts the first portion 73, the second portion 74 is received underneath and behind the second end 2b between the leg 4, 5 and the corner edge 2g, and the third portion 75 is adjacent to second end 2b.
FIG. 23a shows an alignment cable 80 with a first end 80a separated from a second end 80b by a length 80c. The length 80c of the alignment cable can be 35 feet or 41 feet long. Markers 82 may be present along the length 80c of the alignment cable 80 to indicate 27 feet between each first end 2a of the first and second cornhole boards 10a, 10b. While not shown, the markers can also indicate 33 feet between the first end 2a of the first cornhole board 10a and the first end 2a of the second cornhole board 2a. At the first end 80a and the second 80b are solid pieces 83 that can be accepted into the openings 86a-86b between the flanges 85a-85c of the alignment clips 78, 79 in step 306 to connect opposing cornhole boards 10a, 10b together.
The first and/or second cornhole boards 10a, 10b are moved to pull the alignment cable taut (step 308).
Next, it is determined whether the top or bottom edges 2i, 2j of the sides 2h of the first and second cornhole boards 10a, 10b are aligned with the length 80c, 81c of the alignment cable 80, 81 (step 310). If the top or bottom edges 2i, 2j of the sides 2h of the first and second cornhole boards 10a, 10b are aligned with the length 80c, 81c of the alignment cable 80, 81 as shown in FIGS. 30a-30b, the method continues to step 314. If the top or bottom edges 2i, 2j of the sides 2h of the first and second cornhole boards 10a, 10b are not aligned with the length 80c, 81c of the alignment cable 80, 81 as shown in FIG. 29, the cornhole boards 10a, 10b are moved laterally towards or away from the alignment cable 80, 81 (step 312) as shown in FIGS. 30a-30b and the method continues to step 314.
The cornhole boards 10a,10b are then leveled (step 314). Referring to FIG. 27, the leveling of the cornhole boards 10a, 10b includes the sub-steps of placing a horizontal and angle slope level 100 at first end 2a of each of the cornhole boards 10a, 10b (step 350) and if the cornhole board 10a, 10b is not level (step 352), placing one or more front leg bracket assemblies 40, 41 on the front edge 2f and raising or lowering the guide bodies 55 on the front legs 54 until the cornhole board 10a, 10b is level (step 354). The screw 35 is tightened to engage the leg portion 52 to maintain the one or more front leg bracket assemblies 40, 41. The method continues to step 316.
The horizontal and angle slope level 100 is shown in FIGS. 20a-20d. The horizontal and angle slope level 100 has a body 101 which is L-shaped and has a first portion 102 connected to a second portion 103 at a right angle. The first portion 102 has an outer surface 102a and an inner surface 102b. The inner surface 103b contacts the cornhole board 10a, 10b. Mounted to the outer surface 102a of the first portion 102 is a sloped body 104 defining a bore 105 for receiving a first level 110. The sloped body 104 is higher at a first end 104a than the second end 104b. The first level 110 determines the angle slope of the cornhole boards 10a, 10b when placed on the front edge 2f The second portion 103 has an outer surface 103a and an inner surface 103b. Mounted to an outer surface 103b of the second portion 103 is a body 107 defining a bore 108 for receiving a second level 111. The second level 111 determines the horizontal slope of the cornhole boards 10a, 10b. It is noted that the which slope being measured—horizontal or angle, is determined by which level is placed adjacent to the top surface 2c of the cornhole board 10a, 10b. The level measuring angle slope is set to be “level” at 10 degrees.
Step 316 of adjusting the slope has sub-steps shown in FIG. 28 of placing the horizontal and angle slope level 100 at top edge 2i of the side 2h of each of the cornhole boards 10a, 10b (step 350) and if the cornhole board 10a, 10b is not level (step 356), placing the back leg bracket assemblies 20, 21 on the legs 4, 5 of the cornhole boards 10a, 10b and raising or lowering the left back bracket guide 30 on left leg 29 and the right back leg bracket guide 29 on right leg 22 until the cornhole board 10a, 10b is level (step 360). Screws 35 are tightened to engage the right leg 22 and the left leg 29 to maintain the back bracket assemblies 20, 21. The method continues to step 318.
The alignment cable, alignment clips and level are removed (step 318) and the method ends.
It is noted that a kit for leveling one or more cornhole boards would include front leg bracket assemblies 40, 41, back leg bracket assemblies 20, 21 and the horizontal and angle slope level 100.
It is noted that a kit for aligning and leveling cornhole boards for playing on uneven ground would include front leg bracket assemblies 40, 41, back leg bracket assemblies 20, 21, the horizontal and angle slope level 100, alignment cables 80, 81 and alignment clips 78, 79, 70, 71.
Accordingly, it is to be understood that the embodiments of the invention herein described are merely illustrative of the application of the principles of the invention. Reference herein to details of the illustrated embodiments is not intended to limit the scope of the claims, which themselves recite those features regarded as essential to the invention.
Patent Grant
12036459
