The invention relates generally to games and target games, and in particular, to specialized targets for certain non-piercing thrown projectiles such as throwing cards, soft-tipped darts and the like.
Target games, and in particular, thrown projectile games, are well known. Principal among such games is the game of darts, in which sharp pointed miniature javelin-like projectiles called darts are thrown at a target, called a dartboard, hung on a vertical surface. Early dartboards were made of clay. Modern, high quality dartboards are made of sisal fibers, while less expensive boards are sometimes made of cork or coiled paper. Several types of sisal fiber are used in dartboards today, originating from East Africa, Brazil, or China.
More recently, a variation of the game of darts has emerged in which the darts have soft, flexible, non-metallic tips instead of sharpened, piercing metal tips. In such embodiments, the target dartboards may be made of plastic facings with small holes. The holes may slant out, allowing the plastic-tipped darts to stick inside.
Both sharpened tipped darts and soft-tip darts are pointed so as to be received by a traditional dartboard (in the case of sharpened tipped darts) or by a perforated soft-tip dartboard (in the case of soft-tip darts). Neither traditional dartboards nor soft-tip dart boards are readily capable of receiving any thrown object in ordinary use and/or without damaging or destroying the target board. It is therefore desirable to have a throwing game target that can receive non-pointed projectiles in ordinary use and without damage or destruction.
Embodiments of the present invention include a throwing game target having a panel having a back plate and multiple blades extending outwardly from the back plate. The blades may be comprised of horizontal and vertical blades. In such embodiments, the blades may be arranged in multiple groupings of three blades with at least one horizontal blade and one vertical blade.
The foregoing embodiments may have blades with a straight side portion and two opposing rounded end portions, each rounded end portion having an arc and having a tip, and each of the blades having a center point and an arc center for each of the rounded end portions.
Additionally, the foregoing embodiments may have: the vertical blades positioned so that a line formed by the center points and the arc centers runs through a center of an adjacent horizontal blade; and/or pairs of adjacent horizontal blades that are positioned such that a tip of first horizontal blade is aligned vertically with the a tip of a second horizontal blade; and/or blades arranged so that the arc centers of a first vertical blade align horizontally with a center point of a space between adjoining blade pairs.
In any of the foregoing embodiments, the blades may have a proximal end adjacent to the back plate and a distal end opposite the proximal end. Each of the proximal ends and distal ends have a length parallel to the back plane, and the length of the proximal end may be longer than the length of the distal end.
The foregoing Summary of the Invention is not intended to limit the scope of the disclosure contained herein nor limit the scope of the appended claims. To the contrary, as will be appreciated by those persons skilled in the art, variations of the foregoing described embodiments may be implemented without departing from the claimed invention.
The objects and features of the invention may be understood with reference to the following detailed description of an illustrative embodiment of the present invention taken together in conjunction with the accompanying drawings in which:
Referring first to
Referring now to
It will be understood that as discussed herein, blades 20 may be “placed on” panels 2 by any attachment means or by being molded with panels 2, and “placed on” should not be understood to be limited to embodiments in which blades 20 are formed separately from panels 2 and thereafter affixed thereto, such embodiments contemplated in addition to integrally formed blade/panel components.
Sidewall 40 is shown with an undulating configuration such that the indents and outdents (i.e., raised and lowered portions of the “wave”) mate with opposite portions of other panels, thereby allowing them to interconnect, as will be described in greater detail below.
Also depicted in
Referring to
Tabs 41 and slots 42 are formed in sidewall 40 such that when two plates are interconnected, the slot 42 of one plate is configured to receive tab 41 of the other plate, thereby improving the interconnection of the plates and the rigidity of the resulting structure. Tabs 41 may be shaped so that they lock into slots 42 and may also be elastically deformable to facilitate connectivity, as is well known. Alternatively, for plates on the periphery of a multiple-plate structure (i.e., one created by interconnecting multiple plates), slot 42 may accept a mounting clip, depicted in
As can be seen in
Each blade has a straight side portion 50 and two opposing rounded end portions 60, each comprising an arc. Each blade has a single center point 51 and one arc center 61 for each rounded end portion. Each rounded end portion 60 has a tip 62 positioned along the line formed by center point 51 and the two arc centers 61. The tip need not be pointed or otherwise structurally distinct from any other portion of the rounded end portion 60, the tip instead being defined by a point located as described herein. The pattern depicted in
Shown in
Although the particular embodiments shown and described above will prove to be useful in many applications in the art to which the present invention pertains, further modifications of the present invention will occur to persons skilled in the art. All such modifications are deemed to be within the scope and spirit of the present invention as defined by the appended claims.
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