An arrow golf system has a bow having a bowstring, an arrow having a shaft with a ball on one end with a fletching and a string nock on an opposite end, a starting location, a finishing location, and a capturing apparatus at the finishing location. A player shoots the arrow from the starting location with the bow, to a second location closer to the finishing location, retrieves the arrow at the second location, and shoots the arrow toward the capturing apparatus from the second location.

A spear-throwing apparatus including a spear-thrower with a magnet spur, the projecting end of which extends substantially along the body of the spear-thrower. The spear-thrower may contain a recessed loading groove to receive a spear shaft (projectile) that has a socket with a metallic element embedded in it to receive the magnet spur. During use, the magnetic spur connects magnetically to the embedded metal element to join the spear-thrower and the spear shaft with enough force to be suspended without a need for force or pressure from a practitioner.

A spear-throwing apparatus including a spear-thrower with a magnet spur, the projecting end of which extends substantially along the body of the spear-thrower. The spear-thrower may contain a recessed loading groove to receive a spear shaft (projectile) that has a socket with a metallic element embedded in it to receive the magnet spur. During use, the magnetic spur connects magnetically to the embedded metal element to join the spear-thrower and the spear shaft with enough force to be suspended without a need for force or pressure from a practitioner.

[The present invention is] a dart game apparatus that provides a dart game in which one player successively throws n number of (n=3 or 4) darts D at a dart board 12, having: light sources LS that are disposed around the dart board 12 and emit lights L along the board face of the dart board 12; a plurality of photo-sensors S that are disposed around the dart board 12 at approximately the same height from the dart board 12 in the board thickness direction, and detect the brightness of the lights L emitted from the light sources LS; and a processor that calculates a hit position of a dart D in the dart board 12 based on the brightness of each light. A number of photo-sensors S is n×2.

There is provided a dart collecting device to easily collect darts from a dartboard, even from a relatively low position with respect to the dartboard. The dart collecting device includes: a pair of first gap forming portions that forms a first gap extending in the vertical direction so as to receive a tip of the dart from above at a first interval capable of preventing a barrel of a dart from passing; a pair of second gap forming portions that forms a second gap extending in the vertical direction so as to receive a barrel of a dart from above at a second interval wider than the first interval; a bottom portion that forms a lower end of the second gap; and a shaft that extends downward from the bottom portion. The first gap and the second gap are configured to capable of receiving a dart stuck into a dartboard and capable of stacking and holding a plurality of darts.

A toy dart having an elongate dart body of a foam material in a substantially cylindrical shape extending from a head end to a tail end in a first, longitudinal direction, an outer surface of the substantially cylindrical shape having a first ridge proximate the head end; a second ridge proximate the tail end; and one or more recessed areas disposed between the first ridge and the second ridge, where the elongate dart body has a first outer diameter at the first ridge and the second ridge that is larger than a second outer diameter at the one or more recessed areas; and a deformable dart cap affixed to the head end of the elongate dart body.

In accordance with embodiments a projectile can have a body and a tip attached to the body, the body including a nub portion extending from a second end of the body and optionally one or more fins surrounding a circumference of the body at the second end.

A dart with a telescopic tail wing composes a dart rod, a dart head disposed at a front end of the dart rod and a tail wing disposed at a rear end of the dart rod. A tail wing connecting part is disposed at the rear end of the dart rod. The tail wing comprises a sleeve and multiple wing blades disposed on the sleeve. A clamping part is disposed on the tail wing connecting part. A limiting part is disposed in the sleeve. The tail wing connecting part is inserted into the sleeve. The clamping part stretches from one side to the other side of the limiting part and is matched with the limiting part. An elastic piece is disposed around the tail wing connecting part. The tail wing can rotate on the tail connecting part and can telescopic. In case of a collision, the tail wing can rotate to reduce force, so that compared with the prior art, dart is simple in structure, easy to assemble and low in production cost.

A toy projectile, such as a dart, ball or disc has a magnetic or magnetizable component associated therewith to facilitate the collection of toy projectiles which may be scattered on a floor or on the ground. A telescopic wand having a metal or magnetizable component may be used to pick up the toy projectiles.

A dart game apparatus 100 is provided with: a dart board in which a dart can stick and a plurality of segments are demarcated; a first detecting part 100 that detects a position of a point where the dart stuck in the dart board; a second detecting part 102 that detects a segment of the point where the dart stuck from the plurality of segments; a correcting part 104 that corrects the position detected by the first detecting part 100 based on the segment detected by the second detecting part 102 if a segment corresponding to the position detected by the first detecting part 100 is different from the segment detected by the second detecting part 102; and an outputting part 106 that output the position detecting by the first detecting part 100 or position corrected by the correcting part 104.