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WO2019215710A1 - Cible pour étoile à lancer - Google Patents

Cible pour étoile à lancer Download PDF

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Publication number
WO2019215710A1
WO2019215710A1 PCT/IB2019/055138 IB2019055138W WO2019215710A1 WO 2019215710 A1 WO2019215710 A1 WO 2019215710A1 IB 2019055138 W IB2019055138 W IB 2019055138W WO 2019215710 A1 WO2019215710 A1 WO 2019215710A1
Authority
WO
WIPO (PCT)
Prior art keywords
shuriken
target
pins
pin
pair
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Ceased
Application number
PCT/IB2019/055138
Other languages
English (en)
Japanese (ja)
Inventor
山本真一郎
齊藤秀樹
金戸勇輝
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Sega Corp
Dartslive Co Ltd
Original Assignee
Dartslive Co Ltd
Sega Games Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Dartslive Co Ltd, Sega Games Co Ltd filed Critical Dartslive Co Ltd
Priority to US17/054,289 priority Critical patent/US20210239438A1/en
Publication of WO2019215710A1 publication Critical patent/WO2019215710A1/fr
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F41WEAPONS
    • F41JTARGETS; TARGET RANGES; BULLET CATCHERS
    • F41J3/00Targets for arrows or darts, e.g. for sporting or amusement purposes
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F41WEAPONS
    • F41JTARGETS; TARGET RANGES; BULLET CATCHERS
    • F41J1/00Targets; Target stands; Target holders
    • F41J1/01Target discs characterised by their material, structure or surface, e.g. clay pigeon targets characterised by their material

Definitions

  • the present invention relates to the target of shuriken.
  • the shuriken throwing experience is popular with tourists visiting Japan. I would like to expand the base of the shuriken throwing experience to promote tourism.
  • the shuriken throwing experience has several challenges.
  • many shuriken targets have a target paper printed with concentric targets attached to a support member such as tatami mat, plywood or foam plastic.
  • a shuriken thrown by a beginner does not easily stab even if it hits like that.
  • a metal shuriken can hurt your fingers. If you are afraid of injuries, it is hard to throw a shuriken hard.
  • a safe rubber shuriken is lighter and therefore harder to stab than a metal shuriken.
  • the target of the conventional shuriken is not only difficult to stab the shuriken, but also has a problem with durability.
  • the shuriken is stabbed, a large hole is opened in the target paper or support member. If a shuriken is stabbed several times, the target paper and supporting members will rise up and damage the aesthetics.
  • the target of the shuriken is frequently replaced with a new one in order to maintain the aesthetics, or used in a state where the aesthetics are impaired due to the economic burden.
  • Patent Document 1 Although it is a blow arrow instead of shuriken, a target that can be used repeatedly while maintaining its aesthetic appearance has been proposed (for example, see Patent Document 1).
  • the blow stand target described in Patent Document 1 is laid with oily clay and a target paper is pasted thereon. Even if the oily clay as a support member becomes full of holes, it can be repaired evenly with fingers.
  • an object of the present invention is to provide a shuriken target that is easy to pierce a shuriken and has excellent durability.
  • the target of the shuriken includes a board and a plurality of pins arranged on the target surface of the board. Each pin has a polygonal cross section, is tapered, and has a flat surface in contact with the front and back surfaces of the held shuriken. According to this aspect, since the front and back surfaces of the shuriken are supported by flat surfaces, the hit shuriken is easily held in a state where it is hard to fall compared to the case where the shuriken is supported by dots or lines.
  • the plurality of pins are arranged at equal intervals on the target surface along the first direction, the second direction, and the third direction rotated by 120 ° about an axis perpendicular to the target surface.
  • the first surface is opposed to each other with a gap, and the gap is larger than the thickness of the shuriken at the tip of the pin, and smaller than the thickness of the shuriken at the pin holding portion closer to the board than the tip. May be.
  • each pin may include a hexagonal frustum shape or a hexagonal column shape including a pair of first surfaces, a pair of second surfaces, and a pair of third surfaces.
  • the cross section is hexagonal, the pins are easily arranged. Compared to the case where the cross section is triangular, the corner is hard to be damaged and the pin is hard to break.
  • each pin may further include a fillet portion that is smoothly continuous with the target surface, and the fillet portion may have an outer edge formed in a hexagonal shape and may be arranged without a gap on the target surface.
  • the stress concentration at the base of the pin is relieved at the fillet portion, so that the pin is not easily broken and the target durability of the shuriken is improved.
  • the fillet part which spreads outward is provided, since the outer edge is a hexagon, the pins can be arranged closely according to the thickness of the shuriken.
  • FIG. 2 is a plan view of a target of the shuriken shown in FIG. 1. It is the side view which looked at the pin arranged in the 1st direction from the 4th direction. It is a top view which shows the target of the shuriken which concerns on the modification of this invention.
  • target 1 of the shuriken (hereinafter simply referred to as “target 1”) according to one embodiment of the present invention is a flat surface 20U, 20V that is in surface contact with the front surface 2A and the rear surface 2B of the plate-shaped shuriken 2 from both sides. , 20W is formed on each pin 20 (see FIGS. 1 and 4).
  • the shuriken 2 is sandwiched between any of the pockets 31, 32, 33 between the pins 20L, 20R that are reversibly bent, not the target paper or support member that is irreversibly destroyed (see FIG. 2). ). Repeated use of shuriken target 1 does not spoil the beauty.
  • the shuriken 2 is centered on the connecting portion 42 instead of the sword 41 at the tip.
  • the center of gravity is unstable because the center of gravity is far from the target surface 10A.
  • the XY cross section of the pin 20 is not a circle but a polygon, and the contact area C between the front surface 2A and the rear surface 2B of the shuriken 2 is large (see FIG. 3). Therefore, it is easy to hold the shuriken 2 having an unstable center of gravity with the target 1 stuck in the target 1.
  • FIG. 1 is a perspective view showing a shuriken target 1 according to an embodiment of the present invention, and a shuriken 2 in a state of being stuck in the target 1.
  • the shuriken 2 is formed in a windmill type having a plurality of swords 41 extending radially and a connecting portion 42 connecting the plurality of swords 41.
  • the shuriken 2 of the rubber plate formed in the cross shape is shown.
  • the thickness F of the rubber plate is, for example, about 5 mm.
  • Each sword 41 has a sharp sword tip.
  • the edge 41E of the sword tip is formed at an acute angle imitating a blade.
  • the tip is a needle and the force concentrates on one point.
  • the plate-shaped shuriken 2 is hard to be stabbed because the force is distributed to the ridgeline of the edge 41E.
  • the shuriken target 1 of the present embodiment is configured to hold the shuriken 2 in a state where it is stuck without dropping when the shuriken 2 hits.
  • the target 1 of the shuriken includes a board (base) 10 and a plurality of pins (projections) 20.
  • the board 10 and the pin 20 are an integral structure formed from a resin material such as polyamide resin.
  • the target 1 of the shuriken may be translucent or light-shielding. In the case where the shuriken target 1 is formed of a translucent resin material, light can be projected onto the back surface 10B to draw a moving target on the target surface 10A.
  • the board 10 is formed in a plate shape having a thickness and has a flat target surface (board surface) 10A.
  • the target surface 10A is formed in parallel to the vertical direction X and the horizontal direction Y intersecting the vertical direction X.
  • the thickness direction Z of the board 10 intersects the vertical direction X and the horizontal direction Y.
  • the vertical direction X and the horizontal direction Y of the target surface 10A and the thickness direction Z of the board 10 are orthogonal to each other.
  • Each pin 20 has a flat surface 20U, 20V, 20W that is in contact with the front surface 2A and the rear surface 2B of the shuriken 2 in a state where the XY section is polygonal and tapered, and is held in a target 1. ing.
  • disconnected by XY plane parallel to 10 A of target surfaces is formed in the hexagon. If the pin 20 is short, even if the shuriken 2 hits, it is easy to fall without being stabbed. If the pin 20 is long, it is easy to break when the shuriken 2 hits.
  • the height of the pin 20 is, for example, about 2 cm.
  • the plurality of pins 20 are arranged on the target surface 10A.
  • the plurality of pins 20 are arranged on the target surface 10A along the first direction R, the second direction S, and the third direction T rotated by 120 ° around the Z axis perpendicular to the target surface 10A.
  • the aforementioned surfaces 20U, 20V, and 20W are formed along fourth to sixth directions U, V, and W obtained by rotating the first to third directions R, S, and T by 90 ° around the Z axis.
  • the shuriken 2 flying toward the target 1 is rotating vertically, for example.
  • an example of the fourth direction U is a 12 o'clock direction connecting 12 o'clock and 6 o'clock
  • an example of the fifth direction V is connecting 4 o'clock and 10 o'clock.
  • an example of the sixth direction W is the 8 o'clock direction connecting 8 o'clock and 2 o'clock.
  • An example of the above-described vertical direction X is the 12 o'clock direction, which coincides with the fourth direction U. Since the target 1 of the shuriken may be inclined and installed, the vertical direction X of the target surface 10A does not necessarily match the vertical direction.
  • the fourth to sixth directions U, V, W are directions obtained by rotating the first to third directions R, S, T by 90 ° around the Z axis. That is, an example of the first direction R is a 9 o'clock direction connecting 9 o'clock and 3 o'clock, and an example of the second direction S is an 1 o'clock direction connecting 1 o'clock and 7 o'clock, An example of the direction T is a 5 o'clock direction connecting 5 o'clock and 11 o'clock. An example of the aforementioned lateral direction Y is the 9 o'clock direction, which coincides with the first direction R.
  • a pocket 31 extending in the fourth direction U is formed between a pair of pins 20 adjacent in the first direction R.
  • a pocket 32 extending in the fifth direction V is formed between a pair of pins 20 adjacent in the second direction S, and between the pair of pins 20 adjacent in the third direction T, Pockets 33 extending in six directions W are formed.
  • each pin 20 includes the first surface 20U parallel to the fourth direction U, the second surface 20V parallel to the fifth direction V, and the third surface 20W parallel to the sixth direction W. And have.
  • each pin 20 includes a pair of first A surfaces 20 ⁇ / b> Ua that intersects the thickness direction Z and is parallel to the fourth direction U, and a pair of first B that is parallel to the thickness direction Z and the fourth direction U. And a surface 20Ub.
  • the first A and first B surfaces 20Ua and 20Ub are both examples of the first surface 20U.
  • each pin 20 includes a pair of second A surfaces 20Va intersecting the thickness direction Z and parallel to the fifth direction V, and a pair of second B surfaces 20Vb parallel to the thickness direction Z and the fifth direction V. It has a pair of 3A surface 20Wa which cross
  • the second A and second B surfaces 20Va and 20Vb are all examples of the first surface 20V, and the third A and third B surfaces 20Wa and 20Wb are both examples of the third surface 20W.
  • Each pin 20 includes a first body portion 22 formed on a hexagonal frustum and a second body portion 23 formed on a hexagonal column.
  • the first body 22 includes a pair of first A surfaces 20Ua, a pair of second A surfaces 20Va, and a pair of third A surfaces 20Wa.
  • the second body portion 23 is positioned closer to the base end side Zb of the pin 20 than the first body portion 22, and includes a pair of first B surfaces 20Ub, a pair of second B surfaces 20Vb, and a pair of third B surfaces 20Wb. Has been.
  • Each pin 20 includes a call-in portion 21 located on the distal end side Za of the pin 20 with respect to the first body portion 22, and a fillet portion 24 located on the proximal end side Zb of the pin 20 with respect to the second body portion 23.
  • the call-in part 21 is formed to be tapered, and the tip is smoothly rounded.
  • the fillet part 24 is smoothly continuous from the second body part 23 to the target surface 10A.
  • the fillet portion 24 has an outer edge formed in a hexagonal shape, and is arranged on the target surface 10A without a gap.
  • FIG. 3 is a side view of the pins 20 arranged in the first direction R as seen from the fourth direction U. Between the pair of pins 20L and 20R adjacent in the first direction R, the aforementioned pocket 31 is formed.
  • the aforementioned pockets 32 and 33 have substantially the same shape and function as the pocket 31. Therefore, the pocket 31 will be described in detail as a representative, and overlapping description of the pockets 32 and 33 will be omitted.
  • the second surface 20V that defines the gap G of the pocket 32 and the third surface 20W that defines the gap G of the pocket 33 have substantially the same shape and function as the first surface 20U that defines the gap G of the pocket 31.
  • the first surface 20U will be described in detail, and overlapping description of the second and third surfaces 20V and 20W will be omitted.
  • the first surface 20U of one pin 20L and the first surface 20U of the other pin 20R are opposed to each other with a gap G therebetween.
  • the first A surfaces 20Ua constituting the hexagonal frustums face each other, and the first B surfaces 20Ub constituting the hexagonal columns face each other.
  • Each pin 20 is formed such that the gap G between the opposing first surfaces 20U is substantially the same as the plate thickness F of the shuriken 2 at a predetermined depth D in the thickness direction Z.
  • the distal end side Za of the pin 20 with respect to the depth D is defined as the distal end portion, and the proximal end side Zb of the pin 20 with respect to the depth D is defined as the holding portion.
  • the gap G between the first surfaces 20U is larger than the plate thickness F of the shuriken 2.
  • the gap G between the first surfaces 20U is smaller than the plate thickness F of the shuriken 2.
  • the depth D is located in the first body 22.
  • a portion closer to the front end side Za than the depth D is referred to as a first A body portion 22a
  • a portion closer to the base end side Zb than the depth D is referred to as a first B body portion 22b.
  • the call-in part 21 and the first A body part 22a are examples of the aforementioned tip part.
  • the 1B body part 22b and the 2nd body part 23 are examples of the above-mentioned holding part.
  • the edge 41E of the shuriken 2 formed obliquely with respect to the target surface 10A is also the surface of the incoming portion 21 or the first body portion 22 formed obliquely with respect to the target surface 10A.
  • the tip of the sword 41 is guided to the pockets 31 (32, 33) between the adjacent pins 20.
  • the thickness of the shuriken 2 gradually increases from the edge 41E toward the inside, and eventually becomes constant at the thickness F of the rubber plate.
  • the gap G between the first surfaces 20U of the pins 20L and 20R is gradually reduced from the distal end side Za of the pin 20 toward the proximal end side Zb.
  • the sword tip of the shuriken 2 advances in the thickness direction Z, the difference between the thickness of the shuriken 2 and the gap G between the pins 20L and 20R becomes smaller.
  • a part of the shuriken 2 for example, the spear 41D of the sword 41
  • the thickness of the shuriken 2 and the gap G between the pins 20L and 20R coincide.
  • Resin target 1 can be reversibly deformed.
  • the tip of the shuriken 2 pushes the gap G of the pin 20 and stabs it slightly deeper than the depth D.
  • the first A surface 20Ua of one pin 20L is deformed along the surface 2A of the shuriken 2 and comes into surface contact with the surface 2A.
  • the first A surface 20Ua of the other pin 20R is deformed along the back surface 2B of the shuriken 2 and comes into surface contact with the back surface 2B.
  • the shuriken 2 is supported by the cylindrical surface. Compared to the case, the contact area C becomes larger. The shuriken 2 that hits the target 1 is easily held in a state where it is hard to fall.
  • this embodiment is suitable for a safe rubber shuriken.
  • Rubber shurikens are safer than metal shurikens, but they are light and difficult to stick deeply into hard support members such as clay. According to this embodiment, even the light shuriken 2 is surely stabbed to a predetermined depth D when hit. Therefore, the shuriken 2 that hits the target 1 is easily held in a state where it is hard to fall.
  • This embodiment is not only when the shuriken 2 that rotates vertically in the fourth direction U hits the target 1 by the pockets 31, 32, 33 extending in the fourth to sixth directions U, V, W, respectively. Even when the shuriken 2 that is shifted obliquely in the fifth direction V or the sixth direction W hits the target 1, it is easy to hold the shuriken 2 in the state of being stuck.
  • the shuriken 2 flying toward the target 1 often rotates vertically in the 12 o'clock direction.
  • the sword tip of the shuriken 2 is guided to the pocket 31, and the first surface 20U defining the gap G of the pocket 31 is on both sides of the front surface 2A and the back surface 2B of the shuriken 2 Hold the shuriken 2 in face contact.
  • the tip of the shuriken 2 is guided to the pocket 32 extending in the fifth direction V (10 o'clock direction), and the second surface 20V of the pocket 32 is the shuriken 2
  • the surface 2A and the back surface 2B are brought into surface contact from both sides.
  • the third surface 20W of the pocket 33 extending in the sixth direction (2 o'clock direction) comes into surface contact with the front surface 2A and the back surface 2B of the shuriken 2 from both sides.
  • the shuriken 2 is held by the pin 20 that is reversibly deformed, so that the target paper and its supporting member are not full of holes. Can be used repeatedly while maintaining aesthetics.
  • Each pin 20 includes first and second body portions 22 and 23 each having an XY cross section formed in a hexagonal shape. Therefore, the flat surfaces 20U, 20V, and 20W of the adjacent pins 20 are easily arranged so as to be parallel to each other. Compared to the case where the XY cross section is triangular, the corners are hard to be damaged and the pin 20 is hard to break.
  • the pin 20 is not easily broken. Since the outer edge of the fillet portion 24 is hexagonal, the pins 20 can be closely arranged even if the widened fillet portion 24 is formed.
  • the XY cross section of the pin 20 may be a triangle. If the XY cross section of the pin 20 is an equilateral triangle as in the modification shown in FIG. 4, the XY cross section of the pin 20 rotates in the fourth to sixth directions U, V, and W as in the hexagonal embodiment.
  • the shuriken 2 can be held.
  • the XY cross section of the pin 20 may be a right-angled isosceles triangle. If the bases of adjacent right-angled isosceles triangles face each other and are arranged so that the opposite sides face each other, the shuriken 2 that rotates in four directions of 12:00, 1:30, 3:30, and 4:30 can be held. .
  • the XY cross section of the pin 20 may be a quadrangle, a pentagon, or an octagon.
  • surface contact with the shuriken 2 can be made only from two vertical and horizontal directions.
  • the pentagon is difficult to line up without gaps.
  • each surface becomes smaller and the contact area becomes smaller. Therefore, the XY cross section of the pin 20 is preferably a hexagon shown in FIG.
  • one of the first and second body parts 22 and 23 shown in FIG. 1 may be omitted, or the third body part and the fourth body part of the hexagonal frustum having a different inclination angle from the first body part.
  • a torso and the like may be further included.
  • the shuriken 2 may be configured to be held at the target 1 by the blade portion between the edge 41E and the hook 41D instead of the hook 41D of the sword 41.
  • the gap G between the pins 20 ⁇ / b> L and 20 ⁇ / b> R at a predetermined depth D may be set to the thickness of the shuriken 2 blade smaller than the plate thickness F of the shuriken 2.
  • the board 10 may be three-dimensional. If the undulation of the target surface 10A is small enough to be ignored with respect to the size of the pin 20, the surface of a life-size ninja doll or the like may be configured as the target surface 10A.
  • 3rd surface (an example of a flat surface), 20Wa ... 3A surface (an example of a 3rd surface) , 20 Wb ... 3B surface (an example of the third surface), 21 ... an inlet part (an example of a tip part), 22 ... a first body part (an example of a hexagonal frustum part), 22a ... a 1A body part (a tip part) ), 22b... 1B body part (an example of a holding part), 23... Second body part (an example of a hexagonal column part, an example of a holding part) 24 ... Fillet part, 31, 32, 33 ... Pocket, 41 ... Sword, 41D ... Spear, 41E ... Edge, 42 ... Connection part, C ...

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Aiming, Guidance, Guns With A Light Source, Armor, Camouflage, And Targets (AREA)
  • Toys (AREA)

Abstract

La présente invention concerne une cible pour étoile à lancer qui présente une excellente durabilité et à laquelle des étoiles à lancer peuvent facilement adhérer. Une cible pour étoile à lancer (1) destinée à recevoir une étoile à lancer (2) lancée sur celle-ci est pourvue d'une planche (10) et d'une pluralité de broches (20) disposées sur une face cible (10A) de la planche (10). Chaque broche (20) a une forme polygonale dans les sections transversales X et Y et est formée avec une pointe effilée, et les broches ont chacune des surfaces plates (20U, 20V, 20W) qui sont en contact avec la surface avant (2A) et la surface arrière (2B) de l'étoile à lancer (2) lorsqu'elle est maintenue par les broches.
PCT/IB2019/055138 2018-05-11 2019-06-19 Cible pour étoile à lancer Ceased WO2019215710A1 (fr)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US17/054,289 US20210239438A1 (en) 2018-05-11 2019-06-19 Throwing star target

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
JP2018092075A JP7057209B2 (ja) 2018-05-11 2018-05-11 手裏剣の的
JP2018-092075 2018-05-11

Publications (1)

Publication Number Publication Date
WO2019215710A1 true WO2019215710A1 (fr) 2019-11-14

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PCT/IB2019/055138 Ceased WO2019215710A1 (fr) 2018-05-11 2019-06-19 Cible pour étoile à lancer

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US (1) US20210239438A1 (fr)
JP (1) JP7057209B2 (fr)
WO (1) WO2019215710A1 (fr)

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WO2006136102A1 (fr) * 2005-06-23 2006-12-28 Yu-Fu Cho Structure de cible de balle
US20160016075A1 (en) * 2012-09-14 2016-01-21 Dustin Meyer Berk Throwing card game
WO2017047991A1 (fr) * 2015-09-14 2017-03-23 주식회사 홍인터내셔날 Dispositif de jeu de fléchettes comprenant une cible de fléchettes formée à partir de l'agrégation de structures polygonales
JP2018023532A (ja) * 2016-08-09 2018-02-15 株式会社セガゲームス ダーツゲーム装置

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