| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | 저속탄환과 발사봉탄성총 | KR1020150152926 | 2015-11-02 | KR1020170050876A | 2017-05-11 | 정태영 |
| 본발명은날개가달린저속탄환과본 저속탄환을발사할수있는발사봉이착설된발사봉탄성총(발사봉활, 발사봉고무줄새총, 발사봉석궁, 발사봉작살총등)에관한것이다. 본발명의저속탄환은발사봉탄성총에서발사되어날아가면서탄환의날개와공기와의마찰로인해서본 저속탄환의비행속도가급격히하락하여표적에는가볍게충돌하게될수있게한 저속탄환과발사봉탄성총에관한것이다. 기존의활이나석궁, 고무줄새총같은탄성총의사격연습은상당한거리에표적을두고사격연습을해야하기때문에연습장소확보가쉽지않았고발사된화살이나새총알등의비행속도가빨라서실제사격연습에위험이많았다. 본발명의저속탄환과발사봉탄성총은몇m 내외의협소한공간에서사격연습을하여도저속탄환의비행속도가낮으므로표적과저속탄환과의충격이약하고연습장소도실내나실외를막론하고확보가쉬운장점이있다. 또한종래탄성총의장거리고속탄환(화살이나구슬등)에비하여본 발명은저속탄환인관계로사격연습중위험이거의없어서매우안전하다. 따라서본 발명의저속탄환과발사봉탄성총으로종래의탄성총(활, 고무줄새총, 석궁, 작살총등) 사격연습을장소나위험성의어려움없이쉽게할수있어레저, 스포츠용으로사용하는등학생, 국민건강증진등에활용도가높다. | ||||||
| 42 | 투명 또는 반투명 부분을 포함하는 화살대 | KR1020130007475 | 2013-01-23 | KR1020140094875A | 2014-07-31 | 송윤섭 |
| The present invention relates to an arrow shaft. A part or the entire part of the arrow shaft is made of transparent or translucent materials. The discrimination of the arrow shaft is further enhanced by an internal luminous source. The arrow shaft is manufactured to discriminate elastic strength for each part after dividing the arrow shaft into three parts along a longitudinal direction of the arrow shaft. | ||||||
| 43 | 회전력 보강을 위한 화살 | KR2020080006492 | 2008-05-19 | KR2020090011874U | 2009-11-24 | 김병수 |
| 본 고안은 비행과정에서 회전이 더해져 회전력에 의해 공기 저항을 극복할 수 있도록 함으로써 공기 저항으로 인한 정확도 저하 및 사거리 저하를 개선할 수 있도록 하는 회전력 보강을 위한 화살에 관한 것이다. 본 고안에 의한 회전력 보강을 위한 화살(A)은, 화살대(10) 후방 일단에 시위 안착홈(31)이 형성된 일단과 대향 되는 타단의 중앙에 삽입홈(32)이 형성되고, 삽입홈(32) 둘레에 후방을 관통하는 공기배출공(33)이 형성된 오늬(30)가 결합되고, 화살대(10) 전방 일단에 원추형으로 된 선단과 대향 되는 타단의 중앙에 삽입홈(22)이 형성되고, 전면 둘레에 후방을 관통하는 공기유입공(21)이 형성되며, 전체 길이의 중간부가 분리 가능한 형태로 된 화살촉(20)이 결합되며, 화살대(10) 내부에 일단이 오늬(30)의 삽입홈(32)에 끼워지고, 타단이 화살촉(20)의 삽입홈(22)에 끼워지며, 외주면에 나선형 꼬임이 연속되는 하나 이상의 회전날개(41)가 부착된 봉 또는 관 형태의 심재(40)가 결합되는 것을 특징으로 하는 것이다. 화살, 화살대, 오늬, 화살촉, 회전력, 심재, 회전날개, 방향성, 사거리, 공기저항, 삽입홈, 공기유입공, 공기배출공, 나선형 꼬임 | ||||||
| 44 | 발광 화살 | KR2020030001462 | 2003-01-17 | KR200320902Y1 | 2003-07-22 | 최종철 |
| 본 고안은 화살에 관한 것으로서, 특히 화살에 발광부가 형성되어 있는 발광화살을 제공하는데 그 목적이 있다. 위와같은 목적을 달성하기 위한 본 고안에 따른 발광 화살의 구성은 통상의 화살 구조를 갖는 발광화살에 있어서, 발광화살이 중공(中空) 내부를 갖는 화살촉과 화살대로 이루어져 있으면서 각각이 발광되는 구조로 끼움 연결되어 있고, 화살이 발사되어 화살촉이 소정의 물체에 적중시 발생하는 충격력에 의해 발광과 음향이 동시에 발생되도록 이루어진 것을 특징으로 한다. 따라서, 발광 화살은 양궁장에서 야간활궁시에 화살의 식별을 용이하게 할 수 있는 효과가 있으며, 뿐만아니라 완구용 화살로 사용시 화살이 물체에 적중될 때 마다 더욱 큰 발광이 깜박이고 동시에 음향이 발생되어 어린 아이들의 놀이 기구로서 흥미 유발은 물론 장시간 사용해도 싫증을 느끼지 않는 등 보다 증진된 효과를 얻을 수 있다. | ||||||
| 45 | A PNEUMATIC PROJECTILE LAUNCHER | PCT/CZ2004000025 | 2004-04-30 | WO2004097327A3 | 2005-01-06 | JAKL ALBIN; KNOBLOCH RAFAEL |
| The pneumatic projectile launcher contains a working cylinder (101) with a piston (103) movable under the influence of gas pressure under the piston, between a starting position in the rear section of the working cylinder and a firing position in the front section of the working cylinder (101) for a passage of a projectile (10) mounted above the piston (103) in the direction of the shot, a breech securing the piston (103) in a starting position and a trigger connected through a control mechanism with the breech, whereas the working cylinder (101) closed in the rear section, has one end firmly mounted in the front head (110) with an axial opening (112) for the passage of the projectile (10) and the other end positioned in the rear head (141), both of which are firmly mounted in the case (50), whereas the space under the piston (103) is connected to the expansion chamber (51) created between the working cylinder (101), the wall of the case (50), the front head (110) and the rear head (141) and the breech is created by a flat brace element (162) with an opening (163) for the passage of the projectile (10) or the piston rod (104) of the piston (103), the flat brace element arranged from one side of the working cylinder (101) for arching the flat brace element (162) in the starting position of the projectile (10) or the piston rod (104) at the limit stop (164) connected to the case (50). The projectile (10) of the pneumatic projectile launcher is created by a shank (521) terminated at the front part by a point (511) and at the rear part by a foot (525), whereas the stabiliser (541) is slide mounted by its hub (542) on the shank (51) between the front position defined by the front axial limit stop (512) and the rear position defined by the foot (525), a slide-mounted flexible binding ring (531) is push fitted on the shank (521) between the stabiliser (541) and the foot (525) for braking the inertial movement of the stabiliser (541) during the flight of the dart projectile and a circumferential notch (523) is created in front of the foot (525) for intercepting a flexible binding ring (531), the binding ring (531) in the circumferential notch (523) at least partially overlapping the hub (542). | ||||||
| 46 | SMALL DIAMETER CROSSBOW BOLT | PCT/US2013021329 | 2013-01-11 | WO2013106786A3 | 2013-09-06 | BORETTO TOD DOUGLAS |
| A small diameter crossbow bolt (100) includes a small diameter shaft (102) having a leading end (103) with an insert (104) to receive a point (106). The trailing end (107) of shaft has a nock (108) and adjacent fletching (110). The insert receives a point, such as a target point, broad head, or other point known in the industry. A circumferential spacer (112) is positioned along the shaft between the insert and nock and moved along the shaft as needed to locate the insert for a particular weight distribution, center of gravity positioning, or to separate the spacer from nock. The insert, nock, and spacer each have a diameter substantially equal to the diameter of a prior art bolt. When the diameters of the nock and spacer are equal to the diameter of a prior art bolt, the small diameter crossbow bolt of the present invention can be used interchangeably with prior art bolts without modification to the crossbow. | ||||||
| 47 | Reduced Diameter Bow Fishing Arrow | US16000475 | 2018-06-05 | US20180347954A1 | 2018-12-06 | Kevin Schellinger |
| A bowfishing arrow shaft is provided with a carbon fiber bow fishing arrow providing an outer tube with an internal wire rope. In this regard the wire rope provides added weight while being ductile to prevent damage to the carbon fiber tube or holding a “kink” preventing the arrow from fully returning to a straight configuration after extreme flexure of the carbon fiber tube which would otherwise be accommodate. | ||||||
| 48 | Crossbow discharge bolt and method | US14589645 | 2015-01-05 | US09945646B2 | 2018-04-17 | David A. Barnett |
| A crossbow discharge bolt for preventing damage to a crossbow associated with dry firing. The crossbow discharge bolt has a length of 10 inches or less and a weight of at least 330 grains. The length may be in the range of 6 to 10 inches. The weight may be in the range of 330 to 600 grains. | ||||||
| 49 | Arrow for projectile launching system | US15050295 | 2016-02-22 | US09921025B2 | 2018-03-20 | Richard T. Fields |
| The invention relates to an archery system that launches an arrow from a position that is perpendicular to a direction of flight for the arrow. After release, the arrow rotates to a position that is parallel to the direction of flight to the target. | ||||||
| 50 | FEATHERS OF AN ARROW | US15607428 | 2017-05-26 | US20170350680A1 | 2017-12-07 | YEON KIM |
| The present invention relates to the improved feathers of an arrow, and more particularly, to the improved feathers of an arrow, which prevent instability of flight caused by a vortex generated during the flight of the arrow by forming a plurality of arrow feathers attached to the arrow, which has a cross section which is a curved surface and integrally forming an auxiliary surface having one surface which is the curved surface with the arrow feather to guarantee stable flight. | ||||||
| 51 | ARCHERY ARROW HAVING IMPROVED FLIGHT CHARACTERISTICS | US15590671 | 2017-05-09 | US20170307344A1 | 2017-10-26 | Martin Connolly |
| The archery arrow having improved flight characteristics of the present invention is designed to improve the accuracy of the arrow which is equipped with a dampening medium within the central bore of the arrow shaft. The dampening materials in an embodiment may include, but not be limited to, silicon, epoxies or urethanes and selection of various dampening materials may provide for varying degrees of stiffness. The dampening effects of internal dampening materials decrease the initial deflection distance of the arrow and also serves to decrease the deflection with each oscillation. In addition, the dampening medium adopted in the present invention provides for an arrow having a selectable center of gravity location that has improved flight characteristics. Thus, the dampening materials adopted in the present invention provide for a selected location of center of gravity and a desired attnuation of oscillations. | ||||||
| 52 | Shafted projectiles having a head | US14810407 | 2015-07-27 | US09746293B2 | 2017-08-29 | Peter J. Cummings |
| Mechanically attachable fletching is disclosed herein for a projectile having a shaft having an exterior surface. The mechanically attachable fletching includes at least one fin, a connection section bordering the at least one fin, and at least one mechanical fastener for attaching the fletching to the exterior surface of the shaft via the connection section. Also disclosed herein are methods for mechanically attaching fletching to the shaft of the projectile. Also disclosed herein are illuminated projectiles. Also described herein is a projectile having a shaft, a projectile head, and at least one fin. The projectile head preferably has a plurality of layers, the head end preferably being associated with the projectile head. Also described herein is a projectile that includes a shaft, a suction head, an outer head casing, and at least one fin. The suction head is preferably associated with the head end. The at least one launcher engager is preferably associated with the suction head. Two halves of the outer head casing preferably sandwich the suction head and the head end. | ||||||
| 53 | Air Driven Projectile | US15393603 | 2016-12-29 | US20170234660A1 | 2017-08-17 | Marvin Carlston |
| A system for propelling an air-driven projectile from an air gun includes an air gun with an elongate bore and a source of compressed air in fluid communication with the elongate bore. A projectile is disposed within the bore of the air gun, the projectile having an outer diameter that is less than an inner diameter of the elongate bore. | ||||||
| 54 | Long-distance delivery system for fishing devices | US14565131 | 2014-12-09 | US09681650B2 | 2017-06-20 | Robert R. Mayer; James R. Mayer |
| The disclosure provides a system and methods of use pertaining to long-range fishing applications. One embodiment provides a long-range fishing-device delivery system that relies on a mounting shaft, a buoyancy module, and a fishing or payload module to house a variety of fishing devices such as a baited hook, an artificial lure, or a fishing accessory such as a depth sensor, temperature sensor, or fish finder. The delivery system leverages a launch force from an external launching apparatus such as a bow or slingshot to deploy the system and enclosed fishing device to a desired long-range location and depth within a body of water. Other embodiments are also disclosed. | ||||||
| 55 | Arrow Having Multiple Exterior Diameters and Multiple Interior Diameters | US14989914 | 2016-01-07 | US20160377394A1 | 2016-12-29 | Tod Boretto; Martin Connolly |
| A cylindrical carbon fiber arrow shaft formed with an exterior surface having single or multiple outside diameters and formed with an axial bore having multiple interior diameters. In a preferred embodiment, the exterior surface of the arrow shaft has an increased external diameter at the nock end and tapers to a smaller external diameter at the tip end. The axial bore has an internal diameter at the nock end corresponding to standard arrows having external diameters of 0.295 inches and tapers to a smaller internal diameter at the tip end. Modifying the length, diameter, and wall thickness of the arrow shaft varies the stiffness of the arrow shaft along the length and shifts the center of gravity along the length of the arrow shaft and as well. Utilizing standard internal diameters, nock and tips may be attached without spacers or inserts, thereby decreasing weight of the arrow significantly. | ||||||
| 56 | Arrow construction system having tip canister electronics | US14318240 | 2014-06-27 | US09482505B2 | 2016-11-01 | Kendyl Allen Román |
| An arrow construction system comprising a tip canister configured to receive an arrow tip and to attach to an arrow shaft. The tip canister contains a power source and sensitive electronics. The power circuit may be a battery, a primary storage capacitor, a coil and a rectifier, and/or a solar cell. The tip canister may be electrically connected to the nock via the shaft electrical conduction system. The electrical conductors may be integrated into the shaft. The wires may form a cable with standard connectors. The nock may contain a light. Alternatively, the fletching may comprise light emitting film or fibers. The circuits may include a flash circuit, an audio circuit, a radio beacon, a wireless transmitter, environmental sensors, a camera, a switch, and/or a GPS device. The switch may be activated by a current detected in a coil or by an accelerometer. | ||||||
| 57 | Quick-loading bow and arrow toy | US14621336 | 2015-02-12 | US09476666B1 | 2016-10-25 | Cole Ernest Larner |
| A bow and arrow toy having a light-weight, foam tipped arrow and a bow with rear and fore tension bands. To load and arm the toy, the rear of the arrow is abutted against the rear tension band and the shaft of the arrow is pressed against the fore tension band and drawn back. As the arrow is drawn back, the shaft of the arrow slides against the fore tension band until the fore tension band falls into an engagement slot along the shaft, causing the fore tension band to also become engaged and tensioned as the arrow is drawn back further. At the fore outside edge of the engagement slot is a catch lip which protrudes outwards from the shaft and functions to guide the fore tension band into the engagement slot if the pressure of the shaft against the fore tension band is not sufficient to cause the fore tension band to slide directly into the engagement slot. The fore tension band is comprised of three interlinked loops, with the central loop being sleeved so as to narrow its effective diameter. The front profile of the fore tension band, from top to bottom, slants rearward, is vertical and slants forward, thereby providing physical guidance for proper horizontal orientation of the arrow. The sleeved central loop differs in color from the top and bottom loops of the fore tension band to facilitate proper horizontal orientation of the arrow. | ||||||
| 58 | CROSSBOW DISCHARGE BOLT AND METHOD | US14589645 | 2015-01-05 | US20160195373A1 | 2016-07-07 | David A. Barnett |
| A crossbow discharge bolt for preventing damage to a crossbow associated with dry firing. The crossbow discharge bolt has a length of 10 inches or less and a weight of at least 330 grains. The length may be in the range of 6 to 10 inches. The weight may be in the range of 330 to 600 grains. | ||||||
| 59 | HIGH STRAIGHTNESS ARROW AND METHOD OF MANUFACTURE | US14605939 | 2015-01-26 | US20160161227A1 | 2016-06-09 | MARTIN CONNOLLY |
| The high straightness arrow in the present invention is designed to improve the straightness of the archery arrow by adopting new manufacturing technique and method. Chamber and post are made of dissimilar metals and the chamber includes a wall that creates an external housing and defines an internal airspace. Once the post with shaft is positioned through chamber, nuts are tightened securely, forming an assembly, to straighten post. Due to the different coefficients of thermal expansion of chamber and post, when they are heated simultaneously, the chamber expands more than the post, creating a natural tension along post which results in a near perfectly straight shaft. As the assembly cools, the post and chamber return to their original length, yet the shaft retains its straightened form and thus this manufacturing process yields an arrow shaft that is straighter than shafts made of the same materials but with a traditional manufacturing technique. | ||||||
| 60 | SPEAR FISHING SHAFT ASSEMBLY | US14874090 | 2015-10-02 | US20160106080A1 | 2016-04-21 | Chris W. Chaput |
| A shaft assembly includes a cylindrical body with at least one recessed slot. Each recessed slot has a length aligned with a main axis of the cylindrical body, a width and a depth profile. The shaft assembly also includes at least one tab, each having a base and a fin portion. The base of each tab is adapted to engage a corresponding one of the recessed slots within the length and the width of the recessed slot, and has a base profile to match the depth profile of the recessed slot. | ||||||
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