| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 61 | Burned out of a container constructed from at least two layers | JP2008246180 | 2008-09-25 | JP5199002B2 | 2013-05-15 | 正勝 衛藤; 浩幸 児玉 |
| 62 | Burn-out container of simple structure | JP2010088393 | 2010-04-07 | JP2011220575A | 2011-11-04 | ETO MASAKATSU; ITAI MICHIYA |
| PROBLEM TO BE SOLVED: To provide a new burn-out container having more excellent combustibility than that of the conventional burn-out container by having a simple and simplified construction while having strength the same as that of the conventional burn-out container.SOLUTION: In the cylindrical burn-out container 1 constituted of a burn-out container body 3, an burn-out caps 2 to be lids of the container body 3 and an burn-out cylindrical tube 2 and having hollow aperture parts at the center of both end surfaces, the burn-out cylindrical tube 2 extended from the hollow aperture parts to constitute the hollow inner part of the container is provided coaxially with the center axis of container both end surfaces and the burn-out caps 2 and the burn-out cylindrical tube 2 are integrally connected from hollow opening parts of the burn-out caps 2. | ||||||
| 63 | Propellant unit and propelling charge formed by using the same | JP2004258022 | 2004-09-06 | JP2006071236A | 2006-03-16 | TANAKA TOKUJI |
| PROBLEM TO BE SOLVED: To provide an unitized (enlarged) propellant without changing burning characteristics of the propellant. SOLUTION: In this propellant unit formed by axially aligning two or more columnar propellants and connecting them by a connecting means, the propellant has one or more axially penetrated pores and secures voids among the connected propellants. COPYRIGHT: (C)2006,JPO&NCIPI | ||||||
| 64 | Modular firing charge | JP842994 | 1994-01-28 | JP3141127B2 | 2001-03-05 | 安則 小坂; 潤一 木村; 康夫 狩野; 潤一 笠松 |
| 65 | Charge module for plug-shaped coupling structure | JP1005194 | 1994-08-15 | JP2585093Y2 | 1998-11-11 | シュルツ,アルベルト; ヤスコルカ,ハインツ; ラーネン,フューラー |
| 66 | Plug-shaped coupling member for the charge module | JP1005194 | 1994-08-15 | JPH0722299U | 1995-04-21 | シュルツ,アルベルト; ヤスコルカ,ハインツ; ラーネン,フューラー |
| (57)【要約】 【目的】 手動装填時間を短縮するために、所望の如何なる向きにでも装薬モジュールの連結及び組付けた装薬モジュールの装填が可能な装薬モジュールを提供する。 【構成】 二つ以上の装薬モジュール2のためのプラグ形連結部材1であって、各モジュール2が、装薬3を充填した可燃性の容器4を含み、プラグ形連結部材1が、
同一の弾径を維持するように、隣接する容器4の外皮の縮径領域でつながるものにおいて、各容器4の両側には、外皮の縮径領域5が対称的に配置され、2つの隣接する容器4は、独立した連結リング6を介して、縮径領域5を対向させて相互連結される。 |
||||||
| 67 | Composite firing powder charge | JP22499393 | 1993-08-19 | JPH06317399A | 1994-11-15 | TAMADA ATSUSHI; KANO YASUO; KIMURA JUNICHI; NAKATSUKA KANJI; FUKUDA TAKAAKI; YOSHIDA MAKI |
| PURPOSE:To provide a composite firing powder charge which does not generate a pressure wave, has a less ignition lag, and of which the filling rate is large. CONSTITUTION:For a composite firing powder charge, in a firing powder charge 1 consisting of a blazable container 2, and a flash charge 4 and gunpowder 9 which are stored in said container, a column-shaped gunpowder or flash charge 5 is arranged to be a central axis in the axial direction of the firing powder charge, and around the central axis, a gunpowder which is a major powder charge is filled. | ||||||
| 68 | Method of loading modularized charge and modularized charge | JP2824093 | 1993-02-17 | JPH06241699A | 1994-09-02 | YOSHIOKA TAKESHI |
| PURPOSE:To reduce the variation of ignition by assuring the location of a modularized charge at the time of loading it in a chamber by use of a flammable locating matter provided on the modularized charge, in a method of loading the modularized charge and in the modularized charge. CONSTITUTION:The title modularized charge has a locating matter 3 provided on its outer circumference, and in the title method the modularized charge 2, 2A can be located at any position in a chamber 11 by bringing the locating matter 3 into contact with an inner face 11a of the chamber 11. | ||||||
| 69 | Launching chemical charging method and launching chemical charging device | JP2938193 | 1993-02-18 | JPH06241689A | 1994-09-02 | YOSHIOKA TAKESHI |
| PURPOSE: To provide a launching chemical charging method and a launching chemical charging device in which a moving tray is used to perform an easy supplying of a desired number of launching chemicals onto a charging tray. CONSTITUTION: A launching chemical charging method and a launching chemical charging device are constructed such that a launching chemical 2 transported through a fixed tray is positioned on a moving tray 4, thereafter the moving tray 4 is moved, thereby a launching chemical 2 is dropped onto the charging tray 3. COPYRIGHT: (C)1994,JPO&Japio | ||||||
| 70 | Unit type shooting charge | JP28137991 | 1991-10-28 | JPH05118793A | 1993-05-14 | KASAMATSU JUNICHI; KOSAKA YASUNORI |
| PURPOSE:To simultaneously ignite many stacked charges and to obtain a desired shooting distance by specifying the relationship among inner diameters, outer diameters of both ends of a unit shooting charge for gun such as a shell gun, etc., and inner diameter of a gunpowder chamber for the gun. CONSTITUTION:A unit type shooting charge fills gunpowder 4 in a columnar vessel 1 made of a burning-out material and having openings 3 at centers of both ends. A male end 1a is provided at one end of the vessel 1, a female end 1b is provided at the other, and adjacent shooting charge can be engaged with each other. An ignition gunpowder cylinder 2 for constituting an inner surface of a vessel having an inner diameter (d) of 10-40mm is provided coaxially with the vessel 1. The gunpowder 4 held on the inner surface of the cylinder 2 is ignited by an ignition tube opposed to the end of the gunpowder chamber for a gun. The outer diameter of the vessel 1 and the inner diameter of the cylinder 2 are so set that the sum of the outer diameter of the vessel and the inner diameter of the cylinder 2 exceeds the inner diameter of the gunpowder chamber, and Young's modulus of the end 1b is set to 100-200kg/mm<2>. | ||||||
| 71 | Longitudinal split shooting gunpowder | JP16128791 | 1991-07-02 | JPH0510700A | 1993-01-19 | SUGIMOTO KAORU; ANEGAWA SHINICHI |
| PURPOSE:To efficiently assemble one shooting gunpowder by continuously shooting a shell gun, and then collecting removed cartridge cases. CONSTITUTION:Columnar cartridge cases 6 are assembled in contact with flat surfaces along their long sides without gap. Angles 9 of the contact surfaces of the cases 6 are the same, and a plurality of the cases 6 in which bottom gunpowders 5 are provided, are provided. | ||||||
| 72 | 포탄용 추진 장약 시스템 | KR20177037859 | 2015-07-03 | KR20180055762A | 2018-05-25 | PETER ZOSS; DOMINIK ANTENEN; ULRICH SCHAEDELI |
| 본원은적어도두 개의부분장약을구비한포탄발사용추진장약시스템에관한것이다. 상기부분장약은각각하나의파우더형을갖고니트로셀룰로스와적어도하나의결정성에너지담체와적어도하나의제 1 비활성가소제를포함한다. 상기적어도하나의부분장약은제 1 파우더형을포함하고, 상기적어도하나의다른부분장약은제 2 파우더형을포함한다. 표면근접영역의최대 400 ㎛이하의침투깊이까지상기제 2 파우더형은 2 중량% 내지 10 중량%의제 2 비활성가소제를함유하고, 상기제 1 파우더형은표면근접영역에서제 2 비활성가소제를함유하지않는다. | ||||||
| 73 | 추력 발생 장치 | KR1020150178474 | 2015-12-14 | KR1020170070666A | 2017-06-22 | 김동진; 정동희 |
| 본발명은추력발생장치에관한것으로, 상부와하부가개구되고내부에수용공간(11)이형성된하우징(10)과, 상기하우징(10)의하부를통해상기수용공간(11)에삽입되며상기하우징(10) 상부를차폐하도록위치되는방출뭉치(20)와, 상기수용공간(11)에배치되어상기하우징(10) 하부를차폐하고내부에화약(31)이충진된점화용기(30)와, 상기점화용기(30)와상기방출뭉치(20) 사이에배치되며상기화약(31) 연소시상기하우징(10) 상부방향으로이동하여상기방출뭉치(20)를방출시킴과동시에상기하우징(10) 상부를차폐하여상기화약연소시발생된화염과가스가외부로누설되는것을최소화하는피스톤(40)을포함한다. 본발명은작동시화염및 가스누출, 소음발생이최소화되고화약의효율적인연소가가능한이점이있다. | ||||||
| 74 | 추진 메탈통 제조 장치 | KR1020160002018 | 2016-01-07 | KR101619945B1 | 2016-05-23 | 이복우 |
| 본발명은원통형메탈통본체와지지대를보다쉽게결합하여일체화할 수있을뿐만아니라, 내부에저장되는장약이누출되지않게밀봉할수 있는메탈통을제공할수 있는추진메탈통제조장치에관한것으로, 금속판을말아원통형으로말린원통형판체의서로대향되는단부를용접하여통본체를제작하는가접기와, 상기가접기에의해용접된통본체의외주면에하나이상의지지대를끼워조립하는삽입기, 및상기삽입기게의해서로조립된통본체와지지대의서로접하는부분의적어도일부를용접하여접합하는멀티용접기를포함하되, 상기가접기는, 이동수단에의해이동되어원통형판체의양단을지지하는단부지지수단; 원통형판체와대향되는면에호형홈이길게형성되어원통형판체의일측벽을지지하는고정형지지대와, 이동수단에의해이동되어, 고정형지지대에의해일측이지지되는원통형판체의타측을밀어지지하는이동형지지대를포함하는측부지지수단; 용접기이동수단에의해이동되어원통형판체의서로대향되는단부를따라용접기본체를이동시키면서용접하는본체용접수단; 및이동수단들의구동및 용접기본체의구동을제어하는제어수단을포함하는것을특징으로한다. | ||||||
| 75 | 대구경화포용 가변추진장약 용기의 제조방법 | KR1019920005871 | 1992-04-08 | KR1019960004922B1 | 1996-04-17 | 김경모 |
| The method includes the step of mixing 50-80 wt.% nitrocellulose and 20-50 wt.% kraft pulp in the special agitator at 100-400rpm speed while adding 8-15 wt.% ABS or SBR and adding 5-10% sodium carbonate water solution to control the Ph of the mixture product to 8-11 to be added 5-10% DPA-alcohol solution to make a slurry. The slurry is used to make a wet felt for moulding in a pressing mould and heating and pressing by a hydraulic press. The formed product is cut in required length and machined to make final products. | ||||||
| 76 | Muzzleloader systems | US15426885 | 2017-02-07 | US10030956B2 | 2018-07-24 | Bryan P. Peterson, Sr.; Drew L. Goodlin; Erik K. Carlson; Lawrence P. Head; John W. Swenson; Sharon Jones |
| Muzzleloader systems include a pre-packaged propellant charge and primer for providing efficient loading and unloading of the muzzleloader. The muzzleloader accepts in the breech end the propellant containment vessel that abuts against a constriction portion with a reduced diameter portion. The propellant containment vessel having an end portion with a tapered surface that conforms to the constriction portion surface. A projectile is inserted in the muzzle end and seats against the constriction portion. The propellant containment vessel may be received in a removable breech plug. The constriction portion may be part of the breech plug or a separate component secured in the barrel by way of the breech plug. The containment vessel further comprises a primer mechanism that may be integrated into the proximal end of the containment vessel. | ||||||
| 77 | Muzzle loader powder increment using celluloid combustible container | US13959138 | 2013-08-05 | US08881634B1 | 2014-11-11 | William J. Worrell, Jr.; Benjamin R. Vaughan; Sandra L. Case; Ming-Wan Young; Costas G. Gogos; Niloufar Faridi; Linjie Zhu; Peter Bonnett; Howard Shimm; Elbert Caravaca; Joseph Palk, Jr.; Dale Conti; Mohamed Elalem; Fei Shen |
| An encapsulated propellant charge comprised a sealed combustible container comprised of a consumable material and having a substantially cylindrical shape. The sealed combustible container comprises a top wall, a bottom wall, and a side wall therebetween. The top wall, the bottom wall and the side wall define a chamber; which contains a propellant composition. | ||||||
| 78 | Reduced energy training cartridge for self-loading firearms | US13650955 | 2012-10-12 | US08783152B2 | 2014-07-22 | Rick Huffman |
| A two piece, two-stage, reduced-energy mechanically operating cartridge is provided for launching, a configured bullet choice of various compositions from a dedicated or modified firearm. The cartridge unit is comprised of a primary case having a cavity to receive a propellant unit or propellant connection and a piston sleeve having a cavity to receive the configured bullet choice, the primary case coupled to the piston sleeve. The cartridge having a retracted pre-firing state and an expanded fired state whereby the piston sleeve and primary case telescope apart forcing, the firearm's slide or bolt to the rear, a mechanical operation opposed to a conventional cartridge with gas blow back operations. | ||||||
| 79 | REDUCED ENERGY TRAINING CARTRIDGE FOR SELF-LOADING FIREARMS | US13650955 | 2012-10-12 | US20140090573A1 | 2014-04-03 | Rick Huffman |
| A two piece, two-stage, reduced-energy mechanically operating cartridge is provided for launching, a configured bullet choice of various compositions from a dedicated or modified firearm. The cartridge unit is comprised of a primary case having a cavity to receive a propellant unit or propellant connection and a piston sleeve having a cavity to receive the configured bullet choice, the primary case coupled to the piston sleeve. The cartridge having a retracted pre-firing state and an expanded fired state whereby the piston sleeve and primary case telescope apart forcing the firearm's slide or bolt to the rear, a mechanical operation opposed to a conventional cartridge with gas blow back operations. | ||||||
| 80 | Foamed celluloid combustible material | US12977374 | 2010-12-23 | US08597444B1 | 2013-12-03 | Ming-Wan Young; Costas G. Gogos; Niloufar Faridi; Linjie Zhu; Peter Bonnett; Howard Shimm; Elbert Caravaca; Joseph Palk, Jr.; Dale Conti; Mohamed Elalem; Fei Shen |
| By using generally known chemically, physically, or a combination thereof, means to foam celluloid, a foamed celluloid material is invented with a density of less than about 1.25 gm/cm3, which material is relatively low cost, very fast burning, very low residue, easily moldable, and which material exhibits good mechanical strength, and provides a good water barrier. These characteristics make this foamed celluloid a preferred choice for military artillery propellant charge bags, military mortar and civilian fireworks increment charges, combustible cartridges, flare housings, igniter tubes, as well as, closure disks, combustible enclosures and components thereof, among other applications. | ||||||
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