| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 一种管状推进剂自动送料装置 | CN201610648935.X | 2016-08-09 | CN106225607A | 2016-12-14 | 汪允顺; 刘成波; 王克功; 巩重本; 郭玉田; 罗永光; 张斌 |
| 本发明涉及一种管状推进剂自动送料装置,属于推进剂加工领域。本发明的管状推进剂自动送料装置,在装药盒底部设置宽度与待推送药柱的长度相匹配、厚度与待推送药柱的外径相匹配的矩形通道,装药盒矩形通道底端距底座上表面的间距大于待推送药柱的外径、且小于待推送药柱的外径的二倍,装药盒矩形通道的底端外侧通过扭簧连接挡药板;通过气缸和拉簧驱动推杆实现单根药柱推送。本发明的自动送料装置实现了对管状推进剂的单根送料自动化操作,极大的降低了工人的劳动强度,提高了工作效率;有效控制混同质量,保证了整批产品性能的一致性;同时隔绝人工操作,避免了安全事故的发生。 | ||||||
| 2 | 一种震源药柱壳体整理下壳机构 | CN201710678791.7 | 2017-08-10 | CN107449328A | 2017-12-08 | 任红叶 |
| 一种震源药柱壳体整理下壳机构,它震源药柱壳体下壳装置和震源药柱壳体旋转放料装置,所述震源药柱壳体下壳装置包括架体、振动下壳组件、推壳组件、收壳组件和垫块,所述振动下壳组件包括震源药柱壳体料箱、下壳电动滑台和一组隔板,所述下壳电动滑台设有一对滑块,下壳电动滑台的轨道固定安装在架体上;本发明提供了一种震源药柱壳体整理下壳机构,能够实现乳化炸药震源药柱壳体的自动上壳,并与震源药柱装药机对接方便,自动化程度高,安全可靠,具有很好的实用价值。 | ||||||
| 3 | 一种循环式震源药柱自动装药生产线 | CN201710678762.0 | 2017-08-10 | CN107228604A | 2017-10-03 | 任红叶 |
| 一种循环式震源药柱自动装药生产线,它包括倍速链输送机、震源药柱壳体上壳系统、一组壳体输送机构、乳化炸药震源药柱装药机和震源药柱输送拨分机构,所述震源药柱壳体上壳系统包括震源药柱壳体下壳装置和震源药柱壳体旋转放料装置,所述震源药柱壳体下壳装置包括架体、振动下壳组件、推壳组件、收壳组件和垫块,所述架体固定安装在倍速链输送机的机架上,所述振动下壳组件包括震源药柱壳体料箱;本发明优点是:本发明提供了一种循环式震源药柱自动装药生产线,能够实现乳化炸药震源药柱壳体的自动上壳,并自动往乳化炸药震源药柱壳体内装填乳化炸药基质,自动化程度高,安全可靠,装药效率高,具有很好的实用价值。 | ||||||
| 4 | 上底火系统 | CN201610321951.8 | 2016-05-16 | CN105973080A | 2016-09-28 | 罗斌; 杨福林; 彭杰; 谢小浩; 樊毅; 叶丽 |
| 本发明公开了一种上底火系统,包括内设有竖向货槽的货匣和内设有弧形通道的底座,通道上端与货槽下端平滑对接;在底座的下端固定开有冲孔的底板,在底座上还插有正对冲孔的冲针,冲针通过弹性支撑机构悬置,在底座内安装有推块和夹块,在推块和夹块相互靠近的端头之间设有缺口,在推块与底座之间还垫有横向弹簧,当横向弹簧处于自然状态时,推块和夹块之间的缺口与弧形通道的下端平滑相连,并且推块将冲孔覆盖;在夹块上连接有拨动装置,在拨动装置的作用下,夹块沿横向弹簧的中心线方向移动。上述结构使待压装的底火通过夹块和推块的移送与通道断开,有效地避免了压装底火燃烧引燃一连串的底火,不仅减少了安全隐患,而且有利于生产成本的控制。 | ||||||
| 5 | Electrical explosion device capable of loading slurry and its assembling method | JP33832396 | 1996-12-18 | JPH09210596A | 1997-08-12 | KENISU II HEINESU; BURAIAN KEE HAMIRUTON; BURENTO EE PAAKUSU; DAGU AARU KAAKU; UIRIAMU JIEE BUROMUBAAGU |
| PROBLEM TO BE SOLVED: To keep an appropriate connection between a bridge wire and explosion material and further to enable an electrical ignition circuit to be kept at its closed state by a method wherein the explosion material is loaded in slurry form in either a loading holder or a casing to assemble an electrical explosion device. SOLUTION: A metallic header 22 is arranged at a releasing end of a loading cup 14 of an explosion device 2, placed adjacent to the upper surface of explosion material 38, an insulated electrical conductive pin 30 is stored in a central opening of the header 22 and then a seal 26 is arranged between the pin 30 and the header 22. In this case, after slurry of explosion material 38 is loaded in a loading cup 14, a bridge wire 34 welded to the pin 30 acting as an assembled ignition assembly is arranged to connect the bridge wire 34 with the explosion material 38. This assembled ignition assembly is used for compressing the explosion material 38 within the loading cup 14 and the compressed state is held until a mutual connection between the header 22 and the cup 14 is completed. | ||||||
| 6 | A method of manufacturing the ammunition | JP2010500027 | 2008-03-28 | JP2010522860A | 2010-07-08 | ハリソン,レスリー,マーヴィン |
| 武器の銃身から発射させる弾薬(10)を製造する方法は、内面を有するモールド(32)を形成する工程と、モールド(32)内にコア(42)を載置して鋳造空間(43)を形成する工程と、液化した固化可能材料を鋳造空間(43)に注入する工程とを含む。 材料が固化すると、コア(42)が取り除かれて、閉端部と反対側端部とを有する発射物本体(12)を形成する。 さらに、コア(42)が取り除かれることにより、反対側端部に向けて開放されたキャビティ(18)が発射物本体(12)内に形成される。 発射物本体(12)がモールド(32)から取り除かれ、大量の発射薬(22)が反対側端部からキャビティ(18)に入れられる。 点火薬を含むシール(26)が反対側端部に押圧される。 周囲フランジ(30aおよび30b)が発射物本体(12)と一体成形される。 | ||||||
| 7 | The slurry can be loaded electric detonator | JP2007268996 | 2007-10-16 | JP4231086B2 | 2009-02-25 | ジェー. ブロムバーグ ウィリアム; イー. ヘイネス ケニス; アール. カーク ダグ; ケー. ハミルトン ブライアン; エー. パークス ブレント |
| 8 | The slurry can be loaded electrical detonators and its assembling method | JP33832396 | 1996-12-18 | JP4072577B2 | 2008-04-09 | ジェー. ブロムバーグ ウィリアム; イー. ヘイネス ケニス; アール. カーク ダグ; ケー. ハミルトン ブライアン; エー. パークス ブレント |
| 9 | 火器用カートリッジおよび作成方法 | JP2018503625 | 2016-07-27 | JP2018524549A | 2018-08-30 | ヴィッジャーノ,アンソニー; ドロボッキー,ボロディミール |
| 火器用カートリッジ内で使用するためのケーシング(220)は、スリーブ(222)および取り付けられた基部(224)を備える。スリーブは、弾丸を保持するための口部およびそこからニップル(228)を伸ばす反対側の隔壁(226)を備えた円筒部を有する。半径方向に厚さが低減し、湾曲面部を有する唇部(234)は、第1の封止領域(41)を形成する。好ましくは、第2の封止帯(39)は隔壁に近い。隔壁(226)は周波またはリッジ(250)を備える。スリーブは、好ましくはオーステナイトステンレス鋼から作成され、スリーブの長さに沿って異なる硬度および磁気特性を有し、最小の硬度のニップルを備える。 【選択図】図8 |
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| 10 | Electric detonator loaded with slurry | JP2007268996 | 2007-10-16 | JP2008070109A | 2008-03-27 | HAYNES KENNETH E; HAMILTON BRIAN K; PARKS BRENT A; KIRK DOUG R; BLOMBERG WILLIAM J |
| PROBLEM TO BE SOLVED: To provide an electric detonator loaded with slurry. SOLUTION: The slurry being a pyrotechnic material 38 is loaded into the detonator 2. An ignition assembly provided with a header 22 having at least one electrical conductive pin 30 and a bridge formation wire 34 between the header and the pin is installed to connect the bridge formation wire with the pyrotechnic material of the detonator properly. In another embodiment of this invention, a shell is provided as an another electric connection part of the header, and the connection part is joined with the header by connection through bending or welding and connects a loading cup including the pyrotechnic material with the shell furthermore. COPYRIGHT: (C)2008,JPO&INPIT | ||||||
| 11 | Method and device for packing detonator | JP1302083 | 1983-01-31 | JPS58134831A | 1983-08-11 | HOOSUTO EFU MAATSU |
| 12 | 폭발탄에 압축형 복합화약을 충전하는 방법 및 그 제조장치 | KR1020090004285 | 2009-01-19 | KR1020100084902A | 2010-07-28 | 박정수; 박희덕; 김현수; 권태수 |
| PURPOSE: A method and a device for loading compressed bombshells to an explosive are provided to improve safety by uniformly loading bombshells with high-density. CONSTITUTION: A method for loading compressed bombshells to an explosive is as follows. A pellet(P) is formed by putting gunpowder into a mold and compressing the gunpowder to be accepted into a bombshell body(2). The bombshell body is fixed to the mold, and multiple pellets are compressed and inserted into the bombshell body. | ||||||
| 13 | 카트리지 | KR1020107004998 | 2008-07-25 | KR1020100063709A | 2010-06-11 | 하이트만토마스; 크라츠쉬클라우스-아힘; 파게데스미카엘 |
| The invention relates to a bullet (1) having a propellant charge casing (2) being at least partially filled with a propellant charge powder (13) and a projectile part (3) connected on the front of the propellant charge casing (2), wherein the propellant charge casing (2) comprises a casing cover (7), a casing sheath (8) and a casing base (9), and wherein the casing sheath (8) is connected to the projectile part (3) via the casing cover (7) and to the casing base (9) via a spring steel sheet (10). In order to achieve that different amounts of propellant charge powder (13) can be filled into the same propellant charge casing (2) without igniting the propellant charge at undesirable blast waves, the invention provides to dispose a sack-shaped container (14) being completely filled with the respective amount of propellant charge powder (13) inside the propellant charge casing (2) such that the container-and thus also the propellant charge powder-extends in the direction of the central longitudinal axis (100) of the bullet (1). | ||||||
| 14 | 탄약 제조 방법 | KR1020097022537 | 2008-03-28 | KR1020100015995A | 2010-02-12 | 해리슨레슬리머빈 |
| A method of manufacturing ammunition (10) for firing from the barrel of a weapon comprises forming a mould (32) having an interior surface, placing a core (42) in the mould (32) to produce a casting void (43) and pouring a liquefied solidifiable material into the casting void (43). Upon solidification of the material, the core (42) is removed to produce a projectile body (12) having a closed end and an opposite end. The removal of the core (42) also creates the cavity (18) in the projectile body (12) that opens onto the opposite end. The projectile body (12) is removed from the mould (32) and a quantity of propellant (22) is deposited into the cavity (18) through the opposite end. A seal (26) which incorporates a primer is pressed into the opposite end. Circumferential flanges (30a) and (30b) are integrally moulded with the projectile body (12). | ||||||
| 15 | SPRENGLADUNG ZUR AUFNAHME IN EINER GESCHOSSHÜLLE SOWIE GESCHOSS | EP16000973.4 | 2016-04-29 | EP3091327B1 | 2017-12-27 | Glauben, Dirk; Koch, Wolfgang; Maurer, Christian; Schroth, Hermann-Josef; Graf, Hans-Rainer |
| 16 | PRECISION AMMUNITION AND AUTOMATIC APPARATUS FOR HIGH SPEED PRECISION PORTIONING OF GRANULES BY WEIGHT | EP15759231.2 | 2015-03-03 | EP3114427A1 | 2017-01-11 | Pearlson, Daniel David |
| A method of supplying a rifle with cartridges includes providing classes within a group of cartridges. The classes are classified by specific and precisely graduated increments of propellant load contained in the cartridges, or by formulation of propellant, of each class relative to the cartridges of each other class. The user can test fire a rifle with multiple classes of the group and record the accuracy of the firing. A class of the group can be then chosen for a particular rifle based on accuracy of the rifle in the test firing. | ||||||
| 17 | SPRENGLADUNG ZUR AUFNAHME IN EINER GESCHOSSHÜLLE SOWIE GESCHOSS | EP16000973.4 | 2016-04-29 | EP3091327A1 | 2016-11-09 | Glauben, Dirk; Koch, Wolfgang; Maurer, Christian; Schroth, Hermann-Josef; Graf, Hans-Rainer |
Die Erfindung betrifft eine Sprengladung (1, 11) zur Aufnahme in einer Geschosshülle (22), umfassend mehrere miteinander verbundene vorgeformte Sprengstoffsegmente (4a, 4b, 4c, 4d, 4e, 14a, 14b, 14c, 14d, 14e) und eine an den verbundenen Sprengstoffsegmenten (4a, 4b, 4c, 4d, 4e, 14a, 14b, 14c, 14d, 14e) angeordnete Zentriervorrichtung (7, 17, 18) zum Zentrieren der verbundenen Sprengstoffsegmente (4a, 4b, 4c, 4d, 4e, 14a, 14b, 14c, 14d, 14e) in der Geschosshülle (22).
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| 18 | MEMS detonator | EP13188823.2 | 2011-03-03 | EP2687811A1 | 2014-01-22 | Claridge, Robert; Combes, David |
This invention relates to a MEMS detonator, in particular the production of MEMS scale detonators via the use of a microreactor (3). The invention further lies in a reproducible manufacturing method of MEMS scale detonators, for use in safety and arming units (SAU), which are used in warheads and munitions. A warhead comprising a MEMS detonator may find particular use in increasing the IM compliance of munitions. The method involves the use of high pressure input of two solutions (2, 2a) into a microreactor (3) to form an in-situ precipitation reaction, which furnishes an initiatory (i.e. primary) explosive, wherein the explosive and supernatant liquid is directly fed into a microchamber, using the microcavities in the septum as a MEMS sieve to retain the explosive and form a MEMS detonator.
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| 19 | MEMS DETONATOR | EP11710806.8 | 2011-03-03 | EP2547981B1 | 2013-12-04 | CLARIDGE, Robert, Peter; COMBES, David, Johnathon |
| This invention relates to a MEMS detonator, in particular the production of MEMS scale detonators via the use of a microreactor (3). The invention further lies in a reproducible manufacturing method of MEMS scale detonators, for use in safety and arming units (SAU), which are used in warheads and munitions. A warhead comprising a MEMS detonator may find particular use in increasing the IM compliance of munitions. The method involves the use of high pressure input of two solutions (2, 2a) into a microreactor (3) to form an in-situ precipitation reaction, which furnishes an initiatory (i.e. primary) explosive, wherein the explosive and supernatant liquid is directly fed into a microchamber, using the microcavities in the septum as a MEMS sieve to retain the explosive and form a MEMS detonator. | ||||||
| 20 | VERFAHREN ZUR HERSTELLUNG EINES GROSSKALIBRIGEN SPRENGGESCHOSSES UND SPRENGGESCHOSS, HERGESTELLT NACH DIESEM VERFAHREN | EP10720128.7 | 2010-05-06 | EP2435780B1 | 2013-07-10 | DAU, Ole; NADERHOFF, Uwe |
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