| 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 | 用于制造可追踪弹药的工艺 | CN200480044245.9 | 2004-10-14 | CN101065639A | 2007-10-31 | 劳德米罗·马丁尼菲约 |
| 本发明涉及一种用于制造标以一系列字符的弹药的工艺,所述一系列字符允许识别多个数据项,由于所述一系列字符被激光雕刻在所述弹药的一个或多个部件中,因而在收回所述弹药的雕刻部件(即使其已被用过)时,提供了明确的标识。 | ||||||
| 2 | 用于产品的原作性的保护和控制的方法和装置及其电子可读证书 | CN200780017131.9 | 2007-05-11 | CN101443781B | 2012-05-23 | Z·热列夫; A·热列夫 |
| 本发明涉及用于保护和控制产品及其部件的原创性的方法和装置,以及其电子可读取的证书。根据产品(1)的结构将合金层(2)安置在产品上。通过后续的控制束或者通过束(3)执行的喷射而影响层(2),安置可恢复的标记(4)。为了控制或恢复标记,在标记被安置的区域扫描标记部分的表面、导电性和结构。将得到的标记的编码元素的图像与含有原作标记和编码的可恢复元素之间的关系的信息进行比较。该信息记录在数据库中,同时记录在附加的电可读证书(12)中,所述电可读证书通过多媒体加密标记(13)被保护以免于受到处理或伪造。 | ||||||
| 3 | 涂覆基材的体系和方法 | CN201511036125.0 | 2015-11-12 | CN105585909A | 2016-05-18 | J·A·斯基莱斯; C·沃伦; H·德莱宁; J·麦卡利斯特; T·玛菲; J·韦斯沃尔 |
| 本申请涉及涂覆基材的体系和方法.提供了一种装置,其包括:配置成壳体的基材,所述壳体具有至少一个侧壁使得所述壳体包括内侧壁和外侧壁,配置所述壳体使得其具有两个相反的端部:第一端部和第二端部;配置位于所述壳体内并且由所述壳体保持并且位置邻近所述第一端部的射弹;发射药,所述发射药配置在所述射弹和所述壳体的第二端部之间,所述发射药配置为在射击事件时膨胀并且将射弹从所述壳体射出;以及涂层,该涂层包括其中具有(分散)颗粒状氮化硼的保形涂覆层,其中所述涂层被配置为覆盖所述内侧壁和所述外侧壁中的至少一个,使得所述基材的至少一侧被所述涂层覆盖。 | ||||||
| 4 | 用于在射击之前雕刻已完整装配成套的可追踪弹药的方法 | CN200480044245.9 | 2004-10-14 | CN101065639B | 2012-06-20 | 劳德米罗·马丁尼菲约 |
| 本发明涉及一种用于制造标以一系列字符的弹药的工艺,所述一系列字符允许识别多个数据项,由于所述一系列字符被激光雕刻在所述弹药的一个或多个部件中,因而在收回所述弹药的雕刻部件(即使其已被用过)时,提供了明确的标识。 | ||||||
| 5 | 用于产品的原作性的保护和控制的方法和装置及其电子可读证书 | CN200780017131.9 | 2007-05-11 | CN101443781A | 2009-05-27 | Z·热列夫; A·热列夫 |
| 本发明涉及用于保护和控制产品及其部件的原创性的方法和装置,以及其电子可读取的证书。根据产品(1)的结构将合金层(2)安置在产品上。通过后续的控制束或者通过束(3)执行的喷射而影响层(2),安置可恢复的标记(4)。为了控制或恢复标记,在标记被安置的区域扫描标记部分的表面、导电性和结构。将得到的标记的编码元素的图像与含有原作标记和编码的可恢复元素之间的关系的信息进行比较。该信息记录在数据库中,同时记录在附加的电可读证书(12)中,所述电子可读证书通过多媒体加密标记(13)被保护以免于受到处理或伪造。 | ||||||
| 6 | PROCESS FOR MANUFACTURING TRACKABLE AMMUNITION | EP04789663.4 | 2004-10-14 | EP1807673B8 | 2014-03-05 | MARTINI FILHO, Laudemiro |
| 7 | Methods for protecting and managing the authenticity of the product | JP2009508060 | 2007-05-11 | JP5541678B2 | 2014-07-09 | ジェレヴ,ジヴコ; ジェレヴ,アルカディウシュ |
| 8 | Product and its electronically to a method and apparatus for protecting and managing the authenticity of readable certificate | JP2009508060 | 2007-05-11 | JP2009536588A | 2009-10-15 | ジェレヴ,アルカディウシュ; ジェレヴ,ジヴコ |
| 本発明は、製品及びその構成要素、並びにこれらの電子的に読み取り可能な証明書の真正性を保護及び管理するための方法及び装置に関する。 製品(1)の構造に応じて、アロイ層(2)が製品上に付設される。 次に、層(2)は、ビーム(3)による制御されたビーム又はジェットマーキングにより影響を受け、復元可能なマーキング(4)が付設される。 マーキングを管理或いは復元するために、マーキングが付設された領域において、マーキング形成部の表面、導電性或いは構造が調べられる。 得られたマーキング暗号化要素の画像は、オリジナルマーキングと復元可能な暗号化要素の関係を含む情報と比較される。 この情報は、多媒体暗号マーキング(13)によって改ざん或いは偽造から保護された電子的に読み取り可能な添付証明書(12)上のデータベースにも記録されている。 | ||||||
| 9 | METHOD AND DEVICE FOR PROTECTION AND CONTROL OF ORIGINALITY OF PRODUCTS AND ELECTRONICALLY READABLE CERTIFICATE THEREOF | EP07719230.0 | 2007-05-11 | EP2044552B1 | 2012-11-14 | ZHELEV, Zhivko; ZHELEV, Arkadiush |
| 10 | METHOD AND DEVICE FOR PROTECTION AND CONTROL OF ORIGINALITY OF PRODUCTS AND ELECTRONICALLY READABLE CERTIFICATE THEREOF | EP07719230.0 | 2007-05-11 | EP2044552A1 | 2009-04-08 | ZHELEV, Zhivko; ZHELEV, Arkadiush |
| The invention relates to method and device for protection and control of originality of products and their components and electronically readable certificate thereof. Depending on the structure of product (1) an alloying layer (2) is deposited over the product. The layer (2) is affected by a subsequent controlled beam or jet marking carried out by means of a beam (3) depositing a restorable marking (4). In order to control or recover the marking the surface, the conductivity and the structure of the marked part is scanned in the area where the marking is deposited. The acquired image of the encoding elements of the markings is compared with information that contains relevance between the original marking and the encoded restorable elements. The information is recorded in a database as well on the accompanying electronically readable certificate (12) protected by means of a multimedia encrypted marking (13) against manipulation or counterfeit. | ||||||
| 11 | PROCESS FOR MANUFACTURING TRACKABLE AMMUNITION | EP04789663.4 | 2004-10-14 | EP1807673B1 | 2013-07-17 | MARTINI FILHO, Laudemiro |
| 12 | PROCESS FOR MANUFACTURING TRACKABLE AMMUNITION | EP04789663.4 | 2004-10-14 | EP1807673A1 | 2007-07-18 | MARTINI FILHO, Laudemiro |
| The present invention refers to a process for manufacturing ammunition labeled with a sequence of characters which allows identification multiple data items, being said sequence of characters (1) laser-engraved, in one or more components of said ammunition, affording positive identification upon retrieval of an engraved component of said ammunition, even if it is already spent. | ||||||
| 13 | 탄두와의 기밀성이 향상된 탄피 및 이의 제조방법 | KR1020170034021 | 2017-03-17 | KR101852171B1 | 2018-04-25 | 이삼연 |
| 본발명은탄두를발사시키는탄피에관한것으로서, 보다상세하면탄두가압착체결되는탄피내부공간의상부일부분에그래핀코팅층이형성되어, 탄피와탄두간의기밀성을향상시킴으로써장약에의한폭발력으로탄두가탄피에서발사될때 탄두에고른폭발력이가해질수 있도록하는탄피에관한것이고, 상기그래핀코팅층에의한탄피와탄두의기밀성을통하여약의폭발력에의한탄피상부일부분을불규칙한변형을방지시킬수 있는탄피및 이의제조방법에관한것이다. | ||||||
| 14 | 포탄용 제청장치 | KR1020100069237 | 2010-07-16 | KR1020120008406A | 2012-01-30 | 이상재 |
| PURPOSE: A rust removing device is provided to maintain cannonballs in a immediately usable state by steadily eliminating residual foreign material on a cartridge belt of the cannonballs. CONSTITUTION: A rust removing device comprises a transferring unit, a rust removing unit(200), and a rotating unit(300). The transferring unit is installed on the top of a rack(10) and transfers the shells(2). The rust removing unit is arranged in a path of the transferring unit. The rust removing unit eliminates residual impurities on a cartridge belt of the outside the canon shell. The rotating unit is arranged in the path of the transferring unit and rotates the canon shells to a longitudinal direction. | ||||||
| 15 | 기능성 탄약 제청 시스템 | KR1020140057241 | 2014-05-13 | KR1020150130623A | 2015-11-24 | 권태광; 허정미; 박성교; 김석종; 정홍기; 이용석 |
| 본발명은탄약정비공정중 탄약을제청하는시스템에관한것으로서, 더욱구체적으로는탄약을제청하는공정에서발생하는소음을현저히저감시키고, 편안하고안전한작업환경을제공할수 있는기능성탄약제청시스템에관한것이다. 본발명은제청장치부(100), 자동푸셔부(200), 제청컨베이어부(300), 메인컨베어이부(400), 제청작업공간부(500)를포함하여이루어진기능성탄약제청시스템을제공한다. 또한본 발명은상기한제청장치부는제청케이싱부(110), 분사부(120), 철구제공부(130), 철구회수부(140)를포함하여구성되고, 상기한자동푸셔부는푸싱작동부(210), 센싱부(220), 공기주입부(230), 전원부(240), 제2센싱부(260)를포함하여구성된것을특징으로하는기능성탄약제청시스템을제공한다. 또한본 발명은상기한제청작업공간부(500)에방음벽(600)이부가되어설치된것을특징으로하는기능성탄약제청시스템을제공한다. | ||||||
| 16 | 냉각공정과 도금공정을 이용한 폐약협 정비방법 | KR1020140057926 | 2014-05-14 | KR101455677B1 | 2014-11-04 | 조효식 |
| 본 발명은 냉각공정과 도금공정을 이용한 폐약협 정비방법에 관한 것으로, 더 상세하게는 장기 저장중인 고폭탄의 약협에서 추진장약과 뇌관결합체를 신품으로 교체하는 정비하는 과정에서 약협으로부터 뇌관 또는 뇌관결합체를 분리하기 이전에 극저온의 냉각공정을 수행하여 온도에 의한 수축작용으로 약협과 뇌관 또는 뇌관결합체간의 결합력을 약화시켜 작은 힘으로 분리가 가능하도록 하고, 도금공정을 통해 확장된 뇌관결합구를 축소시키게 하는 등 타격에 의한 약협의 변형을 최소화시켜 약협의 구조강도가 저하되는 것을 방지할 수 있는 폐약협 정비방법에 관한 것이다.
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| 17 | Maintenance tool for combination hole of detonator and maintenance method for disuse cartridge case of using the same | KR20120069311 | 2012-06-27 | KR101209596B1 | 2012-12-07 | GIM IN YEONG |
| PURPOSE: A maintenance jig for a detonator combining hole and a waste cartridge case maintaining method using the same are provided to reduce costs for bomb maintenance by equipping the detonator combining hole which is expanded to be bigger than reference standard such that the detonator combining hole is suitable for standards during replacement of a propelling charge and a detonator of the bomb. CONSTITUTION: A maintenance jig for a detonator combining hole comprises a supporting body(100), a press-fitting body(200), and a pressure transmitting body(300). The lower part of a cartridge case(30) is supported in the supporting body. The press-fitting body is formed to be smaller than the inner diameter of the cartridge case to be inserted into a groove(31) of the cartridge case. The press-fitting body receives pressure from a push unit(400) while being inserted into the groove, thereby pressing an outer area of a detonator combining hole. The pressure transmitting body is formed on the top of the press-fitting body and delivers the pushing force from the push unit. | ||||||
| 18 | 탄화금속물 재생방법 | KR1020150093326 | 2015-06-30 | KR101575673B1 | 2015-12-08 | 류덕호; 이창길; 우용락; 김준한 |
| 본발명은 105 mm 이상의대구경화포에서사용한금속(황동) 탄피(이하, "폐탄피"라칭함)를박리제를이용하여폐탄피표면에폭약또는장약의발화로인한열화로인해형성된그을음및 에나멜등의용융수지를제거하고, 1차산처리제를통해박리제를통해제거되지않은그을음및 용융수지를재차처리하며, 2차산처리제를통해폐탄피표면의광택변화를방지하고, 마감처리제(코팅제)로폐탄피표면을코팅하여인장강도, 파열강도및 충격강도와같은기계적강도를강화시킴과동시에부식을방지시킴으로써, 폐탄피를재활용할수 있게하는탄화금속물재생방법에관한것으로, 폐탄피(200)를준비하는단계(S310)와; 상기폐탄피(200)를박리제에침지시키는단계(S320)와; 상기박리제에침지된폐탄피(200)를꺼내어물로 1차세척후 상온에서건조시키는단계(S330)와; 상기 S330 단계에서 1차세척되고건조된폐탄피(200)를 1차산처리제에침지시키는단계(S340)와; 상기 1차산처리제에침지된폐탄피(200)를꺼내어물로 2차세척후 상온에서건조시키는단계(S350)와; 상기 S350 단계에서 2차세척되고건조된상기폐탄피(200)를 2차산처리제에침지시키는단계(S360)와; 상기 2차산처리제에침지된폐탄피(200)를꺼내어물로 3차세척후 상온에서건조시키는단계(S370)와; 상기 S370 단계에서 3차세척되고건조된상기폐탄피(200)를마감처리제에침지시켜페탄피(200)의표면을코팅시키는단계(S380); 및상기마감처리제에침지된폐탄피(200)를꺼내어상온에서건조시키는단계(S390);를포함하고, 상기 S380 단계의마감처리제는마감처리제의총중량에대하여오르가닉실록산계의알콕시실란 40~50 중량%, 실리콘아크릴수지 10~20 중량%, 이소푸로필알코올 30~40 중량%가혼합되어제조되는것을특징으로한다. | ||||||
| 19 | 저온 분사 코팅을 이용한 성형작약탄 라이너의 기공경사 반응성 코팅 형성방법 및 이에 따라 제조된 고반응성 코팅층을 갖는 성형작약탄의 라이너 | KR1020120116617 | 2012-10-19 | KR101346238B1 | 2014-01-03 | 이성; 이창희; 원주연; 배규열; 강기철 |
| A graded porous multi-layered reactive coating method for a shaped charge liner using low temperature spray coating, given in the present invention, includes: a heating and pressurizing step (S120) of heating and pressurizing process gas to make the gas reach a preset temperature and a preset pressure; an acceleration step (S130) of accelerating the gas to supersonic speed by being compressed and expanded while passing through a nozzle (25); a powder supply step (140) of supplying powder for enacting a thermite reaction stored separately from the process gas into the nozzle where the process gas flows to transfer the powder along the nozzle; a powder spray step of spraying the powder which is accelerated by the process gas while moving together with the process gas within the nozzle from the nozzle onto the surface of a basic material (S) which is to be a liner for a shaped charge; and a plastic deformation step of forming a highly-reactive coating layer through plastic deformation on the surface of the basic material by making the powder from the nozzle collide with the basic material. The liner for a shaped charge having a highly-reactive layer manufactured by the method described above has a highly-reactive coating layer (13a) which comprises: a surface coating layer (13aa) which does not have pores from the surface of the liner to a certain depth; and a graded porous coating layer (13ab) of which the pore density decreases as the depth from the surface of the liner grows. [Reference numerals] (AA) Pore density (%); (BB) Depth from the surface(關m) | ||||||
| 20 | 생산물 및 그의 전자적으로 판독가능한 증명서의 원본성을 보호하고 제어하는 방법과 장치 | KR1020087030240 | 2007-05-11 | KR1020090042207A | 2009-04-29 | 젤레브지브코; 젤레브아르카디시 |
| The invention relates to method and device for protection and control of originality of products and their components and electronically readable certificate thereof. Depending on the structure of product (1) an alloying layer (2) is deposited over the product. The layer (2) is affected by a subsequent controlled beam or jet marking carried out by means of a beam (3) depositing a restorable marking (4). In order to control or recover the marking the surface, the conductivity and the structure of the marked part is scanned in the area where the marking is deposited. The acquired image of the encoding elements of the markings is compared with information that contains relevance between the original marking and the encoded restorable elements. The information is recorded in a database as well on the accompanying electronically readable certificate (12) protected by means of a multimedia encrypted marking (13) against manipulation or counterfeit. | ||||||
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