| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 21 | 用于安全文件认证的射频波吸收标记的用途 | CN201280022760.1 | 2012-03-30 | CN103597044A | 2014-02-19 | 朱昂·约瑟·罗梅罗法内戈; 维森特·加西亚胡埃斯; 乔斯·弗朗西斯科·费尔南德斯洛扎诺; 哈维尔·加蒙阿兰达; 米格尔·安格尔·德里格斯巴韦罗 |
| 本发明涉及不可去活化的安全组合物的用途,所述安全组合物包含至少两种类型的氧化物材料颗粒的组合,其中所述颗粒具有不同的尺寸和/或形态,并且其中无机氧化物材料具有至少一种过渡金属或一种镧系元素以及射频波吸收性质。本发明还涉及包含这些组合物的安全制品、文件或元件,并且涉及用于检测所述组合物的方法和系统。 | ||||||
| 22 | 用于均质卡结构的装饰性和/或安全元件 | CN201180054758.8 | 2011-11-15 | CN103209837A | 2013-07-17 | 夏伦·K·克劳福德-泰勒; 丹尼尔·M·舒姆斯基 |
| 一种层压板包括由可回收、可生物分解、可降解和/或可堆肥的材料构成的基膜,设置在基膜上的金属薄膜层或反射性薄膜层,以及设置在基膜上的耐热层。 | ||||||
| 23 | 变色多层聚合物纤维以及包含变色多层聚合物纤维的安全制品 | CN200980114915.2 | 2009-03-02 | CN102016140B | 2012-07-04 | 格雷戈里·L·布吕姆; 琼·M·弗兰克尔; 戴维·C·克拉姆利奇; 罗伯特·L·布劳特; 尚德恩·D·哈特; 莱恩·E·洛里默; 帕特里克·R·弗莱明; 威廉·J·科佩基; 布鲁斯·B·威尔逊; 詹姆斯·M·琼泽; 丹尼尔·J·齐利希; 詹姆斯·G·米切尔 |
| 本发明公开了聚合物纤维,所述聚合物纤维由不同聚合物材料的同心交替的层形成。所述层对的横截面厚度经过选择以反射选定可见波长的光。所述芯的横截面尺寸为所述交替的层的所选厚度的平均值的至少10倍。一些由所述纤维形成的制品是通过将一种纤维连接到另一种纤维形成的。所述纤维在所述连接点处的颜色与所述纤维其他地方的颜色不同。可以通过使所述聚合物纤维的所述横截面沿着第一横截面轴线伸长使所述纤维变形,从而改变其颜色性质。在一些实施例中,所述纤维是偏振敏感的。 | ||||||
| 24 | 基于塑料的有价文件或安全文件 | CN201080004313.4 | 2010-02-03 | CN102271928A | 2011-12-07 | H-P·塞约博林; A·利奥波德; D·梅尔滕斯; J·加尔贝克 |
| 通过在制造具有漆层(12)的文件(1)时使用覆盖薄膜(13,32)可以容易地且成本有利地确定地调整漆层(12)的表面特性并且同时使漆层(12)的特性针对使用特性最优。在硬化漆层之前将覆盖薄膜施加到漆层上,并且在硬化之后去除所述覆盖薄膜。因此,能够产生有光泽的、无光泽的、可触觉地感知的表面。 | ||||||
| 25 | 变色多层聚合物纤维以及包含变色多层聚合物纤维的安全制品 | CN200980114915.2 | 2009-03-02 | CN102016140A | 2011-04-13 | 格雷戈里·L·布吕姆; 琼·M·弗兰克尔; 戴维·C·克拉姆利奇; 罗伯特·L·布劳特; 尚德恩·D·哈特; 莱恩·E·洛里默; 帕特里克·R·弗莱明; 威廉·J·科佩基; 布鲁斯·B·威尔逊; 詹姆斯·M·琼泽; 丹尼尔·J·齐利希; 詹姆斯·G·米切尔 |
| 本发明公开了聚合物纤维,所述聚合物纤维由不同聚合物材料的同心交替的层形成。所述层对的横截面厚度经过选择以反射选定可见波长的光。所述芯的横截面尺寸为所述交替的层的所选厚度的平均值的至少10倍。一些由所述纤维形成的制品是通过将一种纤维连接到另一种纤维形成的。所述纤维在所述连接点处的颜色与所述纤维其他地方的颜色不同。可以通过使所述聚合物纤维的所述横截面沿着第一横截面轴线伸长使所述纤维变形,从而改变其颜色性质。在一些实施例中,所述纤维是偏振敏感的。 | ||||||
| 26 | 光子晶体安全装置和方法 | CN200880120612.7 | 2008-10-14 | CN101896363A | 2010-11-24 | R·怀特曼 |
| 提供了一种形成光学可变安全装置的方法。在该方法中,提供一种光子晶体材料,在该材料上执行一过程,该过程导致材料变形从而形成第一区域(A)和第二区域(B),由于该第一区域,由晶体材料所接收的入射光被选择性反射或透射以产生第一光学可变效应,由于该第二区域,所接收的入射光产生一光学效应,该光学效应不同于第一光学可变效应。还公开了具有第一区域和第二区域的相应装置。 | ||||||
| 27 | 用于特定成员的塑料卡 | CN200680002752.5 | 2006-01-05 | CN101128329A | 2008-02-20 | 李赞熙 |
| 本发明在此公开了一种用于特定成员的提供财务往来功能的塑料卡,该塑料卡用贵金属和宝石装饰并具有在其表面上形成的漂亮的三维图案,从而使用户感到精致。通过执行以下的步骤来制造所述塑料卡:对薄的合成树脂片层进行热粘合以形成卡片,将卡片切成多个矩形的成品卡,然后将用于记录信息的磁条附到成品卡上或者将IC芯片嵌入成品卡内而制成所述塑料卡。所述塑料卡包括:结合孔11,形成在所述塑料卡10的表面上;铆钉20,由贵金属制成并被插入到所述结合孔11中,所述铆钉20具有:头20a,通过在铆钉20插入到结合孔11中的状态下挤压铆钉20的下部形成并固定于所述结合孔11;宝石21,稳固地固定到所述铆钉20的上部。 | ||||||
| 28 | 带有网络浏览器的标识卡个人化装置 | CN00817078.9 | 2000-12-15 | CN1277694C | 2006-10-04 | 加里·A·楞次; 加里·M·克莱恩费尔特雷 |
| 本发明针对用来制作标识卡的标识卡个人化装置(10)。标识卡个人化装置(10)包括用来与网络(12)进行连接的网络适配器(27)和硬件(24),所述硬件的形式既可以是打印卡片(30)的打印机构,层压打印的卡片(30)的层压机构,又可以既是打印机构又是层压机构。在本发明的一个方面,标识卡个人化装置(12)包括用来通过网络(12)提供数据的网络服务器(14)。在本发明的另一个方面,标识卡个人化装置(10)包括用网络(12)上订阅数据的网络客户(20)。 | ||||||
| 29 | 嵌块玻璃层压板 | CN99808612.6 | 1999-03-11 | CN1309606A | 2001-08-22 | B·维尔林登; J·P·塔翁; L·韦尔默朗 |
| 公开了一种挠性层压板,其包括作为第一层的挠性载体和作为第二层的具有厚度10μm-500μm的玻璃层,其中第一层或第二层是非连接的、嵌块层。在图的实施方案中,塑料箔1上具有多个薄的、毗连的玻璃板2,其被间隔3分离。层压板可具有功能层,例如使用网纹涂敷法(web coating)或印刷方法提供功能层,然后,可以容易地在嵌块之间的间隔中切割,以得到多个玻璃层压板。 | ||||||
| 30 | 보안문서의 인증을 위하여 라디오파 흡수 표지를 사용하는 방법 | KR1020137028106 | 2012-03-30 | KR1020140034775A | 2014-03-20 | 로메로파네고,후안호세; 가르시아후에즈,빈센트; 페르난데로자노,호세프란시스코; 카모아란다,자비에; 로드리케즈바르베로,미구엘안젤 |
| 본 발명은 적어도 두 가지 타입의 산화물 재료 입자의 조합을 포함하며, 적어도 두 가지 타입의 입자 각각은 다른 크기 및/또는 형태를 가지고, 무기 산화물 재료는 적어도 하나의 전이금속 또는 하나의 란탄족 원소를 가지며, 라디오주파수 파 흡수 특성을 갖는 비활성화되지 않는 보안 조성물의 용도에 관한 것이다. 본 발명은 또한, 이러한 조성물을 통합한 보안 물품, 문서 또는 요소와, 그 검출을 위한 방법 및 시스템에 관한 것이다.
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| 31 | 광결정 보안 장치 및 방법 | KR1020107010738 | 2008-10-14 | KR1020100085979A | 2010-07-29 | 휘트만,로버트 |
| A method of forming an optically variable security device is provided. In the method, a photonic crystal material is provided and a process is performed upon the material which causes deformation of the material so as to form a first region for which incident light received by the crystal material is selectively reflected or transmitted to generate a first optically variable effect, and a second region for which incident light received generates an optical effect, different from the first optically variable effect. Corresponding devices having first and second regions are also disclosed. | ||||||
| 32 | 재활용 및 생분해성 카드를 위한 자연 친화적 시스템, 주변장치 및 프로세스 | KR1020090006839 | 2009-01-29 | KR1020100036912A | 2010-04-08 | 윙클러,마빈 |
| PURPOSE: An eco-friendly system for recyclable and biodegradable cards, a peripheral device, and processes are provided to manufacture the cards including a card body and a magnetic stripe using recyclable and degradable materials. CONSTITUTION: An eco-friendly card(12) comprises: a card body which has a front side and a rear side and is formed using a first material selected from a recyclable material or a biodegradable material; and a designated zone, a domain, or space in which data is stored and which is included on the rear side of the card body using a second material selected from the recyclable material or the biodegradable material. The designated zone, the domain, or the space is a magnetic stripe. | ||||||
| 33 | Layered structure with conductive polymer for recognition of manipulation and process for the production thereof | US14781411 | 2014-03-31 | US09996787B2 | 2018-06-12 | Frank Puttkammer |
| The invention relates to a layered structure (10) comprising the following layers: a) a first substrate layer (2), wherein the first substrate layer (2) has a first surface (4) and a second surface (6) and is configured as a dielectric; b) a first electrically conductive layer (8) which overlaps at least in part the first substrate layer (2) at least on the first surface (4) of the first substrate layer (2), wherein the first electrically conductive layer (8) comprises an electrically conductive polymer, wherein the first electrically conductive layer (8) has at least one first part region (18) and at least one further part region (20), wherein the at least one first part region (18) has a higher bonding strength to the substrate layer (2) than to the at least one further part region (20). | ||||||
| 34 | Security paper, value document obtainable therefrom and method for manufacturing said paper and document | US14361380 | 2012-11-29 | US09827803B2 | 2017-11-28 | Peter Schiffmann |
| A security paper for manufacturing value documents has a planar substrate equipped on one surface with an anti-forgery means based on a carrier foil having an optically variable security feature. The anti-forgery means and a partial substrate area surrounding the anti-forgery means is furnished with a dirt-repellent radiation-curing first lacquer substantially not influencing the perceptibility of the optically variable security feature. The layer thickness of the lacquer lying is in a range of 0.7 to 2 micrometers. The radiation-curing first lacquer is may be a UV-cross-linking lacquer which after cross-linking is high-gloss. The substrate can be furnished on its surface lying outside the anti-forgery means with a dirt-repellent second lacquer and optionally partly overlaps the first lacquer in the region of the partial substrate area surrounding the anti-forgery means. The second lacquer involves either a physically drying, water-based dispersion lacquer, or a UV-cross-linking lacquer, and has a matt impression. | ||||||
| 35 | Optically variable devices, their production and use | US13642476 | 2011-04-21 | US09738105B2 | 2017-08-22 | Charles Douglas MacPherson; Bruce Alfred Hardwick |
| Security documents often incorporate optically variable devices to prevent or hinder counterfeiters. Disclosed herein are layered optically variable devices such as color-shift foils, and methods for their production and use. Such devices afford new techniques for a user of a security document to check quickly and easily whether the security document is a legitimate document or a counterfeit copy. | ||||||
| 36 | Use of luminescent nanosystems for authenticating security documents | US14125938 | 2012-06-14 | US09718298B2 | 2017-08-01 | Manuel Arturo Lopez Quintela; Vicente Garcia Juez |
| The present invention relates to the use of nanosystems as non deactivable security markers comprising metal atomic quantum clusters (AQCs) of at least two different size distributions encapsulated in a cavity with an inner diameter less than or equal to approximately 10 nm. These nanosystems are luminescence, particularly fluorescence after external excitation. The invention also relates to security documents, articles or elements incorporating these markers as well as to a method and a system for detecting the same. | ||||||
| 37 | USE OF RADIOFREQUENCY WAVE ABSORBING MARKETS FOR THE AUTHENTICATION OF SECURITY DOCUMENTS | US15405036 | 2017-01-12 | US20170122881A1 | 2017-05-04 | Vicente Garcia JUEZ; Jose Francisco Fernandez LOZANO; Javier Gamo ARANDA; Miguel Angel Rodriguez BARBERO; Juan Jose Romero FANEGO |
| The present invention relates to the use of non-deactivatable security compositions comprising the combination of at least two types of particles of oxide materials, where said particles have a different size and/or morphology, and where the inorganic oxide materials have at least one transition metal or one lanthanide element, and radiofrequency wave absorption properties. The invention also relates to security articles, documents or elements incorporating these compositions, as well as to a method and to a system for detection thereof. | ||||||
| 38 | Use of radiofrequency wave absorbing markets for the authentication of security documents | US14009293 | 2012-03-30 | US09581557B2 | 2017-02-28 | Vicente Garcia Juez; Jose Francisco Fernandez Lozano; Javier Gamo Aranda; Miguel Angel Rodriguez Barbero; Juan José Romero Fanego |
| The present invention relates to the use of non-deactivatable security compositions comprising the combination of at least two types of particles of oxide materials, where said particles have a different size and/or morphology, and where the inorganic oxide materials have at least one transition metal or one lanthanide element, and radiofrequency wave absorption properties. The invention also relates to security articles, documents or elements incorporating these compositions, as well as to a method and to a system for detection thereof. | ||||||
| 39 | Optically variable devices, their production and use | US13642504 | 2011-04-21 | US09323042B2 | 2016-04-26 | Charles Douglas MacPherson |
| Security documents often incorporate optically variable devices to prevent or hinder counterfeiters. Disclosed herein are layered optically variable devices such as colour-shift foils that employ a piezoelectric layer, and methods for their production and use. Such devices afford new techniques for a user of a security document to check quickly and easily whether the security document is a legitimate document or a counterfeit copy by placing an electrical potential difference across the security document. | ||||||
| 40 | Display and labeled article | US13477739 | 2012-05-22 | US09292988B2 | 2016-03-22 | Manabu Watanabe; Mihoko Nagayoshi; Takashi Uehara; Hideki Ochiai |
| A display includes a first optical effect layer including a first interface part, the first interface part being provided with recesses or protrusions arranged two-dimensionally at the minimum center-to-center distance of 200 nm to 500 nm, each of the recesses or protrusions having a forward-tapered shape, a reflective material layer covering at least a part of the first interface part, and a second optical effect layer including, at a position of a first portion of the first interface part that is covered with the reflective material layer, a portion that faces the reflective material layer with the first optical effect layer interposed therebetween or faces the first optical effect layer with the reflective material layer interposed therebetween, the second optical effect layer containing at least one of a cholesteric liquid crystal, a pearl pigment and a multilayer interference film. | ||||||
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