公开(公告)号：US20110290038A1

公开(公告)日：2011-12-01

申请号：US13063609

申请日：2009-09-02

Applicant: Hiroyuki Hoshino ,  Yuichiro Takai ,  Yoshihiro Kai

Inventor： Hiroyuki Hoshino ,  Yuichiro Takai ,  Yoshihiro Kai

IPC: G01L1/20

CPC classification number: G01L1/20 ,  G01L1/2287 ,  G06F3/041

Abstract: The present invention aims at providing a pressure-sensitive sensor capable of layering a pressure-sensitive layer and electrodes with high productivity, facilitating control of contact between the pressure-sensitive layer and the electrodes by loading, achieving good reproducibility of a resistance value generated by loading between the pressure-sensitive ink layer and the electrodes, and measuring pressure with high accuracy. The pressure-sensitive sensor comprises a pair of electrodes 16a and 16b formed on a substrate film 31, and a pressure-sensitive ink layer 30 juxtaposed to the electrodes on the substrate, the pressure-sensitive ink layer being variable in electrical properties in response to an applied pressing force, wherein a portion of the substrate film 31 having the pressure-sensitive ink layer 30 formed thereon is bent inward to allow the pressure-sensitive ink layer 30 to come into contact with the pair of electrodes 16a and 16b.

Abstract translation: 本发明旨在提供一种能够以高生产率分层压敏层和电极的压敏传感器，通过负载来控制压敏层与电极之间的接触，实现了由 在压敏油墨层和电极之间加载，并且以高精度测量压力。 压敏传感器包括形成在基片31上的一对电极16a和16b以及与基底上的电极并置的压敏墨层30，该压敏墨层响应于 施加的按压力，其中形成有压敏油墨层30的基板膜31的一部分向内弯曲，以使压敏油墨层30与一对电极16a和16b接触。

公开(公告)号：US20110227836A1

公开(公告)日：2011-09-22

申请号：US12725699

申请日：2010-03-17

Applicant: Hao Li ,  Papu Maniar ,  Yi Wei

Inventor： Hao Li ,  Papu Maniar ,  Yi Wei

IPC: G06F3/041 ,  B05D5/12

CPC classification number: G06F3/047 ,  G01L1/20 ,  G01L1/205 ,  G06F3/0414 ,  G06F2203/04103

Abstract: A transparent force sensor for use in touch panel displays (touch screens) and method for fabricating the same are disclosed. The transparent force sensor is capable of detecting touch by measuring local pressure applied by a touch input to a display area of the touch screen.

Abstract translation: 公开了一种用于触摸屏显示器（触摸屏）的透明力传感器及其制造方法。 透明力传感器能够通过测量由触摸输入施加到触摸屏的显示区域的局部压力来检测触摸。

公开(公告)号：US07870796B2

公开(公告)日：2011-01-18

申请号：US12383016

申请日：2009-03-19

Applicant: Hideyuki Hayakawa ,  Kenji Morikawa

Inventor： Hideyuki Hayakawa ,  Kenji Morikawa

IPC: G01L3/00 ,  H01R43/00

CPC classification number: G01L1/20 ,  Y10T29/49117

Abstract: A detection element detects at least compression load. A first member has a surface provided with the detection element. A preload adjusting member is substantially in a column shape and has a tip end configured to apply pressure to the detection element. The first member and the second member are connected with each other and configured to transmit load to the detection element. The second member has a fitted portion, which has an inner circumferential periphery being press-fitted with the preload adjusting member. The second member causes elastic deformation in response to adjustment of press-fitting of the preload adjusting member and causes change in preload applied to the detection element.

Abstract translation: 检测元件至少检测压缩载荷。 第一构件具有设置有检测元件的表面。 预压调节构件基本上为柱状，并且具有构造成向检测元件施加压力的顶端。 第一构件和第二构件彼此连接并且被配置为将负载传送到检测元件。 第二构件具有嵌合部，该嵌合部具有与预压调整构件压配的内周周缘。 第二构件响应于预压调节构件的压配调整而引起弹性变形，并且引起施加到检测元件的预加载变化。

公开(公告)号：US20100095781A1

公开(公告)日：2010-04-22

申请号：US12486549

申请日：2009-06-17

Applicant: Patrick J. Kinlen ,  Huaxiang Yang ,  Dongsik Kim ,  Abhishek K. Singh ,  Brady Pitts

Inventor： Patrick J. Kinlen ,  Huaxiang Yang ,  Dongsik Kim ,  Abhishek K. Singh ,  Brady Pitts

IPC: G01B7/16 ,  B05D5/12

CPC classification number: G01L1/20 ,  Y02B10/30

Abstract: A sensor is provided. The sensor includes a substrate having at least one intrinsically conductive polymer coated on at least a first surface thereof and at least a first and second conductive contact.

Abstract translation: 提供传感器。 传感器包括具有至少一个固有导电聚合物的基底，该至少一个固有导电聚合物涂覆在其至少第一表面上，以及至少一个第一和第二导电接触。

公开(公告)号：US07685696B2

公开(公告)日：2010-03-30

申请号：US10996263

申请日：2004-11-23

Applicant: Heikki Räisänen

Inventor： Heikki Räisänen

IPC: G01R3/00

CPC classification number: G01L1/14 ,  G01L1/146 ,  G01L1/20 ,  Y10T29/49002 ,  Y10T29/49007 ,  Y10T29/49078 ,  Y10T29/49128 ,  Y10T29/49155 ,  Y10T29/49798

Abstract: The invention relates to a method for the manufacture of a sensor element and to a sensor element. In the method, both surfaces of a sensor film are provided with metallic electrodes. The sensor element is produced by cutting it from a larger amount of sensor element material. In the manufacture of the sensor element material, the electrodes are produced as a continuous process from roll to roll and the sensor element material is formed by laminating as a continuous process from roll to roll. At least the signal electrode consists of repeated electrode patterns (41) which are at least partially connected to each other via one or more narrow connecting strips (42), and a sensor element of a desired length and/or shape is produced by cutting the material across the region of the connecting strips.

Abstract translation: 本发明涉及一种用于制造传感器元件和传感器元件的方法。 在该方法中，传感器膜的两个表面设置有金属电极。 传感器元件通过从更大量的传感器元件材料切割而产生。 在传感器元件材料的制造中，电极作为连续工艺从卷到辊制造，并且传感器元件材料通过卷绕成一个连续的方法层压形成。 至少信号电极由经由一个或多个窄连接条（42）至少部分地彼此连接的重复电极图案（41）组成，并且通过切割所需的长度和/或形状来产生所需长度和/或形状的传感器元件 材料穿过连接条的区域。

公开(公告)号：US20100050779A1

公开(公告)日：2010-03-04

申请号：US12201242

申请日：2008-08-29

Applicant: Victor L. Pushparaj ,  Omkaram Nalamasu ,  Manoocher Birang

Inventor： Victor L. Pushparaj ,  Omkaram Nalamasu ,  Manoocher Birang

IPC: G01B7/16 ,  H01L49/00 ,  H01L21/66

CPC classification number: G01L1/20 ,  G01L1/18 ,  G01L5/0076 ,  Y10S977/953 ,  Y10S977/956

Abstract: A robust, stand-alone load cell comprises a block of aligned carbon nanotubes with parallel electrodes on opposing sides of the block and an electrical circuit connected between the electrodes for measuring the electrical resistance of the block. The nanotubes are preferably aligned perpendicular to the electrodes. Carbon nanotube-based load cells may be incorporated into a wafer asssembly for characterizing semiconductor processing equipment. Such a wafer assembly includes two parallel wafers with a plurality of carbon nanotube load cells positioned between and attached to both wafers. The load cells are independently electrically connected to a device which monitors and records the resistivity of the load cell. According to further aspects of the invention, each of the load cell's parallel electrodes may be comprised of many small electrodes, where each small electrode on one side of the block has a corresponding small electrode on the opposing side of the block; corresponding pairs of small electrodes are connected in series to form a chain; an electrical circuit, connected to both ends of the chain of opposing pairs of electrodes, is used to measure the electrical resistance of the chain.

Abstract translation: 坚固的独立测力传感器包括在块的相对侧上具有平行电极的对准碳纳米管块和连接在电极之间的用于测量块的电阻的电路。 纳米管优选垂直于电极取向。 可以将碳纳米管基称重传感器结合到用于表征半导体处理设备的晶片组件中。 这种晶片组件包括两个平行的晶片，其中多个碳纳米管负载单元位于两个晶片之间并附着在两个晶片上。 称重传感器独立地电连接到监测和记录称重传感器的电阻率的装置。 根据本发明的另外的方面，每个负载传感器的平行电极可以由许多小电极组成，其中块的一侧上的每个小电极在块的相对侧具有相应的小电极; 相应的一对小电极串联连接形成链条; 连接到相对电极对的链的两端的电路用于测量链的电阻。

公开(公告)号：US20100005895A1

公开(公告)日：2010-01-14

申请号：US12441002

申请日：2007-09-12

Applicant: Zhigang Lv ,  Mabao Liu ,  Yanjie Qi ,  Wenzhen Zhao ,  Youmin Xi

Inventor： Zhigang Lv ,  Mabao Liu ,  Yanjie Qi ,  Wenzhen Zhao ,  Youmin Xi

IPC: G01L1/22 ,  G01B7/16

CPC classification number: G01B7/18 ,  G01L1/20

Abstract: A smart coat with damage following feature for damage detection information, a detecting device and a damage detecting method using said smart coat, the smart coat could be set on a subject body and comprises a sensing layer, said sensing layer is composed of electrically-conductive material and has a thickness from 10 nanometers to 100 micrometers.

Abstract translation: 一种具有损伤跟踪功能的智能涂层，用于损伤检测信息，检测装置和使用所述智能涂层的损伤检测方法，所述智能涂层可以设置在被检体上并且包括感测层，所述感测层由导电 材料，其厚度为10纳米至100微米。

公开(公告)号：US20090211365A1

公开(公告)日：2009-08-27

申请号：US12378786

申请日：2009-02-19

Applicant: Kenji Morikawa ,  Hideyuki Hayakawa

Inventor： Kenji Morikawa ,  Hideyuki Hayakawa

IPC: G01B7/16 ,  B32B3/08

CPC classification number: G01L1/20 ,  Y10T29/49117 ,  Y10T29/49927

Abstract: A method for manufacturing a load sensor including a load detection element and a support element is provided. The support element includes a base and a spring. The spring includes a support portion, a connection portion bonding to the base, and a connecting member coupling the support portion and the connection portion. The support element transmits a detection load to the load detection element via the base and the spring. The method includes: sandwiching the load detection element between the base and the support portion; bonding the connection portion on the base so that the connecting member is deformed beyond the elastic deformation region to reach the plastic deformation region; pressing the support portion so that a contact surface of the support portion is plastically deformed; and returning deformation of the connecting member to be in the elastic deformation region.

Abstract translation: 提供了一种用于制造包括负载检测元件和支撑元件的负载传感器的方法。 支撑元件包括基座和弹簧。 弹簧包括支撑部分，接合到基座的连接部分和联接支撑部分和连接部分的连接部件。 支撑元件通过基座和弹簧将检测负载传递到负载检测元件。 该方法包括：将负载检测元件夹在基座与支撑部之间; 将连接部分接合在基座上，使得连接构件变形超过弹性变形区域以到达塑性变形区域; 按压支撑部分使得支撑部分的接触表面塑性变形; 并使连接构件的变形返回到弹性变形区域。

公开(公告)号：US20090183579A1

公开(公告)日：2009-07-23

申请号：US12357030

申请日：2009-01-21

Applicant: Tomiya ABE

Inventor： Tomiya ABE

IPC: G01L1/20

CPC classification number: G01L1/20 ,  G01L1/205

Abstract: A cable-type load sensor comprises two conductors arranged in parallel; and an elastic cladding layer with which surroundings of two conductors are covered. Each of two conductors comprises at least one of a nickel chromium system alloy, an iron nickel system alloy, a copper nickel system alloy, and a nickel titanium system alloy.

Abstract translation: 电缆式负载传感器包括并联布置的两个导体; 以及覆盖有两个导体的周围的弹性包覆层。 两个导体中的每一个包括镍铬系合金，铁镍系合金，铜镍系合金和镍钛系合金中的至少一种。

公开(公告)号：US07531203B2

公开(公告)日：2009-05-12

申请号：US11029647

申请日：2005-01-06

Applicant: Xiaoming Tao ,  Sarah Mei-Yi Leung ,  Marcus Chun-Wah Yuen ,  Wing-Yin Kwok ,  Hoi-Lut Ho

Inventor： Xiaoming Tao ,  Sarah Mei-Yi Leung ,  Marcus Chun-Wah Yuen ,  Wing-Yin Kwok ,  Hoi-Lut Ho

IPC: B05D5/12

CPC classification number: B05D5/12 ,  C23C14/12 ,  C23C14/24 ,  D06M11/28 ,  D06M15/61 ,  D06M23/16 ,  G01L1/20 ,  Y10T442/20 ,  Y10T442/2418

Abstract: A method for the production of a conductive flexible textile array. The method includes the application of an oxidizing agent to selected areas of the textile; coating the textile with pyrrole by vapor deposition to form a conductive coated textile having a polypyrrole network; stabilizing the conductive coated textile; and forming the conductive flexible textile arrays as a sensor. With this method of production, the degree of polymerization of the conjugated polymer, the morphology and the rate of the capacitance delay is carefully controlled. As such, stable flexible textile sensors are produced with various levels of sensitivities and conductivities which are particularly useful for designed applications.

Abstract translation: 一种用于生产导电柔性织物阵列的方法。 该方法包括向纺织品的选定区域施加氧化剂; 通过气相沉积用吡咯涂布织物以形成具有聚吡咯网络的导电涂布织物; 稳定导电涂层织物; 以及形成作为传感器的导电柔性织物阵列。 通过这种制备方法，可以认真地控制共轭聚合物的聚合度，电容延迟的形态和速率。 因此，生产出具有各种灵敏度和电导率的稳定的柔性纺织品传感器，其对于设计的应用特别有用。