1 |
触摸面板 |
CN200710097120.8 |
2007-04-17 |
CN101063922A |
2007-10-31 |
梨木智刚; 菅原英男 |
本发明提供一种使用在薄膜基材上设置有导电性薄膜的面板的触摸面板,所述导电性薄膜的耐久性优良,所述触摸面板具有第一面板和第二面板,所述第一面板具有透明的第一薄膜基材和设在该第一薄膜基材的单面的透明的第一导电性薄膜;所述第二面板具有透明的第二薄膜基材和设在该第二薄膜基材的单面的透明的第二导电性薄膜,第一面板和第二面板通过隔离件对置配置以使第一导电性薄膜和第二导电性薄膜对置,其特征在于,第一导电性薄膜的表面硬度为1GPa以上,弹性模量为5GPa以上,第二导电性薄膜的表面的中心线平均粗糙度(Ra)为0.3~1.0nm,并且,第二导电性薄膜的表面的中心线平均粗糙度(Ra)的值比第一导电性薄膜的表面的中心线平均粗糙度(Ra)的值小。 |
2 |
继电器 |
CN201510404080.1 |
2015-07-10 |
CN105261524A |
2016-01-20 |
佐佐木知明; 今井崇文 |
一种继电器包括固定触点、可动接触构件和电磁装置。电磁装置包括线圈架、线圈、可动铁芯、第一电枢、第二电枢和铁磁构件。第一电枢具有第一孔,可动铁芯的第一端部被插入配合到第一孔。第二电枢具有第二孔,可动铁芯的第二端部被插入配合到第二孔。线圈架具有在一对第一侧片的面对表面中的每个上形成的第一肋和在一对第二侧片的面对表面中的每个上形成的第二肋。第一电枢置于一对第一侧片的第一肋之间,并且第二电枢置于一对第二侧片的第二肋之间。 |
3 |
触摸面板 |
CN200710097120.8 |
2007-04-17 |
CN101063922B |
2010-05-26 |
梨木智刚; 菅原英男 |
本发明提供一种使用在薄膜基材上设置有导电性薄膜的面板的触摸面板,所述导电性薄膜的耐久性优良,所述触摸面板具有第一面板和第二面板,所述第一面板具有透明的第一薄膜基材和设在该第一薄膜基材的单面的透明的第一导电性薄膜;所述第二面板具有透明的第二薄膜基材和设在该第二薄膜基材的单面的透明的第二导电性薄膜,第一面板和第二面板通过隔离件对置配置以使第一导电性薄膜和第二导电性薄膜对置,其特征在于,第一导电性薄膜的表面硬度为1GPa以上,弹性模量为5GPa以上,第二导电性薄膜的表面的中心线平均粗糙度(Ra)为0.3~1.0nm,并且,第二导电性薄膜的表面的中心线平均粗糙度(Ra)的值比第一导电性薄膜的表面的中心线平均粗糙度(Ra)的值小。 |
4 |
继电器 |
CN201510404080.1 |
2015-07-10 |
CN105261524B |
2017-09-29 |
佐佐木知明; 今井崇文 |
一种继电器包括固定触点、可动接触构件和电磁装置。电磁装置包括线圈架、线圈、可动铁芯、第一电枢、第二电枢和铁磁构件。第一电枢具有第一孔,可动铁芯的第一端部被插入配合到第一孔。第二电枢具有第二孔,可动铁芯的第二端部被插入配合到第二孔。线圈架具有在一对第一侧片的面对表面中的每个上形成的第一肋和在一对第二侧片的面对表面中的每个上形成的第二肋。第一电枢置于一对第一侧片的第一肋之间,并且第二电枢置于一对第二侧片的第二肋之间。 |
5 |
继电器 |
CN201510363448.4 |
2015-06-26 |
CN105280443A |
2016-01-27 |
李秀正 |
提供一种继电器。根据本发明的一个实施例的继电器包括:壳体;柱体;联接至壳体的固定触点;与固定触点能接触或分离的活动触点;布置在壳体中以产生磁场的线圈组件;在其上部与活动触点联接的活动轴;插入柱体中的固定铁心;固定至活动轴来使活动轴以挤压方式移动的活动铁心;提供弹性力给活动轴的接触弹簧;以及位于固定铁心和活动铁心之间的复位弹簧。活动铁心包括朝向固定铁心延伸并且包围活动轴的圆柱状突起。 |
6 |
Poke-In Electrical Connector |
US14513577 |
2014-10-14 |
US20160104981A1 |
2016-04-14 |
Matthew Edward Mostoller; Edward John Howard; Christopher George Daily |
An electrical connector includes a housing having contact channels with electrical contacts received therein each having a poke-in spring beam configured to engage an electrical wire when poked-in to the housing. The electrical contact is movable between a resting position when no wire is present in the wire channel and a clearance position where the electrical contact allows the electrical wire to be removed from the wire channel. Pivot levers are held by the housing and are coupled to corresponding electrical contacts with a pivot end pivotably coupled to the housing and a push button end having a push button pressed to move the corresponding electrical contact to the clearance position. When the electrical wire is loaded into the wire channel, the electrical contact is positioned in a pinching position in which the spring beam pinches against the electrical wire in physical contact with the electrical wire. |
7 |
Push-button switch-use member and production method therefor |
US10484448 |
2004-01-21 |
US20040168898A1 |
2004-09-02 |
Mikio
Kiyosawa; Takashi
Kawamura |
In a push-button switch member provided with a movable contact composed of a metal member 7 constituting a contact surface to an opposing electrode 4, a number of holes 6 are formed to the contact surface in the height direction thereof, and the holes 6 are filled up with a filler 8 formed of a flexible resin. |
8 |
Touch sensitive navigation surfaces for mobile telecommunication systems |
US09812077 |
2001-03-19 |
US20020132634A1 |
2002-09-19 |
Kari
Hiltunen |
A touch sensitive navigational surface functions as a user interface to a communication device such as a cellular telephone. An electromechanical dielectric (EMD) film coextensive with at least a portion of the surface of the cover of the device selectively functions as a sensor, microphone or speaker. The EMD film is placed behind a display to provide a user interface touch sensitive screen capable of sensing the direction of touching. At least a portion of the EMD film functions as a fingerprint recognition system to provide security means for controlling access and limiting call completion to an authorized user. |
9 |
Touch sensitive navigation surface for mobile telecommunication system |
JP2002070706 |
2002-03-14 |
JP2003023480A |
2003-01-24 |
HILTUNEN KARI |
PROBLEM TO BE SOLVED: To provide a method and related devices for a sensor system, using an electromechanical dielectric(EMD), film having a spread similar to at least a part of the surface of communications equipment.
SOLUTION: The method for arranging the sensor system in the communications equipment has a process of disposing the electromechanical dielectric film integrated with the cover surface of communication equipment, a process which arranges one or a plurality of idle regions in an outer region 1 in an cover for accessing the electromechanical dielectric film and which corresponds to an operational function where the idle region is to be performed and a process connecting the electromechanical dielectric film to the electronic circuit means, associated with the corresponding operating functions of communications equipment in the exposed region.
COPYRIGHT: (C)2003,JPO |
10 |
POKE-IN ELECTRICAL CONNECTOR |
US15629490 |
2017-06-21 |
US20170288347A1 |
2017-10-05 |
David J. Emmons; Travis Read; Steven L. Wolff; Eric Barton; Ladislav Janovec |
An electrical connector includes a housing having contact channels with electrical contacts received therein each having a poke-in spring beam configured to engage an electrical wire when poked-in to the housing. The electrical contact is movable between a resting position when no wire is present in the wire channel and a clearance position where the electrical contact allows the electrical wire to be removed from the wire channel. Pivot levers are held by the housing and are coupled to corresponding electrical contacts with a pivot end pivotably coupled to the housing and a push button end having a push button pressed to move the corresponding electrical contact to the clearance position. When the electrical wire is loaded into the wire channel, the electrical contact is positioned in a pinching position in which the spring beam pinches against the electrical wire in physical contact with the electrical wire. |
11 |
RELAY |
US14796903 |
2015-07-10 |
US20160012993A1 |
2016-01-14 |
Tomoaki SASAKI; Takafumi IMAI |
A relay includes a fixed contact point, a movable contact member and an electromagnetic device. The electromagnetic device includes a bobbin, a coil, a movable iron core, a first armature, a second armature, and a ferromagnetic member. The first armature has a first hole to which a first end portion of the movable iron core is insertion-fitted. The second armature has a second hole to which a second end portion of the movable iron core is insertion-fitted. The bobbin has a first rib formed on each of facing surfaces of a pair of first side pieces and a second rib formed on each of facing surfaces of a pair of second side pieces. The first armature is interposed between the first ribs of the pair of first side pieces and the second armature is interposed between the second ribs of the pair of second side pieces. |
12 |
RELAY |
US14737345 |
2015-06-11 |
US20150380194A1 |
2015-12-31 |
Su Jung LEE |
A relay according to one embodiment of the present invention includes a housing, a cylinder, a fixed contactor coupled to the housing, a movable contactor contactable with or separated from the fixed contactor, a coil assembly disposed in the housing to generate a magnetic field, a movable shaft coupled with the movable contactor at an upper portion thereof, a fixed core inserted into the cylinder, a moving core fixed to the movable shaft to move the movable shaft in a pressing manner, a wipe spring to supply elastic force to the movable shaft, and a return spring located between the fixed core and the moving core. The moving core includes a cylindrical protrusion extending toward the fixed core and surrounding the movable shaft. |
13 |
Touch panel |
US11790129 |
2007-04-24 |
US08182898B2 |
2012-05-22 |
Tomotake Nashiki; Hideo Sugawara |
A touch panel of the invention comprises a first panel having a first film base with transparency and a first transparent conductive thin film provided on one surface of the first film base; and a second panel having a second film base with transparency and a second transparent conductive thin film provided on one surface of the second film base, wherein the first panel and the second panel are arranged so as to face each other with a spacer therebetween, in such a manner that the first conductive thin film and the second conductive thin film face each other, wherein the surface of the first conductive thin film has a hardness of 1 GPa or more and a modulus of elasticity of 5 GPa or more, the surface of the second conductive thin film has a center line average roughness (Ra) of 0.3 nm to 1.0 nm, and that of the center line average roughness (Ra) of the surface of the second conductive thin film is smaller than that of the surface of the first conductive thin film. The touch panel has good durability. |
14 |
Touch panel |
US11790129 |
2007-04-24 |
US20070252825A1 |
2007-11-01 |
Tomotake Nashiki; Hideo Sugawara |
A touch panel of the invention comprises a first panel having a first film base with transparency and a first transparent conductive thin film provided on one surface of the first film base; and a second panel having a second film base with transparency and a second transparent conductive thin film provided on one surface of the second film base, wherein the first panel and the second panel are arranged so as to face each other with a spacer therebetween, in such a manner that the first conductive thin film and the second conductive thin film face each other, wherein the surface of the first conductive thin film has a hardness of 1 GPa or more and a modulus of elasticity of 5 GPa or more, the surface of the second conductive thin film has a center line average roughness (Ra) of 0.3 nm to 1.0 nm, and that of the center line average roughness (Ra) of the surface of the second conductive thin film is smaller than that of the surface of the first conductive thin film. The touch panel has good durability. |
15 |
Push-button switch-use member and production method therefor |
US10484448 |
2002-09-04 |
US06870116B2 |
2005-03-22 |
Mikio Kiyosawa; Takashi Kawamura |
In a push-button switch member provided with a movable contact composed of a metal member constituting a contact surface to contact an opposing electrode, a number of holes are formed in the contact surface in a height direction of the metal member, and the holes are filled with a filler formed of a flexible resin. |
16 |
Poke-in electrical connector |
US14513577 |
2014-10-14 |
US09748708B2 |
2017-08-29 |
Matthew Edward Mostoller; Edward John Howard; Christopher George Daily; David J. Emmons; Travis Read; Steven L. Wolff; Eric Barton |
An electrical connector includes a housing having contact channels with electrical contacts received therein each having a poke-in spring beam configured to engage an electrical wire when poked-in to the housing. The electrical contact is movable between a resting position when no wire is present in the wire channel and a clearance position where the electrical contact allows the electrical wire to be removed from the wire channel. Pivot levers are held by the housing and are coupled to corresponding electrical contacts with a pivot end pivotably coupled to the housing and a push button end having a push button pressed to move the corresponding electrical contact to the clearance position. When the electrical wire is loaded into the wire channel, the electrical contact is positioned in a pinching position in which the spring beam pinches against the electrical wire in physical contact with the electrical wire. |
17 |
Relay |
US14737345 |
2015-06-11 |
US09673010B2 |
2017-06-06 |
Su Jung Lee |
A relay according to one embodiment of the present invention includes a housing, a cylinder, a fixed contactor coupled to the housing, a movable contactor contactable with or separated from the fixed contactor, a coil assembly disposed in the housing to generate a magnetic field, a movable shaft coupled with the movable contactor at an upper portion thereof, a fixed core inserted into the cylinder, a moving core fixed to the movable shaft to move the movable shaft in a pressing manner, a wipe spring to supply elastic force to the movable shaft, and a return spring located between the fixed core and the moving core. The moving core includes a cylindrical protrusion extending toward the fixed core and surrounding the movable shaft. |
18 |
Relay |
US14796903 |
2015-07-10 |
US09418811B2 |
2016-08-16 |
Tomoaki Sasaki; Takafumi Imai |
A relay includes a fixed contact point, a movable contact member and an electromagnetic device. The electromagnetic device includes a bobbin, a coil, a movable iron core, a first armature, a second armature, and a ferromagnetic member. The first armature has a first hole to which a first end portion of the movable iron core is insertion-fitted. The second armature has a second hole to which a second end portion of the movable iron core is insertion-fitted. The bobbin has a first rib formed on each of facing surfaces of a pair of first side pieces and a second rib formed on each of facing surfaces of a pair of second side pieces. The first armature is interposed between the first ribs of the pair of first side pieces and the second armature is interposed between the second ribs of the pair of second side pieces. |
19 |
RFID tag based state monitoring of contactors |
US14722937 |
2015-05-27 |
US09418808B2 |
2016-08-16 |
Andrew James Blackwood; John F. Pflieger |
A motor starter or contactor having a radio frequency identification (RFID) tag incorporated therein for accurate determination of the position of contacts in the motor starter/contactor is disclosed. The motor starter/contactor includes separable contacts comprising a fixed contact structure and a movable contact structure having a closed position and an open position. An electromagnet is also included in the motor starter/contactor that is arranged to translate the movable contact structure between the closed position and the open position. An RFID tag is positioned on or adjacent the separable contacts to indicate the position of the movable contact structure in the motor starter/contactor. |
20 |
RFID TAG BASED STATE MONITORING OF CONTACTORS |
US14722937 |
2015-05-27 |
US20160189898A1 |
2016-06-30 |
Andrew James Blackwood; John F. Pflieger |
A motor starter or contactor having a radio frequency identification (RFID) tag incorporated therein for accurate determination of the position of contacts in the motor starter/contactor is disclosed. The motor starter/contactor includes separable contacts comprising a fixed contact structure and a movable contact structure having a closed position and an open position. An electromagnet is also included in the motor starter/contactor that is arranged to translate the movable contact structure between the closed position and the open position. An RFID tag is positioned on or adjacent the separable contacts to indicate the position of the movable contact structure in the motor starter/contactor. |