子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 121 | TOUCH WINDOW AND MANUFACTURING METHOD THEREOF | US13906896 | 2013-05-31 | US20130319835A1 | 2013-12-05 | Sung Jung CHO |
| Disclosed is a touch window. The touch window includes a cover window including an active area and an unactive area; a sensing electrode part on the active area; a wiring electrode part formed on the unactive area and connected to the sensing electrode part; an insulation film on one end of the wiring electrode part; a flexible printed circuit board spaced apart from the insulation film and formed on an opposite end of the wiring electrode part; and a protective layer on the wiring electrode part placed on a space region between the insulation film and the flexible printed circuit board. | ||||||
| 122 | Touch Panel And Manufacturing Method Thereof | US13894447 | 2013-05-15 | US20130306452A1 | 2013-11-21 | Yanjun Xie; Yau-Chen Jiang; Bin Lai; Enshi Shi; Hua Ding; Silu Yu |
| The present disclosure relates to a touch panel and a manufacturing method thereof, and more particularly, relates to a touch panel having a shielding layer. A manufacturing method of the touch panel provided in the present disclosure comprises of the steps of forming a plurality of first conductive axes and a plurality of second conductive units on a substrate; covering the first conductive axes and the second conductive units with an insulating layer and exposing at least a partial set of second conductive units; and forming a plurality of bridging structures and a shielding layer on the insulating layer simultaneously, wherein the bridging structures electrically connect to the second conductive units. The proposed method allows the shielding layer to be formed during the formation of the bridging structures, thereby eliminating the step of forming the shielding layer separately through an independent process, which saves costs and time. | ||||||
| 123 | TOUCH PANEL | US13771152 | 2013-02-20 | US20130264179A1 | 2013-10-10 | HIROSHI RYONAI; SEIICHI MINAMI |
| A touch panel includes an upper substrate having insulating property, an upper conductive layer on a lower surface of the upper substrate, an intermediate layer on a lower surface of the upper conductive layer, an upper electrode on a lower surface of the intermediate layer, a lower conductive layer facing the upper conductive layer with a predetermined gap interposed between the conductive layers, a lower electrode on an upper surface of the lower conductive layer, and a lower substrate on a lower surface of the lower conductive layer and having insulating property. The upper and lower electrodes contain 70 wt. % to 98 wt. % of conductive metal. The intermediate layer contains a resin and 40 wt. % to 90 wt. % of carbon and has a thickness ranging from 1 μm to 50 μm. The touch panel has resistance to environment and is applicable to a large size. | ||||||
| 124 | Electrical switch with a tactile effect and a dual action | US13040581 | 2011-03-04 | US08546708B2 | 2013-10-01 | Thierry Burnel; Laurent Kubat |
| A switch including a triggering member that is adapted to come to bear on two peripheral fixed contacts to make a first switchpath and that is deformable to make an electrical connection between these two fixed contacts and a central fixed contact to make a second switchpath consecutively to making the first switchpath. The triggering member may occupy an initial high rest position and a final low switching position toward which it is moved by an actuating member against a return force exerted by a spring that is disposed between the support for the contacts and the triggering member. | ||||||
| 125 | TOUCH PANEL | US13498539 | 2010-09-28 | US20120244348A1 | 2012-09-27 | Min Soo Park; Se Woo Yang; Woo Ha Kim; Yoon Tae Hwang; Suk Ky Chang |
| The present invention relates to a touch panel. The present touch panel has a shape that comprises a plastic substrate film and a pressure sensitive adhesive layer attached to said substrate film. Here, a phenomenon of penetrating oxygen, moisture or other foreign materials into an interface between said substrate film and said pressure sensitive adhesive layer is prevented, and decrease of optical properties by bubble generation due to the out-gassing phenomenon in the plastic substrate film is prevented. In addition, even if the pressure sensitive adhesive layer is directly attached to the conductive thin film, and it is exposed to a severe condition such as high temperature or high temperature and high humidity condition as such a state, change of resistance in the conductive thin film is effectively inhibited. Therefore, the present touch panel may be stably driven for a long time. | ||||||
| 126 | Hermetically sealed relay | US11933493 | 2007-11-01 | US07868720B2 | 2011-01-11 | Bernard Victor Bush; Naveen Samuel Jesuraj |
| A hermetically sealed relay is provided having two circuits therein. | ||||||
| 127 | HERMETICALLY SEALED RELAY | US11933493 | 2007-11-01 | US20090114622A1 | 2009-05-07 | Bernard Victor Bush; Naveen Samuel Jesuraj |
| A hermetically sealed relay is provided having two circuits therein. | ||||||
| 128 | Dust proof electrical switch | US972984 | 1992-11-10 | US5285035A | 1994-02-08 | Ronald D. Williams; William D. Crow |
| A dust proof electric switch is provided for use in a dynamoelectric machine employing a centrifugal acuator having a terminal board with a cup formed therein in which a fixed contact point and terminal are mounted. A pivotable switch arm having a contact point attached thereto is mounted to the arm and extends above and cantilevered across the terminal board so that pressure on the switch arm from the centrifugal acuator causes the contact points to touch thereby closing the circuit. An open ended, resilient, flexible boot is affixed to the cup and extends upward between the terminal board to snuggly abut the switch arm and completely enclose the contact points when they are touching and when they are apart thereby protecting the contact area from dust and debris as well as containing sparks within the boot. The terminal board contains stops which serve to maintain alignment of the switch arm. | ||||||
| 129 | Direct current switching apparatus | US435228 | 1989-11-13 | US5004874A | 1991-04-02 | Peter J. Theisen; Daniel A. Wycklendt; Mark A. Juds; Peter K. Moldovan |
| Direct current switching apparatus having two arc extinguishing chambers each comprising a pair of spaced conductors providing cooperable arc runners divergent toward a row of non-ferromagnetic splitter plates and a stationary contact conductively mounted on one conductor, the stationary contacts of respective chambers being mounted on respectively opposite conductors, corresponding conductors in respective chambers being conductively connected to each other and to power terminals of the apparatus, permanent magnets applying a magnetic field across the respective chamber for moving an arc within the chamber, ferromagnetic plates providing flux return paths to optimize and maximize the magnetic field, a movable contact extending into each chamber bridging the stationary contacts and movable to separate from the stationary contacts, drawing an arc therebetween in each chamber, the arc in one chamber bridging the pair of conductors within that chamber establishing a circuit comprising the arc between the conductors and the power terminals in shunt of the movable contact, thereby eliminating the arc in the other chamber, the bridging arc being extinguished in the splitter plates, interrupting the circuit. The magnetic fields are applied in opposite directions in the respective chambers for non-polarized operability of the apparatus and are distorted within the splitter plate area to drive and maintain an arc at a stable arc position against a thickened sidewall portion to withstand erosion. | ||||||
| 130 | Electromagnetically operated switch | US440186 | 1989-11-22 | US4983941A | 1991-01-08 | Toshinori Tanaka |
| An electromagnetically operated switch comprises a cylindrical bobbin having an exciting coil wound thereon; a fixed core arranged in the bobbin and a movable core arranged to confront the fixed core; a flange provided on the fixed core to expand outwardly in the radial direction and located on an end surface of the bobbin; a rod inserted in a through bore formed in the center of the fixed core; a flexible insulating sheet put on the end surface of the flange of the fixed core, having an opening in a central portion, and connected sealingly to the rod which extends through the opening; a cup-shaped cap mounted on the flange end surface to sandwich the sheet between the flange and the cap; and a movable contact supported by the rod in the cap. | ||||||
| 131 | Bi-stable switch with pivoted armature | US877081 | 1986-06-23 | US4668928A | 1987-05-26 | Brent M. Davis; Frederick J. Beckett; Raymond A. Zandonatti |
| A switch device comprises a support member having at least first and second stationary contacts thereon. An armature is mounted on the support member by means of a body of elastomeric material that is attached to both the support member and the armature. Deformation of the body of elastomeric material allows the armature to pivot relative to the support member between a first position in which electrically-conductive material of the armature establishes electrically conductive connection between the stationary contacts and a second position in which the armature is spaced from at least one of the contacts. At least one permanent magnet is carried by the armature. An electrically-driven switch actuator is mounted stationarily relative to the support member and has first and second energization states. In the first energization state, magnetic material of the switch actuator is in magnetically-coupled relationship with the permanent magnet and a force is produced that causes the armature to assume a selected one of its first and second positions. In the second energization state, a force is produced that causes the armature to assume the other of its first and second positions. | ||||||
| 132 | Switch blade cover | US414966 | 1982-09-07 | US4453060A | 1984-06-05 | Syng N. Kim |
| A covered leaf switch assembly includes a switch body having resilient switch blades. A molded plastic cover includes an elongated sheath for receiving the blades therein and a coupling portion for interfitting with the switch body. In one embodiment the coupling portion has a pair of arms with fingers and ribs receivable in complementary grooves and notches on the switch body. In another embodiment the coupling portion includes a jacket frictionally receiving the switch body therein. | ||||||
| 133 | Leaf switch cover | US449200 | 1982-12-13 | US4453058A | 1984-06-05 | Muneyoshi Miyata |
| A cover for a leaf switch comprises a cover body having defining a space which receives contact elements of the leaf switch. The cover body engages with a movable contact element to allow the leaf switch to be actuated as a result of movement of the cover body and receives a fixed contact element. The fixed contact element is kept still when the movable contact element is moved together with the cover body. The arrangement described had been found to be effective in preventing or reducing contamination of the contact elements of the leaf switch by dust. | ||||||
| 134 | Extended life electrical contact means | US44680765 | 1965-04-09 | US3284586A | 1966-11-08 | GOVER MARCIUS N |
| 135 | Switch | US77365958 | 1958-11-13 | US3019313A | 1962-01-30 | STITES LOREN H |
| 136 | Thermostat | US17075650 | 1950-06-28 | US2683789A | 1954-07-13 | RAY WILLIAM A; BUESCHER WILBERT C |
| 137 | Circuit interrupter | US42219941 | 1941-12-09 | US2343376A | 1944-03-07 | JULIUS HORST |
| 138 | Thermostat | US18538838 | 1938-01-17 | US2279305A | 1942-04-14 | FORREST DRAKE GEORGE |
| 139 | Dust excluding device | US32000540 | 1940-02-21 | US2251056A | 1941-07-29 | IRWIN JAMES R |
| 140 | Control apparatus | US10612836 | 1936-10-17 | US2197379A | 1940-04-16 | HARRISON THOMAS R |
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