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 |
|---|---|---|---|---|---|---|
| 81 | Touch panel and manufacturing method thereof | US13969619 | 2013-08-19 | US09466438B2 | 2016-10-11 | Chan-Hao Tseng; Hsien-Jung Li; Cheng-Chung Chiang |
| The present invention provides a touch panel. The touch panel includes first sensing lines extending in a first direction, second sensing lines extending in a second direction and intersecting with the first sensing lines, an insulating pad disposed at each intersection between the first sensing lines and the second sensing lines for isolating the first sensing lines and the second sensing lines. A direction of an external force exerted in the insulating pad is non-perpendicular to the edge of said insulating pad on the same horizontal plane. The present invention also provides a manufacturing method of the touch panel. The design of the insulating pad can disperse the external impact force caused by air knife, washing and so on, and preventing the cut-off of the insulating pad, thereby improving the yield of the touch panel. | ||||||
| 82 | SWITCH | US14466067 | 2014-08-22 | US20150084722A1 | 2015-03-26 | Hiroyuki SUGIYAMA; Yoshiaki OHDA; Masayuki ANDO |
| A switch includes: a second conductor; a second movable electrode provided in a second hermetic space so as to be movable in a first direction in which it parts from the fixed electrode and in a second direction opposite the first direction; an opposed electrode slidably provided in the fixed electrode to face the second movable electrode so as to open from and be in contact with the second movable electrode in an open state and a closed state respectively; a second driver which generates a driving force and moves the second movable electrode in the first direction when performing an opening operation; and a driving force transmitting mechanism which moves the opposed electrode in the second direction by converting a direction of the driving force for moving the second direction opposite the moving direction of the second movable electrode when the second driver generates the driving force for moving the second movable electrode in the first direction. | ||||||
| 83 | PERMANENT MAGNET ASSEMBLY FOR AN ARC DRIVER ASSEMBLY AND SWITCHING DEVICE | US14360945 | 2012-11-28 | US20150048911A1 | 2015-02-19 | Klaus Dauer; Anke Juelich |
| A permanent magnet assembly for an arc driver assembly of an electric switching device, having a permanent magnet and a cover made of electrically insulating material, wherein the cover is connected directly to the permanent magnet. | ||||||
| 84 | TOUCH PANEL AND MANUFACTURING METHOD THEREOF | US13969619 | 2013-08-19 | US20140054149A1 | 2014-02-27 | Chan-Hao Tseng; Hsien-Jung Li; Cheng-Chung Chiang |
| The present invention provides a touch panel. The touch panel includes first sensing lines extending in a first direction, second sensing lines extending in a second direction and intersecting with the first sensing lines, an insulating pad disposed at each intersection between the first sensing lines and the second sensing lines for isolating the first sensing lines and the second sensing lines. A direction of an external force exerted in the insulating pad is non-perpendicular to the edge of said insulating pad on the same horizontal plane. The present invention also provides a manufacturing method of the touch panel. The design of the insulating pad can disperse the external impact force caused by air knife, washing and so on, and preventing the cut-off of the insulating pad, thereby improving the yield of the touch panel. | ||||||
| 85 | CIRCUIT BREAKER | US13929512 | 2013-06-27 | US20140008190A1 | 2014-01-09 | Jae Kwan SEO; Seong Yeol CHO |
| A circuit breaker includes: a housing; a stator accommodated in the housing and connected to a terminal unit; a mover selectively brought into contact with the stator; an opening and closing unit manipulating the mover such that the mover is selectively brought into contact with the stator; and an insulating cover provided in the housing and shielding the mover and the stator from the exterior of the housing, wherein the housing or the insulating cover is made by molding an electrical insulating material. | ||||||
| 86 | TOUCH PANEL AND METHOD OF MANUFACTURING THE SAME | US13930499 | 2013-06-28 | US20140001019A1 | 2014-01-02 | Keun Sik LEE |
| Disclosed are a touch panel and a method of manufacturing the same. The touch panel includes a gas generation layer; a sensing electrode pattern on the gas generation layer; a gas blocking layer between the gas generation layer and the sensing electrode pattern to block a gas generated from the gas generation layer. | ||||||
| 87 | Contactor assembly for switching high power to a circuit | US12620695 | 2009-11-18 | US08232499B2 | 2012-07-31 | Bernard Bush; Marcus Priest |
| A contactor assembly is adapted for switching power to a circuit having a power source. The contactor assembly includes a housing, carry contacts, and arc contacts. The housing defines an interior compartment and includes internal chamber walls that laterally extend within the compartment to define a protection chamber. The carry contacts are disposed in the protection chamber of the housing. The carry contacts include conductive bodies that protrude from the housing and are configured to close the circuit. The arc contacts are disposed in the housing outside of the protection chamber. The arc contacts include conductive bodies that protrude from the housing and are configured to close the circuit. The internal chamber walls of the housing prevent material that is expelled from one or more of the arc contacts when an electric arc emanates from one or more of the arc contacts from contaminating one or more of the carry contacts. | ||||||
| 88 | CONTACTOR ASSEMBLY FOR SWITCHING HIGH POWER TO A CIRCUIT | US12620695 | 2009-11-18 | US20110114602A1 | 2011-05-19 | BERNARD BUSH; MARCUS PRIEST |
| A contactor assembly is adapted for switching power to a circuit having a power source. The contactor assembly includes a housing, carry contacts, and arc contacts. The housing defines an interior compartment and includes internal chamber walls that laterally extend within the compartment to define a protection chamber. The carry contacts are disposed in the protection chamber of the housing. The carry contacts include conductive bodies that protrude from the housing and are configured to close the circuit. The arc contacts are disposed in the housing outside of the protection chamber. The arc contacts include conductive bodies that protrude from the housing and are configured to close the circuit. The internal chamber walls of the housing prevent material that is expelled from one or more of the arc contacts when an electric arc emanates from one or more of the arc contacts from contaminating one or more of the carry contacts | ||||||
| 89 | Encased starting switch contact assembly protected against dust and small particles for a single-phase rotating electric machine and a method of assembling said switch | US11077639 | 2005-03-10 | US07223930B2 | 2007-05-29 | Marcelo De Melo Silva; Valmir Luís Stoinski |
| The present invention refers to a starting switch having a protection against dust and small particles for rotating electric machines and to a method of assembling said switch. The switch according to the present invention provides an easy-to-assembly system for the several components that are part of the switch that does not require massive investments when compared to similar systems known to the state of the art while still providing an easy assembly due to the features of each component in the switch. | ||||||
| 90 | Mechanism and assembly process of a dust/small particles-proof starting switch for rotary electric machines | US11077639 | 2005-03-10 | US20060027449A1 | 2006-02-09 | Marcelo Silva; Valmir Stoinski |
| Invention patent of the mechanism and of the assembly process of a dust /small particles-proof starting switch for rotary electric machines, which aim is to provide an-easy-to-assemble system for the several components aggregated to that mechanism, without huge investment when compared to the remaining systems currently in operation in the market, making this assembly simple due to the particularities of each component herein contained. | ||||||
| 91 | Enclosed electrical contact assembly for dynamoelectric machines | US136306 | 1993-10-13 | US5403982A | 1995-04-04 | Duane R. Nolte; Gary L. Shurter |
| A centrifugal switch assembly for a single phase induction motor connecting a start winding and/or start capacitors in circuit. A centrifugal actuator positions a contact unit on a cantilevered spring arm relative to an aligned fixed contact unit. Each contact unit is identically constructed with a cylindrical steel base and an outer contact button which defines a radial lip. A silicone rubber boot in the form of a tubular member having similar thick end hubs connected by a thin-wall convolution between the hubs to establish a flexible enclosure. The hubs are telescoped respectively over the contact bases with the same interference fit to totally enclose the contact units. The lips of the contact buttons lock the boot to the contact units. The boot length is greater than the spacing of the open contact units and the convolution is continuously deflected to create a closing force. A pressure relief pin hole is formed in a crease at the connection of the convolution and the hub secured to the final contact unit to allow air flow from the enclosed contacts and uninterrupted closure of the switch assembly. | ||||||
| 92 | Push button switch | US3173 | 1993-01-12 | US5326951A | 1994-07-05 | Takahiro Murakami |
| A push button switch comprises a housing having an opening at the top and provided with a fixed contact member at the inner bottom, a stem supported to be vertically movable in and with respect to the housing, and an elastic member being capable of buckling and having one end attached to near a lower end of the stem and the other end attached to near the inner bottom of the housing, the elastic member being positioned in the housing to extend diagonally and urging the stem upward by its own resilient force. A high degree of reliability is ensured with the simple structure and a good click feeling is provided. | ||||||
| 93 | Enclosed electrical contact assembly for dynamoelectric machines | US885126 | 1992-05-18 | US5283405A | 1994-02-01 | Duane R. Nolte; Gary L. Schurter |
| A centrifugal switch assembly for a single phase induction motor connects a start winding and/or start capacitors in circuit. A centrifugal actuator positions a contact unit on a cantilevered spring arm relative to an aligned fixed contact unit. Each contact unit is identically constructed with a cylindrical steel base and an outer contact button which defines a radial lip. A silicone rubber boot in the form of a tubular member having similar thick end hubs connected by a thin-wall convolution between the hubs to establish a flexible enclosure. The hubs are telescoped respectively over the contact bases with the same interference fit to totally enclose the contact units. The lips of the contact buttons lock the boot to the contact units. The boot length is greater than the spacing of the open contact units and the convolution is continuously deflected to create a closing force. A pressure relief pin hole is formed in a crease at the connection of the convolution and the hub secured to the fixed contact unit to allow air flow from the enclosed contacts and uninterrupted closure of the switch assembly. | ||||||
| 94 | Cover integrated leaf switch | US329569 | 1989-03-28 | US4943692A | 1990-07-24 | Muneyoshi Miyata |
| Disclosed is a leaf switch having an integral cover, and including an insulating base (1), two leaf spring elements (3a, 3b) embedded in the base (1), and a cover (2) consisting of two cover halves (2a, 2b) integrally connected to each other through a hinge portion (2c). One of the cover halves (2b) is pivotable about the hinge portion (2c) to a position in which it engages the other cover half (2a), thereby forming the cover (2) which envelops the leaf spring elements (3a, 3b). The base (1) and cover (2) are formed from a plastic material by concurrent integral molding. | ||||||
| 95 | Environmentally protected switch for dynamoelectric machines | US322524 | 1989-03-13 | US4922066A | 1990-05-01 | William D. Crow; Ronald D. Williams |
| A switch assembly for use with a centrifugal actuator in the start winding circuit of a dynamoelectric machine (1). The switch has a pair of electrical contacts (29, 33) contained in a pliable, bellows-like enclosure (37) for protection from foreign matter. The assembly includes a terminal board (19) having an electrically conductive post (28) mounted thereon and comprising one side of the switch. A second contact, comprising the other side of the switch, is directly above the first and is surrounded by an electrically conductive cap (32). The cap is affixed between the ends of an electrically conductive, cantilevered switch arm (16) which is biased against a vertically rigid, horizontally adjustable stop (45). The stop has one end rigidly mounted to the terminal board and its other end above and in contact with the switch arm where the cap is affixed to the arm. The bias is caused by the switch arm support structure at the fixed end being attached to the terminal board at an angle. Moving the end of the stop contacting the arm toward the support structure, decreases the gap between the switch contacts, while moving the end of the stop towards the free end of the switch arm increases the gap. | ||||||
| 96 | Switch assembly | US708295 | 1985-03-08 | US4600819A | 1986-07-15 | Robert H. Twyford |
| A switch assembly particularly suitable for electrical keyboard applications includes a pair of wire conducting members disposed in substantially collinear relationship on a supporting base and defining a pair of switch contact surfaces disposed radially outward from the circumference of the wire conducting members. In one embodiment, surrounding the exterior of the collinearly disposed wire conducting members, and spaced from and in facing relationship with the contact surfaces thereof, lies a cylindrical or tubular contactor member. The contactor member may include a closely-wound electrically conductive wire. The contactor member is supported in spaced apart position by a resilient sealing tube which encloses the end portions, including the contact surfaces, of the wire conducting members. A spring biased actuating force is provided to move the sealing tube and contactor member into engagement with the contact surfaces. The spring force is provided by a rubber-like spring member disposed adjacent to the sealing tube and deformable, or deflectable, laterally into force transmitting engagement with the sealing tube to cause the switch to close. In another embodiment, cylindrical conductive rubber sleeves are fitted upon the wire conducting members and the spring member is likewise formed of conductive rubber. In still another embodiment, the spring member includes a conductive rod that contacts the wire conducting member directly. | ||||||
| 97 | Nozzle switches for fluid delivery systems | US32116163 | 1963-11-04 | US3277254A | 1966-10-04 | RICHARDS WILLIAM D |
| 98 | Rotary electrical switch with recessed contacts and sealing means | US25658063 | 1963-02-06 | US3198895A | 1965-08-03 | RICHMAN SAMUEL L |
| 99 | Contact means for thermostatic control switch | US49246355 | 1955-03-07 | US2813180A | 1957-11-12 | MELVIN HANTACK |
| 100 | Circuit closer | US60369932 | 1932-04-07 | US2040919A | 1936-05-19 | CALDWELL SAMUEL P |
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