| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | TOUCH-SENSITIVE LIGHT GUIDE FILM, AND GLOWING KEYBOARD AND ELECTRICAL DEVICE USING THE SAME | US16030983 | 2018-07-10 | US20180323020A1 | 2018-11-08 | CHUNG-LIN TSAI; JIUN-HAU IE; HAO LU |
| A touch-sensitive light guide film has an emitting layer, a light guiding layer, a flexible transparent layer and a light source. The emitting layer has a first circuit. The light guiding layer located on one side of the emitting layer has a second circuit and a receiving space. The receiving space is concavely or thoroughly disposed on the light guiding layer. The flexible transparent layer disposed between the emitting layer and the light guiding layer, has a through hole and a receiving hole. The through hole is relative in position to the first circuit and the second circuit, and in the through hole, the first circuit and the second circuit may contact when the flexible transparent layer is compressed. The light source is disposed on the emitting layer and penetrating the receiving hole and protruding into the receiving space. | ||||||
| 42 | KEYSWITCH AND KEYBOARD CAPABLE OF SHOWING MOVEMENT DEPTH | US15491990 | 2017-04-20 | US20180137997A1 | 2018-05-17 | Tsung-Fa Wang; Shih-Wei Kuo |
| A keyboard has a keyswitch capable of showing its movement depth. The keyswitch includes a substrate, a lifting unit, a multistage positioning component and a keycap. The lifting unit is disposed on the substrate. The multistage positioning component is disposed on the substrate and has a plurality of first actuating portions. The keycap is connected with the lifting unit and adjacent by the multistage positioning component. The keycap has a second actuating portion. The keycap is moved relative to the substrate via the lifting unit, and the second actuating portion can contact against one of the plurality of first actuating portions to generate a feedback signal. | ||||||
| 43 | Control system | US15351027 | 2016-11-14 | US09905378B1 | 2018-02-27 | Daniel Ray Hammer; Kevin Odith Porter |
| A pushbutton and an electrical switch can be linked to one another so that movement of the pushbutton, for example by a user depressing the pushbutton, can control the switch. The switch can be in a closed position prior to being depressed and in an open position afterwards, or vice versa. A photodetector can be located on the switch side of the pushbutton. The pushbutton can be formed of a material that transmits light so that light can pass through the pushbutton for receipt by the photodetector. The pushbutton can additionally or alternatively be formed with an opening that is sized to receive an object inserted by a user. Insertion of the object can manipulate a second electrical switch, which may control flow of electricity from a battery, for example. | ||||||
| 44 | KEY STRUCTURE | US15157177 | 2016-05-17 | US20170294276A1 | 2017-10-12 | CHIEN-HUNG LIU |
| A key structure includes a pedestal with a sliding groove, an upper cover, a triggering element, and a spring strip. The spring strip is movable within the sliding groove. The triggering element is arranged between the pedestal and the upper cover, and located beside the spring strip. When a keycap of the key structure is depressed, the triggering element is moved relative to the pedestal to push the spring strip. In response to the elasticity of the pushed spring strip, the spring strip is slid within the sliding groove to collide with the upper cover. Consequently, the key structure generates sound surely. | ||||||
| 45 | Telephone keypad with multidirectional keys | US14150030 | 2014-01-08 | US09141201B2 | 2015-09-22 | James Harrison Bowen |
| A telephone keypad for one touch text messaging the QWERTY pattern of keys in a matrix of nine keys. Using the multi position biasing keys only one touch is needed for each character, so in use to input the letter “C” you touch one key one time, decreasing the time spend text messaging from cell phones or desk tops and dialing phone numbers advertised in letters. The keypad also has a shift key to get upper case included in the nine keys, and a 2nd key to double functionality of the keys. | ||||||
| 46 | SYSTEM FOR PROVIDING VEHICLE MANIPULATION DEVICE INFORMATION | US14061191 | 2013-10-23 | US20140368029A1 | 2014-12-18 | Beom Choon Park |
| A system for providing vehicle manipulation device information provides information about a manipulation device such as a switch or a button to a user in advance, before the user manipulates a device mounted on a vehicle, thus improving convenience in manipulation and driving stability. The system includes a proximity sensor installed in a manipulation portion having the manipulation device for manipulating the device mounted on the vehicle to sense an object that approaches the manipulation portion. The system also includes a controller that receives an approach sensing signal from the proximity sensor, and outputs a control signal for displaying manipulation device information of the manipulation portion, and a display unit for displaying the manipulation device information of the manipulation portion. | ||||||
| 47 | Telephone Keypad with Multidirectional Keys | US14150030 | 2014-01-08 | US20140132522A1 | 2014-05-15 | James Harrison Bowen |
| A telephone keypad for one touch text messaging the QWERTY pattern of keys in a matrix of nine keys. Using the multi position biasing keys only one touch is needed for each character, so in use to input the letter “C” you touch one key one time, decreasing the time spend text messaging from cell phones or desk tops and dialing phone numbers advertised in letters. The keypad also has a shift key to get upper case included in the nine keys, and a 2nd key to double functionality of the keys. | ||||||
| 48 | Telephone keypad with multidirectional keys | US13527190 | 2012-06-19 | US08648737B1 | 2014-02-11 | James Harrison Bowen |
| A telephone keypad for one touch text messaging the QWERTY pattern of keys in a matrix of nine keys. Using the multi position biasing keys only one touch is needed for each character, so in use to input the letter “C” you touch one key one time, decreasing the time spend text messaging from cell phones or desk tops and dialing phone numbers advertised in letters. The keypad also has a shift key to get upper case included in the nine keys, and a 2nd key to double functionality of the keys. | ||||||
| 49 | KEYBOARD FOR DYNAMIC DISPLAY AND A SYSTEM COMPRISING THE KEYBOARD | US13638828 | 2011-03-31 | US20130021257A1 | 2013-01-24 | Finn Pedersen; Jesper Glückstad |
| The invention relates to a dynamic display keyboard comprising a plurality of key elements, each key element comprises a transmitting part capable of transmitting at least a part of light incident on the transmitting part; an elastic mat comprising a plurality of elevated elements capable of providing a tactile feedback and providing passage of light through the elevated elements; wherein each key element is fixedly connected to at least one respective elevated element; wherein an elevated element provides the tactile feedback in response to a user action directed against a respective key element fixedly connected to the respective elevated element; wherein the light provided to a transmitting part defines a visual value of the corresponding key element; and wherein the elastic mat is positioned between the display and the plurality of key elements.In this way, the dynamic display keyboard is able to provide a tactile feedback in response to a user action directed towards a key of the keyboard. | ||||||
| 50 | Optical telemetry system and method for electro-mechanical switches | US12482390 | 2009-06-10 | US08288983B2 | 2012-10-16 | Mohamed A. Hasan; Luke D. Titus; Les McLaughlin |
| A system or method of verifying a new contact position of a multi-pole electro-mechanical switch having a plurality of contact positions is disclosed. The switch is caused to move to a new contact position. Power is provided to at least one light transmitter to cause the at least one light transmitter to transmit light toward a light reflective portion. A particular light detector among a plurality of light detectors that has received light from the light reflective portion is identified. The new contact position is verified based on the identification. | ||||||
| 51 | Push-button | US12381864 | 2009-03-17 | US08207805B2 | 2012-06-26 | Jörg Wild; J{hacek over (o)}rg Reisinger; Oliver Höger; Nikolaus Rades |
| The invention relates to a push-button (5) having a housing (10), with which there are associated at least a first actuation member (6) which triggers a haptic control signal and one or more permanent magnet(s) (3) which can be guided past at least a second actuation member (2) which triggers a switching operation, and there is associated with the first actuation member (6), which triggers a haptic response, a control element having a first progressive or degressive control face portion (6.1) and at least a second adjoining control face portion (6.2) which behaves in an inverse manner and along which the actuation member is guided. | ||||||
| 52 | ROTARY SWITCH MECHANISM | US12955687 | 2010-11-29 | US20120055763A1 | 2012-03-08 | Kuan-Nan Chou |
| A rotary switch mechanism includes a hollow cylinder, a base, a push button, a first rotatable member, a second rotatable member, a first switch, a second switch and a third switch. The base is disposed under the hollow cylinder. The first rotatable member is sheathed around the hollow cylinder. The second rotatable member is sheathed around the first rotatable member. The first switch is disposed beside the first rotatable member. The second switch is disposed beside the second rotatable member. The third switch is mounted on a first circuit board, which is disposed under the base. The first rotatable member and the first switch interact with each other to generate a first rotating signal. The second rotatable member and the second switch interact with each other to generate a second rotating signal. The third switch is triggered by the pressing rod to generate a pressing signal. | ||||||
| 53 | CONTROL PANEL FOR A MEASURING DEVICE | US13196238 | 2011-08-02 | US20120032822A1 | 2012-02-09 | Helmut BROCKHAUS |
| A control panel for a measuring device with a housing and a control and inspection window. The control panel includes at least one optical key that is operable through the control and inspection window using a finger. The optical key includes a transmitting element and a receiving element. The control panel is constructed such that it allows reliable and quick control even when the housing is open and the control panel is exposed. Specifically, the control panel has at least one corresponding finger-operable mechanical key in addition to the finger-operable optical key in order to reliably and quickly control the measuring device when a predefined control distance for the optical key is no longer ensured by the control and inspection window of the housing. | ||||||
| 54 | TELEPHONE KEYPAD WITH MULTIDIRECTIONAL KEYS | US13151864 | 2011-06-02 | US20110248925A1 | 2011-10-13 | James Harrison Bowen |
| A telephone keypad for one touch text messaging the QWERTY pattern of keys in a matrix of nine keys. Using the multi position biasing keys only one touch is needed for each character, so in use to input the letter “C” you touch one key one time, decreasing the time spend text messaging from cell phones or desk tops and dialing phone numbers advertised in letters. The keypad also has a shift key to get upper case included in the nine keys, and a 2nd key to double functionality of the keys. | ||||||
| 55 | COMPLEX-OPERATION INPUT DEVICE | US12820808 | 2010-06-22 | US20100321215A1 | 2010-12-23 | Kiyoaki Kato; Takashi Uenomachi; Shingo Ebinuma |
| A complex-operation input device having an operable knob held in a rotatable and slidable manner includes a rotation sensor that detects rotation of the operable knob on the basis of displacement of a second detected portion, and a slide sensor that detects sliding of the operable knob on the basis of displacement of a first detected portion. The direction in which the second detected portion moves with the sliding of the operable knob is substantially orthogonal to a rotation axis about which the operable knob rotates. The slide sensor is disposed such that, when the operable knob is slid, the slide sensor detects the sliding before the rotation sensor detects the displacement of the second detected portion. | ||||||
| 56 | Light-Activated Switch and Circuit for Select-Fire Perforating Guns | US12371432 | 2009-02-13 | US20100208408A1 | 2010-08-19 | Lyle G. Love; Sanford E. Stark; Frank L. Lezu, JR.; John R. Harris; Jason C. Mailand; Brian S. Buffington |
| Apparatus and method are provided for selectively firing apparatus in a well when the apparatus is fired by an electrical voltage and produces light upon firing. A photoresistor or other device changes in an electrical property when the light from firing of a section of the apparatus impinges on the photoresistor or other electronic device. The change in electrical property shifts the state of a relay such that the following section of the device can be fired with a voltage of the opposite polarity to that used in firing the preceding section. A test and resetting apparatus for the select-fire apparatus is also provided. | ||||||
| 57 | METHOD FOR MAKING AN ELECTRONIC SWITCH THAT IS MOUNTABLE ON A CIRCUIT BOARD | US12194046 | 2008-08-19 | US20100043209A1 | 2010-02-25 | Tien-Ming CHOU |
| A method for making an electronic switch mountable on a circuit board includes the steps of: (A) providing a housing that includes a base having opposite inner and outer sides, and a cover body having a main portion that cooperates with the inner side of the base to define a chamber, and an end portion that cooperates with the outer side of the base to define a sealing space; (B) providing a terminal having a connecting part extending through the base and the sealing space for connection with the circuit board; (C) providing the base with a hollow portion that projects outwardly from the outer side thereof into the sealing space and that confines an air-discharge hole communicating fluidly with the chamber; (D) providing a first adhesive layer to seal the sealing space without covering the air-discharge hole; and (E) sealing the air-discharge hole. | ||||||
| 58 | OPTICAL TELEMETRY SYSTEM AND METHOD FOR ELECTRO-MECHANICAL SWITCHES | US12482390 | 2009-06-10 | US20100007520A1 | 2010-01-14 | Mohamed A. Hasan; Luke D. Titus; Les McLaughlin |
| A system or method of verifying a new contact position of a multi-pole electromechanical switch having a plurality of contact positions is disclosed. The switch is caused to move to a new contact position. Power is provided to at least one light transmitter to cause the at least one light transmitter to transmit light toward a light reflective portion. A particular light detector among a plurality of light detectors that has received light from the light reflective portion is identified. The new contact position is verified based on the identification. | ||||||
| 59 | Mounting components to a hardware casing | US11371131 | 2006-03-08 | US07375278B2 | 2008-05-20 | Michael Aaron Kaply; Walter Chun-Won Lee; Jonas Sicking; Lloyd Bernard Stearn, Jr. |
| Methods, systems, and media to mount one or more components to a hardware casing are disclosed. Embodiments include hardware and/or software for determining a pattern of interconnects to apply to an interior surface of the hardware casing. The pattern includes at least one independent path for transmitting a signal between the components. The pattern of interconnects is then applied to the interior surface, the application being configured for the topography of the interior surface to couple the components with the pattern of interconnects. In many embodiments, the components may then be mounted to the casing and interconnected with the interconnects. And, in some embodiments the pattern of interconnects may be coupled with a circuit board having additional components. | ||||||
| 60 | Optical sensor module | US11979744 | 2007-11-07 | US20080111707A1 | 2008-05-15 | Ho Kyoum Kim |
| Provided is an optical sensor module including a printed circuit board (PCB) having a pad with a perforated portion formed in the central portion thereof; a lens disposed on the top surface of the pad so as to cover the perforated portion; one or more light sources disposed around the lens; an image sensor closely attached to the bottom surface of the pad; and a housing mounted to surround the outer periphery of the image sensor, the housing having the same height as that of the image sensor and the same size as that of the pad. | ||||||
QQ群二维码
意见反馈
意见反馈