| 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 | Switch assembly for an automotive power window | US11348167 | 2006-02-06 | US20070181414A1 | 2007-08-09 | James Belanger |
| A switch assembly for an automotive power window having a housing and an actuator with two spaced-apart ends pivotally mounted to the housing about a transverse axis extending across a central portion of the actuator. The actuator includes a first actuator surface extending between the axis on one end of the actuator and a second actuator surface extending between the axis and the other end of the actuator. The actuator is pivotal in a first direction from a rest position by depression of the first actuator surface and is pivotal in the opposite direction from the rest position and to a second position upon depression of the second actuator surface. The second actuator surface is recessed within the housing in an amount sufficient to prevent actuation of the actuator to its second position by a sphere having a radius greater than or equal to 19 millimeters which approximates the size of a child's knee. | ||||||
| 122 | System for safely opening/closing power window of vehicle | US11299372 | 2005-12-08 | US20070108928A1 | 2007-05-17 | Chul Lee |
| A system for safely opening/closing a power window of a vehicle includes a main opening/closing device provided adjacent to a driver seat so as to open and close a window of a passenger seat. A sub opening/closing device is provided adjacent to a passenger seat so as to open and close a window of a passenger seat. A plurality of main electrodes of the main opening/closing device includes at least one main ground electrode for generating a signal. A main center electrode is electrically connected to a sub opening/closing device and to at least one main ground electrode by a main switch, and is disposed on a portion of a main plate to be prevented from being electrically connected to a main ground electrode when a main switch moves. | ||||||
| 123 | Operation mechanism for electric apparatus | US11491448 | 2006-07-21 | US20070034489A1 | 2007-02-15 | Masao Miyauchi |
| The operation mechanism for electric apparatus is provided. An operation mechanism includes a switch element mounted on a circuit board, an upper housing formed with an opening and covering the circuit board, and an operation grip that has an operation shaft hanging therefrom and which is rotatably supported by the upper housing. When the operation grip is oscillatingly operated, the operation shaft drives actuators of the switch element. | ||||||
| 124 | Power window switch apparatus | US10995375 | 2004-11-24 | US07102092B2 | 2006-09-05 | Koji Hishikawa |
| A power window switch apparatus includes: a switch body; a operating knob pivotally supported by the switch body; a first stopper that is provided to the switch body and restricts a rotation of the operating knob to a first predetermined angle; and a second stopper that is provided to the switch body and restricts the rotation of the operating knob to a second predetermined angle when the first stopper becomes impossible to restrict the rotating of the operating knob. | ||||||
| 125 | Switch device having rubber dome and generating superior click feeling | US11349579 | 2006-02-08 | US07084359B1 | 2006-08-01 | Satoru Konno |
| A switch device is provided with a first rubber dome for small application force, a second rubber dome for heavy application force, and an operation body. The rubber domes are integrally formed with a plate shaped base, and adjacent to each other. Lower ends of the operation body is disposed on the top surface of the first and second rubber domes. The operation body is movably supported in a vertical direction. The base around the second rubber dome is formed with a smaller thickness than the base around the first rubber dome. A preventing part is provided so as to prevent the base of the first rubber dome from deforming. The thick base around the second rubber dome for and the preventing part are disposed around an outer periphery of the base of the first rubber dome. | ||||||
| 126 | Switch device | US11273536 | 2005-11-09 | US20060102453A1 | 2006-05-18 | Masao Miyauchi |
| A switch device includes an operation knob rotatably supported by a case, and switch mechanisms which can convert a switch circuit (not shown) disposed inside the case by performing a rocking operation on the operation knob. A cam member having a cam face which can deliver click feelings to the operation knob is disposed in the case. The switch circuit is converted in conjunction with the rocking operation of the operation knob, and click feelings are created so as to be delivered to the operation knob. | ||||||
| 127 | Method to control electric windows of automobiles by an activating button with two wires | US10887150 | 2004-07-08 | US20060006823A1 | 2006-01-12 | Marcos Ferretti |
| A method to control electric windows for automobiles by means of an activating button with only two wires, where the electronic control module can enable/disable the activating button and interpret whether it has been pressed in the upward or downward direction of the automobile's window. | ||||||
| 128 | Switch device | US10652784 | 2003-08-29 | US06969812B2 | 2005-11-29 | Keiichi Shimizu; Yasuhide Tanaka |
| A switch device for rotating and stopping a DC motor includes a first switch element having two moving contacts, two normally open NO contacts and two normally closed NC contacts, a second switch element having one or two normally closed NC contacts, and an operating element. The operating element serves to connect the two moving contacts individually to input terminals of the DC motor, the two NO contacts to a voltage source line at a higher voltage, and each of the two NC contacts of the first switch element to another voltage source line at a lower voltage such as the ground potential, each through the NC contact, or one of the two NC contacts, of the second switch element. The NC contact of the second switch element is maintained in an open condition during a period from when either one of the NO contacts begins to change from a closed condition to an open condition until the corresponding NC contact of the first switch element finishes changing from an open condition to a closed condition. | ||||||
| 129 | Two-step switch device | US10811289 | 2004-03-25 | US06914202B2 | 2005-07-05 | Satoshi Sugimoto; Makoto Kobayashi |
| A switch device having a reduced number of components while reducing the difference between the forces required to operate switches in different directions. The switch device includes a first switch, a second switch, a button, and a pusher. Inclination of the button in the first direction to a first operation position solely activates the first switch. Further inclination of the button in the first direction to a second operation position activates the second switch in addition to the first switch. Inclination of the button in the second direction to a third operation position solely activates the second switch. Further inclination of the button in the second direction to a fourth operation position activates the first switch in addition to the second switch. | ||||||
| 130 | Illuminated switch element | US10297793 | 2001-06-08 | US06875938B2 | 2005-04-05 | Marc Schmiz; Paul Schockmel; Aloyse Schoos |
| A foil style switching element includes a first carrier foil and a second carrier foil arranged at a certain distance from one another and a plurality of contact arrangement arranged between the first and the second carrier foils. The contact arrangements are arranged on the first and second carrier foils so that an electric contact between the contact arrangements is generated when the first and the second carrier foil are pressed together. A foil style luminescent screen unit applied on a side of the first carrier foil facing away from the second carrier foil, the luminescent screen unit includes a first electrode layer, a dielectric layer, a luminescent matter layer and a second electrode layer. The first electrode layer of the foil style luminescent screen unit is applied directly on the first carrier foil which faces away from the second carrier foil. | ||||||
| 131 | Multi-directional switch | US10897322 | 2004-07-22 | US20050040018A1 | 2005-02-24 | Kazunori Gotoh |
| A multi-directional switch contains a bearing 4, an operating shaft 3 supported rockably by the bearing 4, and a cam 15c for giving a required feeling of operation to a rocking operation of the operating shaft 3. In the cam 15c, a spherical surface-shaped bottom portion 41 for holeing the operating shaft 3 in a non-operation position, first inclined surfaces 42, 43, 44 and 45 formed in a radial shape at an outer circumference of the bottom portion 41, and second inclined surfaces 46, 47, 48 and 49 formed in a radial shape at an outer circumference of the first inclined surfaces, are formed, and at the boundaries between the first inclined surfaces and the second inclined surfaces, swelled step portions 50, 51, 52 and 53 are formed, respectively. | ||||||
| 132 | Switch device | US10458975 | 2003-06-10 | US06838630B2 | 2005-01-04 | Makoto Sasaki |
| Drivers which are resiliently biased to leaf members bring portions to be pushed and slide operating portions thereof into resilient contact with pressing projections of a manipulating knob and conductive plates respectively and hence, when the portions to be pushed are pushed by the manipulating knob, the slide operating portions slide on the conductive plates. Further, contact positions between the slide operating portions and the conductive plates in a non-loaded state in which the manipulating knob is not present is set by preliminarily considering that the drivers are slightly rotated when the manipulating knob is mounted in a preloaded state. Accordingly, the portions to be pushed are slightly elevated when they are pushed by the manipulating knob. | ||||||
| 133 | Two-step switch device | US10811289 | 2004-03-25 | US20040188235A1 | 2004-09-30 | Satoshi Sugimoto; Makoto Kobayashi |
| A switch device having a reduced number of components while reducing the difference between the forces required to operate switches in different directions. The switch device includes a first switch, a second switch, a button, and a pusher. Inclination of the button in the first direction to a first operation position solely activates the first switch. Further inclination of the button in the first direction to a second operation position activates the second switch in addition to the first switch. Inclination of the button in the second direction to a third operation position solely activates the second switch. Further inclination of the button in the second direction to a fourth operation position activates the first switch in addition to the second switch. | ||||||
| 134 | Switch device | US10691437 | 2003-10-08 | US06774329B2 | 2004-08-10 | Keiichi Shimizu; Yasuhide Tanaka; Tetsuhiko Miyoshi |
| A switch unit is provided which is free from causing contact damage even in case applied to a high power voltage, whose switch unit is not greatly increased in size. Switches A and B are to take a motor stop status, a motor forward rotation status and a motor reverse rotation status. A switch C is to electrically connecting and disconnecting between the switches A and B and the power source. This switch C, when the switches A and B transits from the motor forward rotation status or motor reverse rotation status into the motor stop status, is operated from a connection state to a disconnection state at a time of any of completing the transition to the motor stop status and prior to a predetermined marginal period of time. | ||||||
| 135 | Oscillating switch | US09987634 | 2001-11-15 | US06756556B2 | 2004-06-29 | Minoru Kubota; Yasuyoshi Serizawa |
| An oscillating switch includes: a lower casing; a contact circuit member provided on the lower casing and including a through hole; a rubber switch member provided on the contact circuit member and including a pair of rubber contact portions and a through hole; an upper casing for covering the rubber switch member; an operating knob pivotally supported by the upper casing; pressing portions formed on the operating knob so as to depress the corresponding rubber contact portions, respectively; and a click feeling-producing mechanism, for producing a suitable click feeling when the operating knob is operated, which passing through the through holes of the contact circuit member and the rubber switch member. | ||||||
| 136 | Two-stage movement seesaw switch apparatus | US10680517 | 2003-10-07 | US06750406B2 | 2004-06-15 | Shinji Komatsu; Ruriko Yusa |
| A seesaw switch apparatus includes a manipulation knob which is tiltably supported, an operation plate which has an approximately L-shape in a plan view and is pushed and driven by the manipulation knob by way of a driver, first and second push switches which support both ends of the operation plate, and a third push switch which supports a bend of the operation plate. The driver is brought into contact with a portion of the operation plate closer to the first push switch than the third push switch, and the driver is brought into contact with a portion of the operation plate closer to the second push switch than the third push switch. The operation plate sequentially operates the first and third push switches in response to a descending amount of the driver and also sequentially operates the second and third push switches in response to a descending amount of the driver. | ||||||
| 137 | Illuminated switch element | US10297793 | 2002-12-09 | US20040108193A1 | 2004-06-10 | Marc Schmiz; Paul Schockmel; Aloyse Schoos |
| The invention relates to a switch element in the form of a film, comprising a first film carrier and a second film carrier which are placed a certain distance apart. At least one film-like luminescent screen is applied to the side of the first film carrier which faces the second film carrier. | ||||||
| 138 | Switch assembly for operating a device in different operational modes | US10389406 | 2003-03-14 | US06737592B1 | 2004-05-18 | Andy Anh Hoang; John Mathew; Jeffrey C. Pflug; Robert Kosberg |
| A switch assembly (20) comprising of a base portion (22), a flexible pad (24), a paddle (26), and at least one button (28). The flexible pad (24) has a first dome (44) and a second dome (46). The paddle (26) is slidably attached to the base portion (22) and has a first end portion (64) and a second end portion (66). The first end portion (64) of the paddle (26) is positioned adjacent to the first dome (44) of the flexible pad (24). The second end portion (66) of the paddle (26) is positioned adjacent to the second dome (46) of the flexible pad (24). The button (28) is slidably attached to the base portion (22) and is capable of contacting the paddle (26). The first dome (44) of the flexible pad (24) is capable of collapsing when a user applies a first force (FA) to the button (28). The second dome (46) of the flexible pad (24) is capable of collapsing when the user applies a second force (FB) to the button (28), the second force (FB) being greater in value than the first force (FA). The switch assembly (20) may further include a white light emitting diode (80) for providing a colored light for the switch assembly (20) through the use of the flexible pad (24). | ||||||
| 139 | TWO-STAGE MOVEMENT SEESAW SWITCH APPARATUS | US10680517 | 2003-10-07 | US20040074747A1 | 2004-04-22 | Shinji Komatsu; Ruriko Yusa |
| A seesaw switch apparatus includes a manipulation knob which is tiltably supported, an operation plate which has an approximately L-shape in a plan view and is pushed and driven by the manipulation knob by way of a driver, first and second push switches which support both ends of the operation plate, and a third push switch which supports a bend of the operation plate. The driver is brought into contact with a portion of the operation plate closer to the first push switch than the third push switch, and the driver is brought into contact with a portion of the operation plate closer to the second push switch than the third push switch. The operation plate sequentially operates the first and third push switches in response to a descending amount of the driver and also sequentially operates the second and third push switches in response to a descending amount of the driver. | ||||||
| 140 | Switching device | US10436355 | 2003-05-12 | US20040011636A1 | 2004-01-22 | Makoto Sasaki; Kenji Sawada |
| A switching device includes three stationery contacts fixed to a casing and exposed on a bottom wall of casing, a conductive plate swingable about the central contact as a fulcrum and coming into contact with or detached from one of the other contacts, a drive body disposed on the conductive plate so as to be movable upwards and downwards and turnable about a shaft thereof, and a leaf spring elastically urging the shaft towards the bottom wall. The drive body has a pressing actuator protruding sidewards from the casing. When the pressing actuator is pressed by an operating knob so as to turn the drive body by a predetermined amount, a sliding actuator of the drive body slides on the conductive plate so as to turn the conductive plate. When the drive body is turned by another predetermined amount, the pressing actuator actuates a push-switch disposed near the casing. | ||||||
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