| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 201 | Electric-circuit-containing box | US11252059 | 2005-10-17 | US20060087500A1 | 2006-04-27 | Keiichi Shimizu; Hideyo Kakuno |
| In an electric-circuit-containing box including an upper case having a side provided with a hole and a lower case having a side provided with a projection to be fitted in the hole, moisture is prevented from entering the box from the hole of the upper case by a capillary phenomenon. A recess separate from an inside surface of an upper case is provided around a projection of a side of a lower case. Thus, a specified interval is ensured between the periphery of the projection of the side of the lower case and the hole of the upper case. Accordingly, even if moisture attached to an upper part of the upper case flows to the vicinity of the hole 1b along an outside surface of the upper case, there does not occur a state that the moisture passes through between both the cases from the hole by the capillary phenomenon and enters inner spaces of both the cases and in which a board and electronic parts are contained. | ||||||
| 202 | Swinging switch device | US11122250 | 2005-05-05 | US20050247551A1 | 2005-11-10 | Koji Tsunoda |
| On a switch cover attached to a switch body incorporating a switching mechanism and a regulating mechanism from above, an opening is provided to expose a part of an operation knob and to allow the operation knob to be swung. A through hole is provided on the switch body so as to vertically penetrate through the same in a position of the switch body in communication with the opening. Thus, fine sand that has entered through the opening can be discharged to the outside. | ||||||
| 203 | LAYERED SWITCH ASSEMBLY | US10836795 | 2004-04-30 | US20050241930A1 | 2005-11-03 | Robin Stevenson |
| A layered switch assembly permits more than one electric circuit function to be obtained from each of a set of switches used to control electric circuit functions such as the operation or adjustment of seats, mirrors or other components in an automotive vehicle passenger compartment. A group of switches for operator control is embedded in an armrest, console, or the like. Overlying the discrete switches are two or more flexible sheet or membrane layers for selective activation of one or more of the switches. Illuminated indicia on each switch activation layer identify the underlying switch operation. The uppermost layer controls the electrical switch function unless that layer has been moved aside to expose the next lower switch function activation layer. | ||||||
| 204 | Dial-down switching system and method | US10364985 | 2003-02-12 | US06903288B2 | 2005-06-07 | Dennis Varga |
| A window switch for a motor vehicle includes a first switch and a second switch. The first switch is position within a vehicle for selecting a window. The second switch is positioned adjacent to the first switch. A rotary motion of the second switch raises or lowers the selected window in discrete increments. A method of controlling the translation of multiple windows within a motor vehicle includes selecting one or more of a passenger or a driver side windows by activating one or more window keys and simultaneously raising or lowering one or more of the selected windows in discrete increments by activating a multifunction switch. | ||||||
| 205 | Power window switch apparatus | US10995375 | 2004-11-24 | US20050109600A1 | 2005-05-26 | 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. | ||||||
| 206 | Multi-directional switch | US10897322 | 2004-07-22 | US06884948B2 | 2005-04-26 | 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 holding 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. | ||||||
| 207 | Control device | US10932919 | 2004-09-02 | US20050057203A1 | 2005-03-17 | Keiichi Shimizu; Yasuhide Tanaka; Hideyo Kakuno |
| There is provided a control device for driving a movable member such as a power window of a vehicle under control, in which the action of the movable member (including the manual operation) at an action velocity corresponding to the intention of the user is achieved by operating only a operating knob for issuing a command relating to the action of the movable member. The control device includes a detecting unit which can generate an output value varying in accordance with the action of the operating knob, and a control unit for determining the operating velocity of the operating knob based on the output value, deciding the action velocity according to the determined operating velocity, and driving the motor under control so that the movable member moves at the decided action velocity. | ||||||
| 208 | Multiple switch device | US09739686 | 2000-12-20 | US06833517B2 | 2004-12-21 | Tsuyoshi Sotome; Osamu Furukawa; Hiroshi Seki; Hideo Hirai |
| A low cost automotive power window switch having few window operating switches uses a single switch to select which of the four windows to operate, and to control the window locks. The power window switch has a window operating switch 3 for raising and lowering each of the car windows, and a mode selector switch 2 for switching between the windows. The mode selector switch 2 also has a window lock switch function for locking and unlocking the windows. | ||||||
| 209 | Multiple way switch assembly and switch module | US10774776 | 2004-02-09 | US06787716B1 | 2004-09-07 | Edgar Menche |
| A multiple position switch assembly includes two or more switch modules. The switch modules are each suited as an individual switch module for use in a two-way switch assembly. Two switch modules of like kind but complementary to one another may be combined with one another such that the two combined switch modules form a four-way switch assembly. Each switch module includes control elements pivotally or movably connected to a base. Each of the control elements is associated with a switching element. In the four-way switch assembly, the control elements are arranged in an antiparallel arrangement and each can be alternately actuated by a common actuator. Upon being actuated, the control elements pivot or move to actuate the corresponding switching element. The actuator is movable along four actuating directions oriented in a cross-shaped manner with regard to one another. | ||||||
| 210 | Switch apparatus | US10688809 | 2003-10-16 | US20040124794A1 | 2004-07-01 | Keiichi Shimizu; Yasuhide Tanaka; Kiyotaka Yamaguchi |
| A switch apparatus of the invention can avoid contact damage without inviting a drastic increase in a size even when applied to a high power source voltage and does not deteriorate return feeling to a neutral state. The switch apparatus includes a switch A for cutting off connection between one side driving input of a DC motor and a negative plate side power source, a switch B for cutting off connection between the other side driving input and the negative plate side power source, and a switch C for cutting off connection between the one side driving input and the positive plate side power source and connection between the other side driving input and the positive plate side power source, wherein the switch A and the switch B are normally-closed type switches and the switch C is a normally-open type switch. The switch C is opened at a predetermined time before the switch A or the switch B is closed, and cuts off in advance a power source route to avoid the occurrence of dead short-circuit. When the switch C has a slide type structure, switch feeling of contacts of the switch C can be improved. | ||||||
| 211 | Switch device | US10652784 | 2003-08-29 | US20040045801A1 | 2004-03-11 | 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. | ||||||
| 212 | Rocker switch for one two-stage actuating stroke | US10088956 | 2002-03-22 | US06693246B1 | 2004-02-17 | Gerd Rudolph; Holger Besier |
| A rocker switch for one two-stage actuating stroke, especially in the form of a window control switch for a motor vehicle. The rocker switch includes a rocker button which is mounted in a housing. An actuating plate for acting on switching contacts that are connected to terminal contacts is associated with said rocker button. A switching contact is allocated to the actuating stroke of the first stage in each direction, respectively and a common switching contact is allocated to the actuating stroke of the second stage in each direction, respectively. | ||||||
| 213 | Power window switch circuit | US10048819 | 2002-02-01 | US06690131B1 | 2004-02-10 | Yasuhiro Shimomura; Kozo Nishimura |
| A power window switch circuit, even if soaked, prevents windows from opening or closing unintentionally. A DOWN switch (128) and an UP switch (129) each include a first fixed contact (DN1, UP1) connected with a power supply, a second fixed contact (DN2, UP2) grounded, and movable contacts (131, 132, 133, 134) for selectively connects either the first or second fixed contact with the first terminal of corresponding relay coils (21, 23). A transistor (TR4) responsive to a soak signal is connected between the ground and the second fixed contacts (DN2, UP2) of the UP and DOWN switches. The second terminals of the first and second relay coils are grounded through their respective transistors. When a soak is detected, a soak detector (15) supplies a soak signal to the transistors. | ||||||
| 214 | Switch | US10216401 | 2002-08-12 | US06686550B2 | 2004-02-03 | Hiroshi Seki; Hideji Onodera |
| A switch which can widen a degree of freedom of setting height and shape of a click groove while providing a click groove on a side of a movable contact and promote operation feeling without increasing cost. This switch brings a movable contact into contact with a fixed contact and separates the movable contact therefrom by pivoting a movable piece by moving a steel ball on the movable piece by operating a switch knob; wherein the movable piece is provided with a flat click portion having a contact portion and a click groove at an end edge thereof, the click portion being arranged erect relative to a housing; a steel ball contained in a ball support portion via a coil spring; and an opening of the ball support portion provided with a fitting groove to be fitted loosely to the end edge of the click portion of the movable piece. | ||||||
| 215 | Switch device | US10458975 | 2003-06-10 | US20030226748A1 | 2003-12-11 | 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. | ||||||
| 216 | Seesaw type switch | US10171500 | 2002-06-14 | US06610945B2 | 2003-08-26 | Hideji Onodera |
| A seesaw type switch is provided having a light permeating indicator capable of being illuminated, and at the same time preventing ingress of dust. The switch includes a switch knob supported on left-to-right walls on both sides of a cylindrical knob fixture for oscillating operation, and a boss having a curved surface concentric with the center of the support on the side of an operation lever of the switch knob and existing over a light permeating indicator zone. Fore-to-aft facing sections facing contiguously with the curved surface on both sides before and behind the support center are provided on fore-to-aft walls of the knob fixture. Left-to-right curved surfaces facing contiguously along both sides of the curved surface of the left-to-right facing boss are provided on the left-to-right walls of the knob fixture. The light permeating indicator zone of the boss is formed by using a light permeating material. | ||||||
| 217 | ILLUMINATED SWITCHING DEVICE FOR STABILIZED ILLUMINATION TO TRANSLUCENT PORTION OF KNOB | US09517246 | 2000-03-02 | US20020056632A1 | 2002-05-16 | Makoto Sasaki; Masakatsu Atumi; Nobuyuki Kowata; Kenichi Saiso |
| An object of the invention is to provide a illuminated switching device comprising a small number of components and capable of giving stabilized illumination to a translucent portion of a knob. For this purpose, the illuminated switching device of the present invention has a switch section including a case and a switch terminal protruding out of the case, a printed-circuit board to which the switch terminal is connected, and a lamp having a pair of lamp terminals connected with the printed-circuit board. The lamp terminals are retained and supported on the case. | ||||||
| 218 | Switch unit | US09685796 | 2000-10-11 | US06239392B1 | 2001-05-29 | Yasuyoshi Serizawa; Minoru Kubota; Keizo Nishitani |
| A switch unit is provided, which includes: an operative body being swingingly operably provided; a first contact portion being abuttable on one end portion of the operative body when the operative body is swingingly operated; a second contact portion being abuttable on the other end portion of the operative body when the operative body is swingingly operated; a fulcrum piece extending from a middle portion of the operative body in a direction where the operative body comes into contact with and gets off the first and second contact portions; a fulcrum receiving portion facing the fulcrum piece; an elastic support member to support the operative body in a state that the fulcrum piece and the fulcrum receiving portion have a gap therebetween when the operative body is not operated and to permit the fulcrum piece to approach the fulcrum receiving portion when the operative body is operated. | ||||||
| 219 | Switching device and process for external force-actuated driving devices in a motor vehicle | US09091537 | 1998-06-18 | US06198175B1 | 2001-03-06 | Roland Kalb; Günter Bittner |
| A switching device and process for external force-actuated driving devices in a motor vehicle, especially windows and sliding roofs. Depending on the dynamics and/or degree of displacement of an actuating component, control signals are generated which code the displacement speed and travel, the position, the displacement duration and/or direction of the item to be displaced. The actuating component is preferably an unrestrictedly rotatable component which, during its rotation, generates control signals for an electronic control unit. The device and process give a user the greatest possible control over the displacement of the component. | ||||||
| 220 | Switching apparatus having magnetoresistive elements for detecting a plurality of manually selected switching position | US822925 | 1997-03-21 | US06150808A | 2000-11-21 | Hiroshi Yagyu; Koichi Sato; Makoto Ito; Kenichi Ao |
| A switching apparatus is provided which may be used for power window control systems of automotive vehicles. The switching apparatus includes an operating knob, a magnet, a magnetoresistive element, and a position determining circuit. The operating knob is manually shifted between a plurality of switching positions. The magnet moves according to the movement of the operating knob. The magnetoresistive element is placed in a magnetic field applied from the magnet and changes an electrical resistance thereof according to a variation in orientation of a magnetic flux applied to the magnetoresistive element resulting from the movement of the magnet. The position determining circuit monitors a change in electric resistance of the magnetoresistive element to determine the switching position of the operating member. | ||||||
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