| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 141 | Winkelspiegel für Panzerfahrzeuge | EP11009889.4 | 2011-12-15 | EP2604969A1 | 2013-06-19 | Kuhnke, Dieter |
Es wird eine Winkelspiegel eines gepanzerten Fahrzeugs, aus einem Gehäuse (2;22) mit einer Einblicköffnung (3) eines sich in einen Fahrzeuginnenraum (6) erstreckenden Teilbereichs und einer Ausblicköffnung (4) eines sich aus dem Fahrzeug heraus erstreckenden Teilbereichs sowie mit mindestens einem im Gehäuse (2;22) angeordneten Prismenkörper (5;15) oder Umlenkspiegeln zur Verfügung gestellt, der eine wirksame Abschirmung vor elektromagnetischen Störquellen bietet, so dass damit ausgestattete Fahrzeuge bzw. deren einzelnen elektronischen Komponenten nicht durch elektromagnetische Störquellen beeinflusst oder unbrauchbar gemacht werden können, was dadurch erzielt wird, dass der Winkelspiegel (1;21) allseitig mit einer Abschirmung aus elektrisch leitendem Material versehen ist.
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| 142 | DEVICE FOR VIEWING FRONT-LATERAL AREA OF VEHICLE | EP10786004 | 2010-04-20 | EP2441620A4 | 2012-11-28 | UEMATSU HIROSHI; KISHIMOTO YUYA; MUGIKURA NORIO; HOSOBE TOMOAKI |
| 143 | Device for viewing oblique forward area of vehicle | EP10166969.5 | 2010-06-23 | EP2266840B1 | 2012-06-06 | Kishimoto, Yuya; Matsumoto, Yoshiyuki |
| 144 | Apparatus for viewing oblique forward area of vehicle | EP10166148.6 | 2010-06-16 | EP2266841A3 | 2011-04-20 | Uematsu, Hiroshi; Kishimoto, Yuya; Mugikura, Norio; Hosobe, Tomoaki |
An oblique forward area viewing apparatus (11) includes a first reflective mirror (15) provided on a front wall part (43) of a mirror housing (41) of a door mirror (14), and a second reflective mirror (16) provided on a passenger-compartment-side part of a front pillar (28) and allows a driver to view an image displayed in the first reflective mirror through the second reflective mirror. The apparatus also includes a shielding member (61), provided on a passenger-compartment-side part of the front pillar (28), for preventing light from a passenger seat (23) positioned proximately to a sub-window pane (32) from being incident on the sub-window pane (32), and the passenger seat (23) from being displayed in the second reflective mirror (16).
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| 145 | INTERIOR REARVIEW MIRROR WITH DISPLAY | EP06836783 | 2006-10-31 | EP1949666A4 | 2011-01-19 | WELLER ANDREW D; LARSON MARK L; MCCABE IAN A; LYNAM NIALL R; BLANK RODNEY K; MCCAW JOSEPH P; UKEN JOHN T |
| A video mirror system for a vehicle comprising an interior rearview mirror assembly having a transflective electro-optic reflective element that transmits at least about ten percent of visible light incident thereon and reflects at least about sixty percent of visible light incident thereon. A display module is disposed at a rear of the transflective electro-optic reflective element and comprises a plurality of individual light sources. A thermally conductive element may be in substantial thermal contact with the display module and is exposed at a rear casing portion of the mirror assembly so as to draw heat generated by the display module away from the display module and to the exterior of the interior rearview mirror assembly. The exposure of the thermally conductive element at the rear casing portion may be substantially not discernible to a viewer viewing the rear casing portion of the interior rearview mirror assembly. | ||||||
| 146 | Apparatus for viewing oblique forward area of vehicle | EP10166148.6 | 2010-06-16 | EP2266841A2 | 2010-12-29 | Uematsu, Hiroshi; Kishimoto, Yuya; Mugikura, Norio; Hosobe, Tomoaki |
An oblique forward area viewing apparatus (11) includes a first reflective mirror (15) provided on a front wall part (43) of a mirror housing (41) of a door mirror (14), and a second reflective mirror (16) provided on a passenger-compartment-side part of a front pillar (28) and allows a driver to view an image displayed in the first reflective mirror through the second reflective mirror. The apparatus also includes a shielding member (61), provided on a passenger-compartment-side part of the front pillar (28), for preventing light from a passenger seat (23) positioned proximately to a sub-window pane (32) from being incident on the sub-window pane (32), and the passenger seat (23) from being displayed in the second reflective mirror (16).
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| 147 | Device for viewing oblique forward area of vehicle | EP10166969.5 | 2010-06-23 | EP2266840A1 | 2010-12-29 | Kishimoto, Yuya; Matsumoto, Yoshiyuki |
A device for viewing an oblique forward area of a vehicle includes a second reflective mirror whose orientation can be easily adjusted by turning the second reflective mirror in a predetermined direction. The viewing device (11) includes a door mirror (14). A mirror housing (41) of the door mirror (14) has on a front surface (43) a first reflective mirror (15) for showing an oblique forward area of the vehicle. A second reflective mirror (16) for reflecting light from the first reflective mirror (15) to a driver is disposed in proximity to a front pillar (28) inside a passenger compartment of the vehicle. The viewing device (11) is also comprised of turning direction regulation means (97) for turnably supporting the second reflective mirror (16) and regulating the turning direction of the second reflective mirror (16). The second reflective mirror (16) is turned only in a predetermined direction by the turning direction regulation means (97).
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| 148 | VEHICLE MIRROR SYSTEM | EP03779606.7 | 2003-12-04 | EP1569819B1 | 2008-10-08 | Patrikakis, Pano Yiotis |
| A mirror system for a vehicle having driver's side viewing device located in a mirror housing mounted on the vehicle wherein a first section of the mirror housing contains a viewing surface in the interior of the vehicle and a second portion of the mirror housing is optically open to the outside of the vehicle; said first section of the mirror housing adapted to contain one or more substantially right angle triangular prisms having two sides of substantially equal length and two vertices of substantially equal angles; said prism mounted in the first section of the mirror housing so that one of the two sides of equal length of said prism is positioned in an opening facing the interior of the vehicle to provide a viewing surface; the second one of the sides of equal length is facing to the exterior of the vehicle; said second section of the mirror housing sized and shaped to contain operative optical elements comprising one or more reflective means mounted in the second section of the mirror housing at an angle to the second one of the sides of equal length of the prism(s) in the first section of the mirror housing so that when the driver looks through the viewing surface of the prism he can see objects to the side and rear of the vehicle. | ||||||
| 149 | FORWARD VIEW APPARATUS FOR MOTOR VEHICLES | EP04710312.2 | 2004-02-12 | EP1597111B1 | 2008-09-10 | MacDougall, Craig Hart |
| Forward view apparatus (10) for a motor vehicle, to enable the driver of the vehicle to view an image of objects which are located forward of the apparatus (10), includes a housing (12) in which a rear view mirror (14) is located. A two-mirror arrangement (20, 24) within the housing (12) provides an image of objects forward of the assembly (10) in a viewing portal (16). The first mirror (20) is planar and adjustable. A second mirror (24) is fixed and has a curved reflecting surface. The reflecting surface of the fixed mirror (24) is aspheric, spherical, substantially spherical, parabolic or quasi-parabolic. A window (26) is provided on the forward side of the housing (12), to enable light to pass to the two-mirror arrangement (20, 24). A shutter means to limit light reaching the apparatus (10) and means for removing water and other material from the window (26) are also disclosed. | ||||||
| 150 | INTERIOR REARVIEW MIRROR WITH DISPLAY | EP06836783.8 | 2006-10-31 | EP1949666A2 | 2008-07-30 | WELLER, Andrew D.; LARSON, Mark L.; MCCABE, Ian A.; LYNAM, Niall R.; BLANK, Rodney K.; MCCAW, Joseph P.; UKEN, John T. |
| A video mirror system for a vehicle comprising an interior rearview mirror assembly having a transflective electro-optic reflective element that transmits at least about ten percent of visible light incident thereon and reflects at least about sixty percent of visible light incident thereon. A display module is disposed at a rear of the transflective electro-optic reflective element and comprises a plurality of individual light sources. A thermally conductive element may be in substantial thermal contact with the display module and is exposed at a rear casing portion of the mirror assembly so as to draw heat generated by the display module away from the display module and to the exterior of the interior rearview mirror assembly. The exposure of the thermally conductive element at the rear casing portion may be substantially not discernible to a viewer viewing the rear casing portion of the interior rearview mirror assembly. | ||||||
| 151 | COMBINED TOASTER AND MICROWAVE OVEN AND CONTROL METHOD THEREOF | EP03794325.5 | 2003-09-03 | EP1535494A1 | 2005-06-01 | LEE, Chang Su; SHIN, Sung Un; OH, Young Jin |
| Disclosed is a combined toaster and microwave oven, including: a plurality of heaters disposed close to both surfaces of a slice of bread so as to apply a heat to the slice of bread inserted into a slot in a toaster; a control panel for selecting a bread kind and a bread baking level which a user desires; a display unit for displaying the bread kind and the bread baking level selected in the control panel; and a controller for controlling to selectively operate the heater according to the bread kind and the bread baking level selected in the control panel. | ||||||
| 152 | SIDEVIEW MIRROR FOR VEHICLES AND ANGLE CONTROL DEVICE THEREOF | EP00909786 | 2000-03-07 | EP1250246A4 | 2003-08-27 | KHO MYUNG DUK |
| The present invention relates to a sideview mirror for vehicles and an angle adjusting device thereof which includes a housing pivotable on the inner and outer guide lines of the vehicle; an Amici type prism installed within the focal length lens so as to reflect the ray passing through the object lens for refracting the ray passing through an outer rearward portion of the vehicle to be converged; a reflector installed beyond the focal lenght of the object lens and adapted to reflect the ray reflected by the prism to an inner aperture portion of the housing; and an eye lens system magnifying and refracting the ray reflected by the reflector so as to form an image having unit magnification for thereby forming an afocal system. In addition, an angle adjusting device for automatically or manually adjusting the angle of the sideview mirror for vehicles is provided to make the driver see the view at the rear of the vehicle with respect to the movement direction of the vehicle accurately and easily and at the same time automatically or manually adjust the angle of the sideview mirror according to the physical conditions of the driver. | ||||||
| 153 | Vehicle image acquisition and display assembly | EP00310262.1 | 2000-11-17 | EP1106435A1 | 2001-06-13 | Strumolo, Gary S.; Miller, Ronald H. |
A vehicle image acquisition and display assembly 10 which is deployed within conventional vehicle rear-view mirror housing or shroud members 20, 22 and which selectively provides images of areas/regions and/or objects residing within the front and/or along the side of a vehicle 12. |
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| 154 | VEHICULAR VISUAL SAFETY DEVICE | EP97908907 | 1997-03-07 | EP0934177A4 | 2000-05-31 | STRAUSS ARTHUR D; MORRIS ROBERT L II |
| A vehicular visual safety device (100) including a pair of mirror assemblies (102). The mirror pair includes a planar reflecting foward-most mirror assembly (106) and a convex object rear-most mirror assembly (108) each having an upper edge that lies in respective vertical planes that are substantially parallel with each other. A frame assembly (104) is provided to adjustably secure the mirror pair within the interior of a vehicle. The frame assembly has substantially parallel forward and rear sides (110F, 110R) each having tracks that adjustably receive the forward-most and rear-most mirrors, respectively. The mirrors can be laterally rotated and secured at any one of many predetermined locations along their respective tracks so as to provide the driver with a view of a substantial area external to the opposite side of the vehicle lateral, forward and below the level of the front view window and the front portion of the vehicle. | ||||||
| 155 | A REAR VIEW MIRROR UNIT FOR A VEHICLE | EP96909455.6 | 1996-04-03 | EP0819068B1 | 1999-02-10 | Su, Li; So, FukSang |
| An optical rear view mirror unit for motor vehicles comprises a plurality of converging optic elements and at least one intermediate optic element. The said each converging optic element is either a converging lens or a concave mirror comprisisng at least one single optic component, and the said intermediate optic element is either a said converging optic element or a simple reflector, by which a first converging optic element is an imaging optic element, located outside a vehicle, to form a first inverted image which is in or in the vicinity of an intermediate optic element, effecting the said intermediate optic element to direct the rays, from the first imaging optic element towards a second imaging optic element. The said second imaging optic element is located inside a vehicle, to form a second upright image which is in or in the vicinity of the last converging optic element in the said mirror unit, effecting the said last converging optic element further converge and redirect the rays from the said second imaging optic element towards the eyes of an observer. The optical axis after passing through the first imaging optic element is traveling forwardly and inwardly of a vehicle, at an acute angle to the longitudinal axis of a vehicle; and the said optical axis, after reflected by a reflecting interface of the said intermediate optic element, is traveling backwardly and inwardly, also at an acute angle to the longitudinal axis of a vehicle. The sum of the said two angles is less than 90 degrees. At least one refrecting prism may be added either before or after the said first or the second imaging optic element if needed, to further deflect the light to the desired pathway. | ||||||
| 156 | EP0891566A4 - | EP95917780 | 1995-05-01 | EP0891566A4 | 1999-01-20 | |
| A system for affording panoramic forward, side and rear views to operators of a wide range of transportation means for facilitating safe maneuvering. The system includes a plurality of bi-directional mirror assemblies (106, 116) each having a first mirror (104, 118) and a second mirror (108, 120), such that the first mirror and the second mirror subtend a predetermined angle therebetween. | ||||||
| 157 | DISPOSITIF DE RETROVISION POUR VEHICULE AUTOMOBILE | EP97921896.0 | 1997-04-25 | EP0891267A1 | 1999-01-20 | RETHORE, Gérard |
| The invention discloses a device comprising a convex mirror (6) to be located on the side of a motor vehicle, and a convergent optical system (10), designated display device, located between the convex mirror (6) and the driving seat, such that the display mirror axis (20) corresponds substantially to the driver's axis of vision. | ||||||
| 158 | REAR VIEW APPARATUS | EP92924043.0 | 1992-10-23 | EP0608385B1 | 1995-12-27 | POTMA, Theodorus Gerhardus |
| The rear view apparatus according to the invention is of the periscopic type and consists of at least three separate mirrors, of which the first mirror (1) is placed higher than the cabin roof (4), while the design and positioning of the three mirrors is such that the drawbacks of the periscopic rear view apparatuses known at present are prevented or greatly reduced and that it is possible to fit the apparatus into common passenger cars without extensive alterations. | ||||||
| 159 | REAR-VIEW SYSTEM FOR VEHICLES | EP92921044.0 | 1992-10-07 | EP0609271A1 | 1994-08-10 | THOMAS, Justin, Miles |
| Système de rétroviseur pour véhicules combinant un élément de transmission de la lumière (2) et un milieu de réflexion de la lumière séparé de l'élément. Ledit élément possède une première face (4) de sortie lumineuse à partir de laquelle, lors du fonctionnement, les rayons lumineux sont dirigés vers le milieu et une deuxième face (6) destinée à la lumière incidente, chaque face étant disposée de part et d'autre d'un plan moyen. L'élément comprend une pluralité de sections prismatiques élémentaires variant progressivement le long de l'élément de sorte que les rayons de lumière rréfractée émergeant de la première face sont parallèles ou sensiblement parallèles les uns avec les autres indépendamment de leurs angles d'incidence. La forme de l'élément de transmission de la lumière permet d'obtenir un large champ de vision, améliorant ainsi la sécurité. | ||||||
| 160 | Sideview mirror for vehicles | EP93300301.4 | 1993-01-18 | EP0607641A1 | 1994-07-27 | Kho, Myung Duk |
A sideview mirror comprising a housing (10) comprising an inner tubular member (10a) and an outer tubular (10b) member, the housing (10) having a main pipe (20) and a branching pipe (30) extending laterally a center portion of the main pipe (20), an object lens system (40) arranged rearwardly in the main pipe (20), an eye lens system (60) arranged in the branching pipe (30), a blowing device (50) arranged forwardly in the main pipe (20), and a reflecting member (70) arranged in the center portion of the main pipe (20) to form a predetermined angle with respect to the main pipe (20). The blowing device (50) comprises a cover plate (51) provided with a plurality of air apertures (51a), a movable plate (52) provided with a plurality of air apertures (52a) selectively aligning with the air apertures (51a) of the cover plate (51), an air guider (55) for guiding an air passing through the aligning air apertures to both the object lens system (40) and the eye lens system (60), and a heater (56) adapted to heat the air coming into the air guider. A tension spring (53) is provided for urging the movable plate (52) to slide in a direction of preventing the air apertures (52a) of the movable plate (52) from aligning with the air apertures (51a) of the cover plate (51). Also, a driver (54) is provided for sliding the movable plate (52) against an urging force of the resilient means in a reverse direction of permitting the air apertures (52a) of the movable plate (52) to align with the air apertures (51a) of the cover plate (51). |
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