| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 表 | CN201410416271.5 | 2014-08-21 | CN104423245A | 2015-03-18 | 马里奥·卡尔施 |
| 本发明涉及一种表,具有发条装置,其驱动时针显示且可能驱动分针显示和秒针显示。具有中轮,其能每24小时一转地顺或逆时针围绕中轴转动地驱动并在其表面上安置地球南或北半球或其经度,中轴穿过半球的极。具有同心于中轴布置的固定时针刻度和以距中轴一定径向间距固定布置在12点位置的太阳标记。时针刻度是24小时刻度且中轮在24小时刻度径向内由大月轮同心包围并每朔望月一转地逆时针方向转动驱动。具有大月轮中的观月口和可围平行于中轴的月轴转动安置在大月轮上的小月轮,其承载多个在部分圆上均匀分布的、与观月口对应的暗圆面并以相对于大月轮转动运动的关系转动地驱动小月轮,通过其转动运动将暗圆面与观月口逐渐叠合并脱离叠合。 | ||||||
| 2 | 表 | CN201410416271.5 | 2014-08-21 | CN104423245B | 2017-07-21 | 马里奥·卡尔施 |
| 本发明涉及一种表,具有发条装置,其驱动时针显示且可能驱动分针显示和秒针显示。具有中轮,其能每24小时一转地顺或逆时针围绕中轴转动地驱动并在其表面上安置地球南或北半球或其经度,中轴穿过半球的极。具有同心于中轴布置的固定时针刻度和以距中轴一定径向间距固定布置在12点位置的太阳标记。时针刻度是24小时刻度且中轮在24小时刻度径向内由大月轮同心包围并每朔望月一转地逆时针方向转动驱动。具有大月轮中的观月口和可围平行于中轴的月轴转动安置在大月轮上的小月轮,其承载多个在部分圆上均匀分布的、与观月口对应的暗圆面并以相对于大月轮转动运动的关系转动地驱动小月轮,通过其转动运动将暗圆面与观月口逐渐叠合并脱离叠合。 | ||||||
| 3 | Vehicular air conditioning apparatus | JP2012134100 | 2012-06-13 | JP2013256230A | 2013-12-26 | SATO HIROSHI; SHIGETA MEGUMI |
| PROBLEM TO BE SOLVED: To provide a vehicular air conditioning apparatus configured to obtain the heating capacity needed during heating operation, by preventing decreases in the discharge rate of coolant from a compressor in low outdoor temperature environments, and to dehumidify without decreasing the heating capacity during dehumidifying heating operation.SOLUTION: A vehicular air conditioning apparatus includes: a heat dissipating refrigerant expansion valve 25 that decompresses a refrigerant flow out from a radiator 15 in a heating operation and a first dehumidifying heating operation; a gas-liquid separator 29 which, by inputting the coolant decompressed in the heat dissipating refrigerant expansion valve 25, separates the coolant into a gaseous coolant and a liquid coolant; and a coolant flow path 20k as a bypass circuit allowing at least a portion of the gaseous coolant separated in the gas-liquid separator 29 to enter the portion of the compressor 21 where the coolant undergoing compression circulates. | ||||||
| 4 | Method of and apparatus for telling time at night | EP83307124.4 | 1983-11-22 | EP0110658A1 | 1984-06-13 | Liddell, Olin Eli |
An instrument for telling time at night includes a base (10) that has a central aperture (14) for sighting on Polaris and an annular hour scale inscribed on the base with the axis of the aperture as the center of the annulus, a calendar scale (16) rotatable on the base (10) about said axis and having indicia adapted to be aligned with the indicia on the hour scale, and a pointer (20) rotatable about said axis and arranged to be removably secured to the calendar scale with its indicating edge in alignment with a selected mark on the calendar scale. |
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| 5 | 差動デバイスによって制御される均時差機構の実行 | JP2017103329 | 2017-05-25 | JP2018009972A | 2018-01-18 | シルヴァン・ドビ; アラン・ツァウク |
| 【課題】差動ギヤデバイスによって制御されるランニング均時差機構を提供する。 【解決手段】ランニング均時差機構は、差動ギヤデバイス64を有し、差動ギヤデバイス64の第1の入力は、常用時分針48が固定されている常用時分パイプ70と一体化されている筒かな72によって形成されており、差動ギヤデバイス64の第2の入力は、均時差カムによって形成され、差動ギヤデバイス64は、惑星減速車セット74と惑星増速車セットを有し、惑星減速車セット74を介して、常用時分パイプ70は、常用時時間針46が固定されている常用時時間パイプ84を駆動し、惑星増速車セットを介して、常用時時間パイプ84は、真太陽時分針50が固定されている真太陽時分パイプ102を駆動する。 【選択図】図3 |
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| 6 | 時計 | JP2014170217 | 2014-08-25 | JP5820517B2 | 2015-11-24 | マリオ カルシュ |
| 7 | DISPOSITIF POUR MÉCANISME DE CALCUL DE PHÉNOMÈNES ASTRONOMIQUES | EP17000170.5 | 2017-02-03 | EP3211487A1 | 2017-08-30 | Maillat, Rémi Daniel Louis |
Dispositif pour mécanisme de calcul composé d'une roue (1) qui entraîne en rotation une came (2) qui est positionnée en translation par une commande de came (4), ladite came (2) coopérant avec un palpeur (3) qui est guidé en translation ou en pseudo-translation. Ceci afin d'assurer que la position du point de contact du palpeur (3) sur la came (2), dans toute position fixe de la roue (1), reste inchangé quel que soit la position de la commande de came (4). Ledit palpeur (3) coopère avec des mécanismes supplémentaires de calcul ou avec des dispositifs d'affichage.
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| 8 | 差動デバイスによって制御される均時差機構の実行 | JP2017103329 | 2017-05-25 | JP6405412B2 | 2018-10-17 | シルヴァン・ドビ; アラン・ツァウク |
| 9 | 時計 | JP2014170217 | 2014-08-25 | JP2015045645A | 2015-03-12 | MARIO KARSCH |
| 【課題】地球の南半球または北半球上の所定の現在地に関連して太陽の位置と月位相を表示する時計を提供する。【解決手段】中央軸2を中心に24時間で1回転する中央ディスク1の表面に、地球の南半球または北半球または地球の経度が描かれ、中央軸2が北極3を通っている。中央軸2と同心的に配置され固定された24時間目盛り5と、中央軸2に対して半径方向間隔をおいて固定され、12時刻位置に配置された太陽マークとを備えている。中央ディスク1が大きな月ディスク4によって同心的に取り囲まれ、かつ朔望月で1回転するように反時計回りに回転駆動可能である。大きな月ディスク4内に月目視穴9を有し、大きな月ディスク4上で中央軸2に対して平行な月軸の回りに回転可能に軸承された小さな月ディスクを備え、小さな月ディスクの回転運動によって、暗い円形面が月目視穴9と徐々に重なりかつ徐々に重なりを解除可能である。【選択図】図1 | ||||||
| 10 | Gnomon | JP29490285 | 1985-12-26 | JPS62151782A | 1987-07-06 | SHIMOMURA TAKAO; NORIOKA TORU |
| PURPOSE:To improve visibility by transmitting the sunshine which is converged by a spherical lens to a display part by using an optical fiber and then making a time display. CONSTITUTION:The spherical lens 1 is held in the center of a transparent ball 2 by a shaft 3 parallel to the polar axis (whose direction is indicated by arrows N and S), and the point on which the sunshine is converged by the lens 1, i.e. focus draws an arcuate trace at the inside spherical surface position of the ball 2 by the diurnal motion of the sun; and the arcuate trace (diurnal motion line) shifts and forms a focal plane 10 at the inside spherical surface position of the ball 2. End surfaces 4a of many optical fibers 4 are arranged on the focal plane 10 which facing the center of the lens 1. Further, other-side end surfaces 4b of the optical fibers 4 are exposed to the surface of a display plate 5 from the reverse surface of a time display part 5 and the same celestial declination times are arrayed radially at time numbers on the display plate 5 at the same circumference. Then, the sunshine is transmitted to the display plate 5 through the ball 2, lens 1, and optical fibers and the end surfaces 4 of the optical fibers 4 illuminates, so that the time is displayed 5. | ||||||
| 11 | Method and device for deciding time at night | JP21880483 | 1983-11-22 | JPS59105591A | 1984-06-18 | ORIN II RIDOURU |
| 12 | 야광 황도 12궁 별자리판 | KR1020120004202 | 2012-01-13 | KR1020130083555A | 2013-07-23 | 이덕영 |
| PURPOSE: A luminous 12 zodiacal constellation board is provided to easily find out azimuths, the shapes of inner planets and outer planets which are observed according to the location of the earth, observation available time, and observable constellations. CONSTITUTION: A luminous 12 zodiacal constellation board includes a time display board (12) and an azimuth indicator (11). 24 hour marks are indicated around the circumference of the circular time display board. The azimuth indicator rotates around the center of the time display board, and indicates the azimuth of an observer. [Reference numerals] (AA) Archer; (BB) Goat; (CC) Water jar; (DD) Fish; (EE) Sheep; (FF) Bull; (GG) Twin; (HH) Crab; (II) Lion; (JJ) Virgin; (KK) Balance; (LL) Scorpion | ||||||
| 13 | TIMEPIECE | US14467853 | 2014-08-25 | US20150063077A1 | 2015-03-05 | Mario Karsch |
| A timepiece includes: a central pivot; a central disk rotatable in a clockwise or counterclockwise direction around the central pivot; a stationary 24-hour scale arranged concentric to the central pivot; a sun mark; a large moon disk, the large moon disk being rotatably drivable in the counterclockwise direction at a rate of one revolution per synodic month; a moon view aperture in the large moon disk; and a small moon disk mounted at the large moon disk so as to be rotatable around a moon pivot parallel to the central pivot, the small moon disk carrying a plurality of dark circular areas. The dark circular areas are movable successively into registration with the moon view aperture and successively out of registration with the moon view aperture by the rotational movement of the small moon disk. | ||||||
| 14 | Rock fashionable calendar horologe | US12641932 | 2009-12-18 | US07721454B2 | 2010-05-25 | Matthew Santangelo; Peter Detterline |
| A calendar indicating device can include easy placement through a north-south block (1) to orient an equinox line (3) to provide sunrise shadow indications of one or more solstice events such as the summer solstice or the winter solstice at the moment of sunrise. Designs can be based on remnants of artifacts that included some of the possible components, even for prehistoric man, in one integral stone device built from a stone base (2). Embodiments may include sunset indicator(s), solar altitude indicator(s), indicators for the maximum solar altitudes on the summer and/or winter solstice dates, and alignment aid(s). | ||||||
| 15 | Remote light source responsive visual time indicator | US573480 | 1990-08-24 | US5056232A | 1991-10-15 | Timothy F. Cunningham |
| A remote light source responsive time indicator includes a preferably cylindrical body of transparent material with a light receiving and refracting surface on one side and an axial image producing surface on a remaining side. The image producing surface may be formed as a translucent surface on the body, integrated therewith or applied thereto. Angularly spaced axial time indicia is also provided on the image producing side. The body is preferably supported on a base so the light receiving and refracting side faces upwardly and the image producing side faces downwardly. Sunlight received through the light receiving and refracting surface is concentrated optically through the transparent body and an intense visible image of the light is made to appear on the opposite side by provision of the image producing surface. This image moves with the sunlight across the image producing surface and indicates time in hourly increments when associated with the angularly spaced indicia. A second body may also be provided and is held horizontal to indicate seasonal time changes. The second body makes use of similar light receiving and image producing surfaces, with seasonal indicia provided in place of the hourly indicia. The bodies may be rotated about their respective central axes to facilitate initial time and seasonal settings. | ||||||
| 16 | Electronic sundial apparatus | US296161 | 1981-08-25 | US4387999A | 1983-06-14 | Edwin F. Shelley |
| An electronic sundial apparatus which signals the passage of each hour by a chime, bell or other audible indication and which requires no external source of power other than the sun. Inner and outer concentric hemispheres with vertically extending apertures, specifically slits, configured so as to diverge at their uppermost ends and having a location, length and shape corresponding to the azimuths and distance between the maximum and minimum altitudes of the sun in the sky at each hour throughout the year at predetermined latitudes collimate the sunlight once each hour. The collimated sunlight is detected by a photoelectric cell coupled to a signaling circuit powered by a photovoltaic cell. | ||||||
| 17 | Shadowless sun dial | US26084072 | 1972-06-08 | US3815249A | 1974-06-11 | GUNDLACH R |
| A sundial is formed with a reflecting surface curving in an arc around an axis so that the image of the sun reflected from the surface can be viewed from points along the axis. The surface is mounted with its axis parallel to the axis of the rotation of the earth, and a time scale, also visible from the axis, indicates the time position of the reflected image of the sun.
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| 18 | Sundial and nocturnal celestial timepiece | US9543149 | 1949-05-26 | US2582179A | 1952-01-08 | DAVID THOMSON |
| 19 | Sun clock | US72220847 | 1947-01-15 | US2524706A | 1950-10-03 | JOHANSON JOHN E; BOYD FRANCIS O |
| 20 | Sun time indicator | US39984741 | 1941-06-26 | US2303967A | 1942-12-01 | WEINER LEONARD A |
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