| 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 | 双功能电动门 | CN201380042314.1 | 2013-08-07 | CN104641063A | 2015-05-20 | 迈克尔·D·欧克利; 克雷格·T·克兰; 迪安·A·斯科特; 荒井英明; 约瑟夫·P·维尼雷; 萨伊德·那马克杜斯特; 伊桥良友; 特雷弗·斯科特·惠顿; 渡边诚 |
| 本发明示出了一种用于控制车辆电动门操作的系统和方法。检测与电动门关联的用户接口装置的启动。在检测用户接口装置的启动之后,使用通知装置提供提示。在一个实施方式中,通知装置包括听觉警报器。当用户接口装置被启动大于预定时间段时,使电动门进入电动操作模式,并且使用通知装置来指示电动门的当前操作模式。在一个实施方式中,当用户接口装置在所述预定时间段内被停用时,使电动门进入手动操作模式。 | ||||||
| 2 | 一种用于控制车辆电动门操作的系统和方法 | CN201380042314.1 | 2013-08-07 | CN104641063B | 2017-05-24 | 迈克尔·D·欧克利; 克雷格·T·克兰; 迪安·A·斯科特; 荒井英明; 约瑟夫·P·维尼雷; 萨伊德·那马克杜斯特; 伊桥良友; 特雷弗·斯科特·惠顿; 渡边诚 |
| 本发明示出了一种用于控制车辆电动门操作的系统和方法。检测与电动门关联的用户接口装置的启动。在检测用户接口装置的启动之后,使用通知装置提供提示。在一个实施方式中,通知装置包括听觉警报器。当用户接口装置被启动大于预定时间段时,使电动门进入电动操作模式,并且使用通知装置来指示电动门的当前操作模式。在一个实施方式中,当用户接口装置在所述预定时间段内被停用时,使电动门进入手动操作模式。 | ||||||
| 3 | INVESTMENT MOLD SLURRY CURTAIN APPARATUS | EP16856142.1 | 2016-10-13 | EP3302850A1 | 2018-04-11 | BIEDERMAN, Scott W.; BONAVENTURA, Thomas; DODD, Patrick E.; MICHALIK, Joseph C. |
| An investment mold slurry curtain apparatus includes a slurry curtain of a slurry fluid, the slurry curtain having a length and a thickness, the length substantially greater than the thickness. The apparatus also includes an outlet configured to dispense the slurry fluid and form the slurry curtain. The investment mold slurry curtain apparatus may include and be described as an investment mold slurry coating apparatus including a conduit configured to receive a flow of a slurry fluid and an outlet operatively coupled to the conduit, the outlet configured to dispense the flow of the slurry as a curtain of the slurry. | ||||||
| 4 | 二重機能パワードア | JP2015526661 | 2013-08-07 | JP2015529760A | 2015-10-08 | マイケル・ディー・オククレー; クレイグ・ティー・クライン; ディーン・エー・スコット; 秀明 新井; ジョゼフ・ピー・ホィネリー; サイード・ナマキドゥースト; 井橋 祥共; 祥共 井橋; トレヴォー・スコット・ホイットン; 渡辺 誠; 渡辺 誠 |
| 車両のパワードアの作動を制御するシステム及び方法が示される。パワードアに関連付けられているユーザーインターフェース装置の操作状態が検出される。ユーザーインターフェース装置の操作状態が検出された後に、報知装置を用いてキューが出される。1つの態様では、報知装置は、可聴アラームを含む。ユーザーインターフェース装置が所定時間を超えて操作状態にあるときは、パワードアは電動モードで作動され、且つパワードアの現在の作動モードを報知装置を用いて報知される。1つの態様では、ユーザーインターフェース装置が所定時間が経過するまでに非操作状態になったとき、パワードアの作動モードは手動モードになる。【選択図】図1 | ||||||
| 5 | Molding device for sand mold | JP19817984 | 1984-09-21 | JPS6174755A | 1986-04-17 | KITANO HIROYUKI; HARADA SHUICHI; KODA SEIGO |
| PURPOSE:To provide a titled device which permits an unattended molding operation of sand molds and provides an improvement in quality and reduction in cost by connecting a head of a traction machine on combined vertical and horizontal traveling rails moving on the molding flask of a molding board carrying a pattern and a sand slinger and controlling automatically the rate and position of charging of molding sand. CONSTITUTION:The slinger head 8 provided in the upper part of the molding flask 3 on the molding board 2 on which the pattern 1 is imposed is positioned by the traction machine 7 supported on the traveling rails 5 and traversing rails 6. The head 8 is connected to the sand slinger 4. The rate and position of charging of the molding sand are automatically controlled by a control panel 9. The molding operation for the sand mold is thus made unattended and the quality thereof is improved; in addition, the cost is reduced. | ||||||
| 6 | JPS57500005A - | JP50168980 | 1980-02-01 | JPS57500005A | 1982-01-07 | |
| PCT No. PCT/SU80/00018 Sec. 371 Date Sep. 28, 1981 Sec. 102(e) Date Sep. 28, 1981 PCT Filed Feb. 1, 1980 PCT Pub. No. WO81/02122 PCT Pub. Date Aug. 6, 1981.A moulding plant comprises a sandslinger 2 and a turnover and withdrawal mechanism mounted on a common bed. The turnover mechanism is made in the form of two disks spaced apart and coupled to a drive designed to turn the turnover and withdrawal apparatus in a vertical plane relative to their horizontal axes. Rigidly fixed between the disks are side-roller conveyers wherebetween is mounted a double-sided pattern plate with top and bottom patterns. The withdrawal mechanism comprises power cylinders for moving the pattern plate with the top and bottom patterns. Mounted on the bed are two side-roller conveyers designed for carrying empty moulding boxes to the turnover and withdrawal mechanism. | ||||||
| 7 | Kanjoyokinotaikarainingunokeiseihooyobisochi | JP1902176 | 1976-02-25 | JPS51110435A | 1976-09-30 | KAARU DEITAA BETSUKAASU |
| 8 | インベストメント鋳型スラリのカーテン装置 | JP2017565925 | 2016-10-13 | JP2018517566A | 2018-07-05 | ビーデルマン スコット ダブリュー; ボナヴェンチュラ トマス; ドッド パトリック イー; ミカリク ジョセフ シー |
| インベストメント鋳型スラリのカーテン装置は、スラリ流体のスラリカーテンを含み、当該スラリカーテンは、長さと厚さとを有しており、長さの方が厚さよりも実質的に大きい。当該装置は、スラリ流体を投与してスラリカーテンを形成するように構成された出口部を含む。インベストメント鋳型スラリのカーテン装置は、インベストメント鋳型スラリの被覆装置を含み、そのように説明され得て、それは、スラリ流体の流れを受容するように構成された導管と、当該導管に動作可能に結合された出口部と、を含んでいる。当該出口部は、スラリの流れを、スラリのカーテンとして投与するように構成されている。 | ||||||
| 9 | 二重機能パワードア | JP2015526661 | 2013-08-07 | JP6074037B2 | 2017-02-01 | マイケル・ディー・オククレー; クレイグ・ティー・クライン; ディーン・エー・スコット; 新井 秀明; ジョゼフ・ピー・ホィネリー; サイード・ナマキドゥースト; 井橋 祥共; トレヴォー・スコット・ホイットン; 渡辺 誠 |
| 10 | JPS6243776B2 - | JP19437182 | 1982-11-04 | JPS6243776B2 | 1987-09-16 | SAKOTA AKINORI; YAMAMOTO SHIGERU |
| 11 | JPS567452B2 - | JP7563576 | 1976-06-28 | JPS567452B2 | 1981-02-18 | |
| 12 | Molding device of core for centrifugal casting | JP19437182 | 1982-11-04 | JPS5985348A | 1984-05-17 | SAKOTA AKINORI; YAMAMOTO SHIGERU |
| PURPOSE:To mold easily a core in the stage of molding a core for forming a pipe socket to be used in centrifugal casting of a pipe by centering a core mold, imposing the same in a rotary table, injecting sand while rotating the core mold together with the table and molding the same with a strike-off plate. CONSTITUTION:A rotary table 5 which is rotated around a vertical axial center by a driving device 7 is provided and a core mold 14 consisting of a ring 15 and a molding flask 16 is imposed on the inside thereof. The mold 14 is correctly centered on the table 5 by a centering device 19, and is fixed to the inside on the table 5 by a locking device 32. A strike-off plate 50 is opposed to the core molding surface 18 of the mold 14 and is then approached thereto so as to be positioned on the molding surface. The mold 14 is rotated together with the table 5 in this state and sand for core is projected from a sand projection nozzle 51 to the surface 18 whereby a core 64 is molded on the surface 18. Cores having plural sizes are easily molded with a uniform wall thickness according to such method. | ||||||
| 13 | Method of manufacturing one or more hollow cores suitable to mold | JP7563576 | 1976-06-28 | JPS5217328A | 1977-02-09 | MOOGENSU UITO GUROOBU; KAARU ERIKU ERIKUSEN |
| 14 | JPS4937487B1 - | JP6424970 | 1970-07-22 | JPS4937487B1 | 1974-10-09 | |
| 15 | JPS4999707A - | JP12505873 | 1973-11-08 | JPS4999707A | 1974-09-20 | |
| 16 | 인베스트먼트 몰드 슬러리 커튼 장치 | KR20187000860 | 2016-10-13 | KR20180008879A | 2018-01-24 | BIEDERMAN SCOTT W; BONAVENTURA THOMAS; DODD PATRICK E; MICHALIK JOSEPH C |
| 인베스트먼트몰드슬러리커튼장치는슬러리유체의슬러리커튼 - 상기슬러리커튼은길이및 두께를갖고상기길이는상기두께보다실질적으로더 김 - 을포함한다. 상기장치는또한상기슬러리유체를내보내어상기슬러리커튼을형성하도록구성되는유출구를포함한다. 인베스트먼트몰드슬러리커튼장치는슬러리유체의흐름을수용하도록구성된도관및 상기도관에동작가능하게결합된유출구를포함하는인베스트먼트몰드슬러리코팅장치를포함하고이것으로기재될수 있으며, 유출구는슬러리의커튼으로서슬러리의흐름을내보내도록구성된다. | ||||||
| 17 | 서포트 입자를 압축밀집하는 방법 | KR1020080003116 | 2008-01-10 | KR1020080065943A | 2008-07-15 | 파카스,아틸라,피.; 스콜,게리,더블유.; 레뎀스케,죤,에이.; 빈,데이비드 |
| A method for densely compacting support particulates is provided to make support media flow into voids by moving free surfaces of the support media filled into voids, over the dynamic angle of repose by setting the direction of the voids formed on walls of the patterns or a mold again by the combination of rotating and tilting motions. A method for densely compacting particulate media for a mold(10) or patterns comprises the steps of: arranging the mold or pattern in particulate media formed in a container; applying the united operation of vibration, rotation, and tilting to the container in making the particulate media flow in to fill up voids(V) formed on the mold or pattern walls; tilting the container for a first axial line; and tilting the container for a second axial line. | ||||||
| 18 | Dual function power door | US14520177 | 2014-10-21 | US09447612B2 | 2016-09-20 | Michael D. Oakley; Craig T. Kline; Dean A. Scott, Jr.; Hideaki Arai; Joseph P. Whinnery; Saeed Namakydoost; Yoshitomo Ihashi; Trevor Scott Whitten; Makoto Watanabe |
| A system and method for controlling an automatic operation of a power door of a vehicle is presented. An actuation of an interior switch by a user is detected and, upon detecting the actuation of the interior switch, whether at least one door of the vehicle is locked is determined. When the at least one door of the vehicle is locked, whether a vehicle security is set is determined. When the at least one door of the vehicle is locked and the vehicle security is set, the automatic operation of the power door is prohibited. When the at least one door of the vehicle is not locked or the vehicle security is not set, the automatic operation of the power door is permitted. | ||||||
| 19 | Sand slinger | US38728673 | 1973-08-10 | US3872912A | 1975-03-25 | AXMANN FELIX |
| At the discharge opening of a sand slinger head, translatable in a circular path during sand slinger machine operations, a swingable flap plate is mounted to the head housing by a pivot parallel to the slinger wheel axis as an extension of a fixed casing wall portion about the path of the slinger wheel blade. The flap plate is grossly oscillated or swung with a primary oscillatory motion by a fluid-powered double-acting piston cylinder unit, at 50 to 250 c.p.m. with adjustability from operator''s station of the stroke midpoint, of the frequency, and of amplitude or angular stroke length of from 1* to 20*, and further is vibrated with a smaller superimposed secondary motion through an angle of 1* to 3* at a much higher frequency of about 1000 c.p.m. by an attached vibrator. Also a high speed rotating eccentric drive for the gross or primary swing is described. A process of slinger application of a refractory composition in plastic state to pouring ladles is described, wherein the discharge stream of composition slugs or balls, on each turn of the slinger machine, traces a sinusoidal path of application in the annular space between a vessel wall to be lined and a temporary forming ring, with a phase displacement of the sinusoidal loops on successive turns, thereby to improve evenness of application and uniformity of compaction of the lining composition.
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| 20 | Refractory lining for hot metallurgical ladles, soaking pits and furnaces | US32089373 | 1973-01-04 | US3856538A | 1974-12-24 | MURTON C |
| A method for relining metallurgical ladles, soaking pits, and furnaces at temperatures from about 400* to about 3,000* F. by propelling a mixture of refractory materials against a priorexisting lining without prior cooling thereof, the relining thickness being from about 1/4 inch up to 10 inches or more. The refractory mixture consists essentially of, by weight, from about 1/4% to about 4% of an organic binder, from about 40% to 70% of clay, and from about 28% to about 58% quartzite. To facilitate its application, the refractory mixture is mixed with about 4% to 6% water.
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