| 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 | 用于向移动元件提供动力的系统和方法 | CN201180036007.3 | 2011-07-29 | CN103053092B | 2016-09-07 | 达拉赫·士丹顿; 阿尔伯特·肯雷恩肯恩凯; 约翰·迪特内; 斯科特·林赛; 爪哇·泰勒 |
| 提供用于向传输系统中的多个移动元件提供动力的系统和方法,其包括:追踪传输系统中的多个移动元件中的每一个的位置;以及基于多个移动元件中的每一个的位置选择性地操作提供给传输系统的动力系统,使得动力独立地传送给多个移动元件中的每一个。在另一实施例中,该系统和方法包括:适配多个移动元件以从用于沿传输系统驱动多个移动元件的驱动部件接收动力;以及控制驱动部件以向多个移动元件提供动力,并且特别是在移动元件移动时控制驱动部件以向多个移动元件提供动力。 | ||||||
| 2 | 集装箱码头用穿梭搬运车系统及其运送集装箱的方法 | CN201310135264.3 | 2013-04-18 | CN104108610B | 2016-05-25 | 李伟; 李勋; 安国利; 朱连义; 吕庆新; 杨荣; 李强 |
| 本发明公开了一种集装箱码头用穿梭搬运车系统及其运送集装箱的方法,该系统包括至少一组垂直于码头岸线方向且贯穿堆场的轨道、设置在该轨道上能够对集装箱接力运送的传送装置,所述轨道位于所述堆场起重机下,所述堆场起重机工作半径能延伸到所述轨道和堆场的集装箱堆码区域。本发明利用梭车技术,实现集装箱的接力运输和自动装卸箱,节约能源、效率较高;使用轨道小车替代堆场起重机长距离行走,降低成本。 | ||||||
| 3 | 一种耐高温输送装置 | CN201510019679.3 | 2015-01-15 | CN104709665A | 2015-06-17 | 孙继斌; 赵汉宾; 占俊; 姜祖辉; 骆敏舟; 冯宝林; 赵贤相 |
| 本发明公开了一种耐高温输送装置,包括底座支架、设置于底座支架上方的用于加热和检测温度的保温箱体、设置于底座支架一侧的驱动机构、与驱动机构相连的主传动机构、从动机构和贯穿于保温箱体设置的辊子输送机构;所述保温箱体内设置有若干个相互平行设置的不锈钢加热棒和电热偶棒。本发明耐高温输送装置的传动系统设在保温箱体外,能够减少高温情况对传动系统的影响以及高温情况下润滑较为困难,从而起到了平稳输送物体的目的。本发明具有通用性强,结构简单、容易控制、传送平稳、传送效率高、适用于在高温情况下传送物体等优点。 | ||||||
| 4 | 集装箱码头用穿梭搬运车系统及其运送集装箱的方法 | CN201310135264.3 | 2013-04-18 | CN104108610A | 2014-10-22 | 李伟; 李勋; 安国利; 朱连义; 吕庆新; 杨荣; 李强 |
| 本发明公开了一种集装箱码头用穿梭搬运车系统及其运送集装箱的方法,该系统包括至少一组垂直于码头岸线方向且贯穿堆场的轨道、设置在该轨道上能够对集装箱接力运送的传送装置,所述轨道位于所述堆场起重机下,所述堆场起重机工作半径能延伸到所述轨道和堆场的集装箱堆码区域。本发明利用梭车技术,实现集装箱的接力运输和自动装卸箱,节约能源、效率较高;使用轨道小车替代堆场起重机长距离行走,降低成本。 | ||||||
| 5 | 用于自动装配机的带式输送器以及自动装配机 | CN201510221702.7 | 2015-05-05 | CN105127706A | 2015-12-09 | 拉尔夫·科恩爱伯弗; 阿诺·斯坦恩 |
| 本发明涉及一种用于自动装配机 (50)的带式输送器(10),其至少具有:可旋转支承的针轮(12),其用来输送皮带(11);驱动器(14),其具有至少一个用来驱动针轮(12)的齿轮(16);位置确定装置(20),其用来确定针轮(12)的旋转位置,其中该位置确定装置(20)具有第一传感装置(30),该第一传感装置具有至少一个磁阻传感结构(31)。此外,本发明还涉及一种具有至少一个带式输送器(10)的自动装配机(50)。 | ||||||
| 6 | 滚筒送料装置 | CN201310542226.X | 2013-11-05 | CN104609097A | 2015-05-13 | 杨川 |
| 一种滚筒送料装置,包含两个侧板以及位于所述两个侧板之间的多个滚筒,所述两个侧板上对应设置有多个供所述滚筒固定的通孔,所述多个滚筒等距排列且两两之间通过链条进行传动;所述滚筒包含滚筒本体、传动座、轴承座和心轴,所述滚筒本体的内表面设有多个轴向延伸于整个本体长度的内齿;所述传动座设置于所述滚筒本体的一端,所述传动座的外环面的一侧上设有与所述内齿相啮合的外齿;所述轴承座设置于所述滚筒本体的另一端,其一侧套入所述滚筒本体内,在该套入侧的外环面上设有与所述内齿啮合的外齿;由此,本发明通过内齿和外齿的相互啮合传动,有效确保了滚筒的正常传动;且能有效减少摩擦力,实现送料动作更加顺畅、平稳。 | ||||||
| 7 | 用于向移动元件提供动力的系统和方法 | CN201180036007.3 | 2011-07-29 | CN103053092A | 2013-04-17 | 达拉赫·士丹顿; 阿尔伯特·肯雷恩肯恩凯; 约翰·迪特内; 斯科特·林赛; 爪哇·泰勒 |
| 提供用于向传输系统中的多个移动元件提供动力的系统和方法,其包括:追踪传输系统中的多个移动元件中的每一个的位置;以及基于多个移动元件中的每一个的位置选择性地操作提供给传输系统的动力系统,使得动力独立地传送给多个移动元件中的每一个。在另一实施例中,该系统和方法包括:适配多个移动元件以从用于沿传输系统驱动多个移动元件的驱动部件接收动力;以及控制驱动部件以向多个移动元件提供动力,并且特别是在移动元件移动时控制驱动部件以向多个移动元件提供动力。 | ||||||
| 8 | SWITCHING VALVE CONTROL SYSTEM | EP16173023.9 | 2016-06-05 | EP3287398A1 | 2018-02-28 | Berthelsen, Timothy |
A switching valve module (200) which is part of a switching valve control system for use with reciprocating slat-type conveyors is disclosed herein. Disclosed herein is a switching valve module (200) that includes an inner control valve (260) and an outer control valve (270). A spool (264) is positioned within the inner control valve (260) and a spool (274) positioned within the outer control valve (270). Movement of each the spool (264, 274) creates both a spool-type seal and a poppet-type seal between the spool (264, 274) and the respective control valve (260, 270).
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| 9 | 実装機用ベルトコンベアならびに実装機 | JP2015095506 | 2015-05-08 | JP2015216374A | 2015-12-03 | ラルフ・クナプフェル; アルノ・シュタイン |
| 【課題】既知のベルトコンベアもしくは既知の実装機の短所を少なくとも部分的に解消する。とりわけ、ベルトコンベアのピンホイールの正確な位置決定を保証するベルトコンベアならびに実装機を提供し、とりわけ、そのために必要なセンサ装置の取り付けがとりわけ簡単にかつコスト安に行える。 【解決手段】本発明は、実装機(50)用のベルトコンベア(10)に関するものであり、少なくとも、ベルト(11)伝動用の回転可能に取り付けられたピンホイール(12)、前記ピンホイール(12)駆動用の少なくとも一つの歯車(16)を有する駆動装置(14)、前記ピンホイール(12)の回転位置を決定するための位置決定装置(20)を有しており、前記位置決定装置(20)は、少なくとも一つの磁気抵抗センサ配列(31)を持つ第1センサ装置(30)を有している。本発明はさらに、少なくとも一つのベルトコンベア(10)を有する実装機(50)に関する。 【選択図】図3 |
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| 10 | JPS4941300B1 - | JP5827770 | 1970-07-03 | JPS4941300B1 | 1974-11-08 | |
| 11 | 実装機用ベルトコンベアならびに実装機 | JP2015095506 | 2015-05-08 | JP6124946B2 | 2017-05-10 | ラルフ・クナプフェル; アルノ・シュタイン |
| 12 | JPS4814564B1 - | JP3367069 | 1969-05-02 | JPS4814564B1 | 1973-05-08 | |
| 13 | SYSTEM AND METHOD FOR PROVIDING POWER TO A MOVING ELEMENT | EP11811709 | 2011-07-29 | EP2599186A4 | 2013-12-11 | STAUNTON DARRAGH; KLEINIKKINK ALBERT; DITNER JOHN; LINDSAY SCOTT; TAYLOR JAVAN |
| 14 | Drive for a Belt Conveyor System, Method for Mounting a Drive on a Belt Conveyor System, and Belt Conveyor System | US15756433 | 2016-07-29 | US20180244475A1 | 2018-08-30 | Torsten HELLMUTH; Erik KROMPASKY; Guenther WINKLER |
| A drive for a belt conveyor system includes a permanently excited synchronous motor having a stator and a rotor, wherein a gap size is formed between the rotor and the stator, and a holding device is provided, which is secured to the stator via a first securing device and to the rotor via a second securing device in order to provide secure assembly of the drive, such that the gap size is maintained, where the first securing device and/or the second securing device are detachably formed, such that an uninterrupted operation of the belt conveyor system is guaranteed. | ||||||
| 15 | Switching valve control system | US15144812 | 2016-05-02 | US09897113B2 | 2018-02-20 | Timothy M. Berthelsen |
| A switching valve module which is part of a switching valve control system for use with reciprocating slat-type conveyors is disclosed herein. Disclosed herein is a switching valve module that includes an inner control valve and an outer control valve. A spool is positioned within the inner control valve and a spool positioned within the outer control valve. Movement of each the spool creates both a spool-type seal and a poppet-type seal between the spool and the respective control valve. | ||||||
| 16 | Switching Valve Control System | US15144812 | 2016-05-02 | US20170314579A1 | 2017-11-02 | Timothy M. Berthelsen |
| A switching valve module which is part of a switching valve control system for use with reciprocating slat-type conveyors is disclosed herein. Disclosed herein is a switching valve module that includes an inner control valve and an outer control valve. A spool is positioned within the inner control valve and a spool positioned within the outer control valve. Movement of each the spool creates both a spool-type seal and a poppet-type seal between the spool and the respective control valve. | ||||||
| 17 | Belt conveyor for an automatic placement machine and automatic placement machine | US14706548 | 2015-05-07 | US09663299B2 | 2017-05-30 | Ralf Kühnapfel; Arno Stein |
| A belt conveyor (10) for an automatic placement machine (50) that includes at least a rotatably mounted pinwheel (12) for conveying a belt (11), a drive (14) with at least one gear wheel (16) for driving the pinwheel (12) and a position-determining device (20) for determining a rotational position of the pinwheel (12), the position-determining device (20) having a first sensor device (30) with at least one magnetoresistive sensor arrangement (31). The disclosure further includes an automatic placement machine (50) having at least one belt conveyor (10). | ||||||
| 18 | SHUTTLE VAN SYSTEM FOR CONTAINER TERMINAL AND METHOD FOR TRANSPORTING CONTAINERS USING SAME | US14571273 | 2014-12-15 | US20150098776A1 | 2015-04-09 | Wei Li; Xun LI; Guoli AN; Lianyi ZHU; Qingxin LV; Rong YANG; Qiang LI |
| A shuttle van system for a container terminal, including: at least one rail and a transfer device. The transfer device includes a plurality of shuttle vans and a plurality of transition platforms. Each shuttle van includes: a base frame, a wheel group, a wheel driving device, a lifting device, and a supporting plate. Each transition platform includes brackets. The shuttle vans run on the rail between the brackets. The lifting device of the shuttle van is configured to lift the container from the supporting plate. The container is transferred from the supporting plate of the shuttle van to the bracket after contraction of the lifting device. | ||||||
| 19 | Standstill-positioning and restarting arrangement for a linear induction motor driven vehicle | US3736881D | 1972-02-08 | US3736881A | 1973-06-05 | LORINET J |
| An arrangement permitting standstill-positioning and subsequent restarting of a vehicle running on a track under the action of a linear induction motor. The track and the support members on the vehicle have cooperating projections and recesses which coincide at predetermined stop-and-go points of the track to mechanically catch the vehicle and to increase the restarting force by reducing the distance between the magnetic field and armature structures of the motor.
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| 20 | Electromagnetic eddy current induction type conveying method | US3675757D | 1969-12-24 | US3675757A | 1972-07-11 | YABUTA YUKIO |
| An electromagnetic induction conveying apparatus having a plurality of spaced apart stationary coils for providing a shifting magnetic field and a controller to vary the input to the coils, thereby controls both the direction of travel and the position of an electrically conductive object conveyed by the stationary coils due to eddy currents set up within the object by the shifting magnetic field.
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