序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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1 | 管制控制装置 | CN201580010874.8 | 2015-03-03 | CN106030677A | 2016-10-12 | 金井政树; 滨田朋之; 加藤学; 中拓久哉; 荒井雅嗣 |
以闭塞控制为前提,在使用相对车道进行车辆的超越时削减对于无线通信的负担、且进一步降低对相对车道的车辆的行驶时间间隔所付与的影响。作为仅许可自车辆(20‑1)行驶的第一行驶许可区间(108)、和仅许可位于自车辆(20‑1)的行驶车道前方的停车中的其他车辆(20‑2)行驶的第二行驶许可区间(81‑2)来进行设定,包括第一移行区间(105)、超越区间(100)及第二移行区间(106)地生成供自车辆(20‑1)超越其他车辆(20‑2)的超越路径,第一移行区间用于从自车辆的行驶车道向相对车道进行车道变更,该超越区间与该第一移行路径(105)的前端部的节点连续,且通过设定在相对车道上的链路而构成,该第二移行区间与该超越区间(100)的前端部的节点连续,且用于从超越区间(100)回归至行驶车道。此时,缩短预先设定的第二行驶许可区间(81‑2)的区间长度。 | ||||||
2 | 一种茶园微耕机耕深调节机构 | CN201710745632.4 | 2017-08-26 | CN107493700A | 2017-12-22 | 李颂 |
一种茶园微耕机耕深调节机构,包括旋转手柄和轴套,所述转手柄一端与轴套活动连接,轴套下部设有内侧螺杆,内侧螺杆下部与限深轮连接;本发明的优点是:结构简单,体积小,工作的稳定性好,便于农户操作,在不同档位的调节下,能够实现刀轴转速的调节与耕深的适当调控。 | ||||||
3 | 一种农耕用的回转式中耕机 | CN201510898565.0 | 2015-12-08 | CN106852201A | 2017-06-16 | 张正兴 |
本发明公开了一种农耕用的回转式中耕机,包括底座、大齿轮、压力轴和继电器,所述底座上方安装有石墨碳棒,所述石墨碳棒上方设置有小齿轮,所述小齿轮设置在所述石墨碳棒与所述大齿轮之间,所述大齿轮上方安装有机械台,所述机械台上方设置有轴柄,所述轴柄上方设置转盘,所述转盘设置在所述压力轴上方,所述压力轴下方安装有金属片,所述金属片下方设置有齿轮螺栓,所述继电器与发电机的中轴线处在同一直线上。有益效果:可以有效提高回转效率,提高润滑性,避免高强度作业过程中受到的机械损伤,降低噪音污染,提高稳定性,可以调节机械高度,可以满足各种地貌的生产作业,耐久性能强。 | ||||||
4 | 管制制御装置 | JP2014199471 | 2014-09-29 | JP6247622B2 | 2017-12-13 | 金井 政樹; ▲濱▼田 朋之; 加藤 学; 中 拓久哉; 荒井 雅嗣 |
5 | 管制制御装置 | JP2014199471 | 2014-09-29 | JP2016071568A | 2016-05-09 | 金井 政樹; ▲濱▼田 朋之; 加藤 学; 中 拓久哉; 荒井 雅嗣 |
【課題】閉塞制御を前提とし、対向車線を用いて車両の追い越しを行う際に、無線通信に対する負荷を削減及び対向車線の車両の走行時間間隔に与える影響をより低減する。 【解決手段】自車両20-1のみの走行を許可する第一走行許可区間108-1〜108-4と、自車両20-1の走行車線上前方に位置する停車中の他車両20-2のみの走行を許可する第二走行許可区間81-2として設定し、自車両20-1が他車両20-2を追い越すための追い越し経路を、自車両の走行車線から対向車線に車線変更をするための第一移行区間105、第一移行経路105の前端部のノードに連続し、対向車線上に設定されたリンクにより構成される追越し区間100、及び追越し区間100の前端部のノードに連続し、追越し区間100から走行車線に復帰するための第二移行区間106を含んで生成する。その際、予め設定された第二走行許可区間81-2の区間長を短くする。 【選択図】図13 |
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6 | Method and device for controlling unwanted plant growth on a piece of ground | EP89201541.3 | 1989-06-13 | EP0347982A1 | 1989-12-27 | Leijenaar, Sijtze |
Method for controlling unwanted plant growth on a piece of ground comprising the mechanical disturbing of the ground. The regular surface agitation of the piece of ground is in order to prevent germinating seeds from taking root. |
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7 | Cultivators for row plants | US44003754 | 1954-06-29 | US2713816A | 1955-07-26 | BERG ROBERT B |
8 | Cultivator attachment | US58629845 | 1945-04-03 | US2433215A | 1947-12-23 | HANCOCK WILLIAM O |
9 | Attachment for cultivators | US28589539 | 1939-07-22 | US2308575A | 1943-01-19 | VICKERY GEORGE H |
10 | Portable weeding device | US11331026 | 1926-06-02 | US1687948A | 1928-10-16 | JOHANNES OLSEN ANTON |
11 | Agricultural implement | US3033225 | 1925-05-14 | US1573044A | 1926-02-16 | DIAMOND RUBIN L |
12 | Cotton cultivator | US65600423 | 1923-08-06 | US1567255A | 1925-12-29 | FOSTER ROBERT J |
13 | Motor-propelled lister cultivator | US17844617 | 1917-07-03 | US1448991A | 1923-03-20 | BARTHOLOMEW JOHN B |
14 | TRAFFIC MANAGEMENT CONTROL DEVICE | EP15846411 | 2015-03-03 | EP3203457A4 | 2018-05-16 | KANAI MASAKI; HAMADA TOMOYUKI; KATOU MANABU; NAKA TAKUYA; ARAI MASATSUGU |
In performing overtaking of a vehicle using an opposite lane presupposing block control, to cut down a load on wireless communication and to further reduce an influence affecting a traveling time interval of the vehicle in the opposite lane. A first travel permission section 108 in which only an own vehicle 20-1 is permitted to travel and a second travel permission section 81-2 in which only another vehicle 20-2 in a stop state located ahead of the own vehicle 20-1 on a traveling lane thereof is permitted to travel are set. An overtaking path by which the own vehicle 20-1 overtakes the other vehicle 20-2 is generated to include a first transition section 105 for the own vehicle to change lanes from a traveling lane of the own vehicle to an opposite lane, an overtaking section 100 that connects to a node of a front end of the first transition path 105 and is comprised of a link provided on the opposite lane, and a second transition section 106 that connects to a node of a front end of the overtaking section 100 and is for the own vehicle to return to the traveling lane from the overtaking section 100. At that time, a section length of the second travel permission section 81-2 being set in advance is shortened. | ||||||
15 | MANAGEMENT CONTROL DEVICE | US15124042 | 2015-03-03 | US20170017239A1 | 2017-01-19 | Masaki KANAI; Tomoyuki HAMADA; Manabu KATOU; Takuya NAKA; Masatsugu ARAI |
A management control device controls multiple unmanned vehicles, including the overtaking of a vehicle using an opposite lane. First and second travel permission sections are set for an own vehicle and another vehicle in a stopped state located ahead of the own vehicle on a traveling lane. A path by which the own vehicle overtakes the other vehicle is generated to include a first transition section to change lanes from a traveling lane to an opposite lane, an overtaking section that connects to the first transition section. Also included is a second transition section that connects to the front end of the overtaking section and is for the own vehicle to return to the traveling lane. The section length of the second travel permission section being set in advance is thereby shortened. | ||||||
16 | Agricultural undercut implements and methods | US13895875 | 2013-05-16 | US09451739B2 | 2016-09-27 | Dustin Miller |
An agricultural undercut implement includes a frame carrying ground-engaging rolling means, a cutting disk arrangement to cut parallel slits in the ground soil, and an undercut assembly having upright cutting edges each aligned to follow a slit, and a transverse blade with a horizontal cutting edge disposed to undercut the ground soil between slits, as the frame rolls over the ground, such as when towed behind a tractor. The transverse blade is configured to sever the strip of ground soil undercut by the cutting edge, and then move the undercut soil strip up and over the blade before replacing it intact on the ground. A method of agricultural crop management includes non-terminatingly retarding the growth of a permanent cover crop by using the implement to undercut and replace intact the ground soil beneath the cover crop. Some examples include drive units configured to drive blades through pluralities of blade positions. | ||||||
17 | Row crop cultivator | US3680648D | 1970-01-22 | US3680648A | 1972-08-01 | TONSFELDT WAYNE S |
A row crop cultivator mounted on a three-point hitch of an agricultural tractor. The cultivator has a folding frame with a center beam assembly and side beams pivotally mounted on arms pivotally attached to the center beam. The arms selectively permit opposite ends of the side beams to be coupled to the center beam assembly so that the cultivator can be assembled in a wide, transverse working position and, alternatively, in a folded, narrow, transport position. The cultivator has transverse tool bars carrying a plurality of earth working dual discs. Mounted on the tool bars are pairs of row guide units having wheels that function to align the cultivator with furrows midway between the rows of crops. Each row guide unit has a furrowing tool associated with a shield to form a furrow midway between the rows of crops.
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18 | Tractor implement linkages | US46457154 | 1954-10-25 | US2759408A | 1956-08-21 | HULL CHARLES H |
19 | Row crop weeder and cultivator | US26470652 | 1952-01-03 | US2758530A | 1956-08-14 | GERBRACHT OSCEOLO J |
20 | Earthworking attachment for cultivators | US72598847 | 1947-02-03 | US2597821A | 1952-05-20 | WALTER ROWAN JAMES |