| 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 | 能旋转调节的微耕机扶手架总成 | CN201510957020.2 | 2015-12-18 | CN105409373A | 2016-03-23 | 王显刚; 刘樑; 窦思勇 |
| 本发明公开了一种能旋转调节的微耕机扶手架总成,包括支座、扶手架、旋转定位盘、定位轴和旋转座,还包括插销装置和调节拉索,调节拉索的一端安装在扶手架的把手部、另一端伸入插销套筒中与插销连接。本发明能旋转调节的微耕机扶手架总成,其当需要转动扶手架时,通过调节拉索拉动插销,使插销的端部从旋转定位盘上的插销定位孔中缩回插销套筒,即可搬动扶手架绕定位轴转动,当调节到合适位置时,松开调节拉索,插销便在弹簧的驱动下伸出插销套筒重新插入旋转定位盘上的插销定位孔中,将扶手架固定,扶手架的旋转调节方便,能消除固定式扶手架较大的耕作死角和转向困难的技术问题。 | ||||||
| 2 | 并行作业系统 | CN201580018288.8 | 2015-03-25 | CN106455480A | 2017-02-22 | 横山和寿; 中川涉 |
| 一种并行作业系统,能使有人行驶作业车辆优先进行作业,并使第一作业车辆(1)比第二作业车辆(100)在前行驶于后行程并作业,该并行作业系统通过优先进行前行程的作业的有人作业车辆(100)和进行后行程作业的无人的第一作业车辆(1)进行作业,在所述第一作业车辆(1)中具备利用卫星定位系统定位机体的位置,并使其沿着设定行驶路径(R)自动行驶的控制装置备成为行驶于斜后方的有人作业车辆的行进方向的目标的信标器(70R/70L)。(30),在行驶于斜前方的第一作业车辆(1)中具 | ||||||
| 3 | 微耕机减震转向机构 | CN201610501658.X | 2016-06-30 | CN105960872A | 2016-09-28 | 陈聪 |
| 本专利具体公开了微耕机减震转向机构,包括微耕机扶手、微耕机底座和扶手安装架,扶手架设置在微耕机扶手上,还包括液压减震机构,液压减震机构包括传动筒体和传动活塞柱,传动筒体与扶手架固定连接,传动活塞柱与微耕机底座固定连接;传动筒体上设置有供传动活塞柱插入并可做上下直线位移的腔体,传动活塞柱的外侧壁与腔体的内侧壁滑动连接;传动活塞柱的外侧壁与腔体的内侧壁通过滑槽的形式卡接配合、且卡接配合后传动活塞柱可沿腔体做上下直线位移;腔体内填充有液压油,传动活塞柱上设有用于密封液压油的活塞头。该方案具有结构简单,操作方便等诸多优点,给人们的使用带来了极大得便利性。 | ||||||
| 4 | 一种电驱动履带式割捆机 | CN201710001990.4 | 2017-01-03 | CN106717485A | 2017-05-31 | 倪圣道; 倪志明; 倪圣发 |
| 一种电驱动履带式割捆机,包括机架、发电机组、控制箱、履带总成、座位、割台、打捆装置、割台支架。机架尾部固定安装有发电机组;机架前端上方固定安装有控制箱;控制箱内的电机通过减速器连接下方的丝杆升降装置,丝杆升降装置下端丝杆部分通过螺纹连接割台支架上端的法兰,法兰通过螺栓与割台支架固定;割台支架上安装有割台;割台一侧安装有打捆机构;机架两侧对称安装有履带总成。发电机组通过电缆分别连接用于机器行进的发动机和用于收割作用的减速电机,将电力直接传输给电机驱动相关动作,改变了以往通过轴等结构进行机械传动。以电缆为媒介的电驱动比传统的传动轴传送,结构更为简单,摆脱了机械传动需要制作特定传动轴的局限性。 | ||||||
| 5 | 能升降调节的微耕机扶手架总成 | CN201510957017.0 | 2015-12-18 | CN105409372A | 2016-03-23 | 王显刚; 刘樑; 窦思勇 |
| 本发明公开了一种能升降调节的微耕机扶手架总成,包括支座、扶手架、调节拉索和插销装置,扶手架上还设置有圆弧形滑板,圆弧形滑板的圆心位于插销的轴心线上,插销的轴心线和支座与扶手架铰接轴的轴心线相交。其当需要调节扶手架的高度时,通过调节拉索拉动插销,使插销的端部从圆弧形滑板上的调节孔中缩回插销套筒,即可搬动扶手架绕其铰接轴转动,扶手架的高低调节方便,能适应不同身高操作者的使用;特别是本微耕机扶手架总成中的圆弧形滑板的圆心位于插销的轴心线上,所述插销的轴心线和支座与扶手架铰接轴的轴心线相交,使得调节拉索运动的阻力更小,插销能更准确的插入调节孔中,调节灵敏性更高。 | ||||||
| 6 | 微耕机扶手结构 | CN201510926921.5 | 2015-12-14 | CN105379463A | 2016-03-09 | 严华 |
| 本发明公开了一种微耕机扶手结构,包括扶手安装座和扶手架,在所述扶手安装座上水平设有旋转升降轴,该旋转升降轴的两端分别穿出所述扶手安装座,所述扶手架包括两根正对设置的扶手杆,两根所述扶手杆分别与所述旋转升降轴的伸出端铰接,两根所述扶手杆之间安装有连接板,在任一所述扶手杆上设有拉索按压把手,在任一所述扶手杆上铰接有拉索控制摇杆,在两根所述扶手杆之间安装有连接板,在该连接板上设有镂空滑槽,所述拉索控制摇杆向上穿出该镂空滑槽。采用以上结构,结构新颖,设计合理,便于实际生产情况的使用,推动微耕机十分省力,通过拉索连接后,便于操控微耕机的各个功能。 | ||||||
| 7 | 併走作業システム | JP2014135417 | 2014-06-30 | JP6339427B2 | 2018-06-06 | 横山 和寿; 中川 渉 |
| 8 | COORDINATED TRAVEL WORK SYSTEM | EP15772652.2 | 2015-03-25 | EP3127413A1 | 2017-02-08 | YOKOYAMA Kazuhisa; NAKAGAWA Wataru |
Provided is an accompanying traveling work system in which work is performed by a manned work vehicle (100) that performs pre-process work ahead, and an unmanned first work vehicle (1) that performs post-process work, so that the manned traveling work vehicle can work ahead, and the first work vehicle (1) can performs post-process work while traveling in front of the second work vehicle (100), wherein the first work vehicle (1) includes a control device (30) that positions a machine body, utilizing a satellite positioning system, and causes the first work vehicle to automatically travel along a set traveling route R, and the first work vehicle (1) traveling diagonally in front includes markers (70R, 70L), which are landmarks for an advancing direction of the manned work vehicle traveling diagonally behind. |
||||||
| 9 | Flotation for agricultural implements | US14992454 | 2016-01-11 | US09795073B2 | 2017-10-24 | Scott Scherman; Devin Lung |
| An agricultural implement has front flotation wheels with a significantly increased diameter, increasing flotation and improving rolling characteristics, especially in soft soil conditions. The implement has a frame supported on front and rear wheels. Front flotation wheels are pivotally mounted to the frame about vertical axes. A hitch tongue is pivotally attached to the frame about a vertical hitch pivot axis. A wheel control mechanism connects the front flotation wheels to the hitch tongue, and is configured such that when the hitch tongue is in a neutral position the front flotation wheels roll in the operating direction, and pivoting the hitch tongue causes the front flotation wheels to pivot in the same direction. | ||||||
| 10 | FLOTATION FOR AGRICULTURAL IMPLEMENTS | US14992454 | 2016-01-11 | US20160113190A1 | 2016-04-28 | Scott Scherman; Devin Lung |
| An agricultural implement has front flotation wheels with a significantly increased diameter, increasing flotation and improving rolling characteristics, especially in soft soil conditions. The implement has a frame supported on front and rear wheels. Front flotation wheels are pivotally mounted to the frame about vertical axes. A hitch tongue is pivotally attached to the frame about a vertical hitch pivot axis. A wheel control mechanism connects the front flotation wheels to the hitch tongue, and is configured such that when the hitch tongue is in a neutral position the front flotation wheels roll in the operating direction, and pivoting the hitch tongue causes the front flotation wheels to pivot in the same direction. | ||||||
| 11 | FLOTATION FOR AGRICULTURAL IMPLEMENTS | US14862733 | 2015-09-23 | US20160007521A1 | 2016-01-14 | Scott Scherman; Devin Lung |
| An agricultural implement has front flotation wheels with a significantly increased diameter, increasing flotation and improving rolling characteristics, especially in soft soil conditions. The implement has a frame supported on front and rear wheels. Front flotation wheels are pivotally mounted to the frame about vertical axes. A hitch tongue is pivotally attached to the frame about a vertical hitch pivot axis. A wheel control mechanism connects the front flotation wheels to the hitch tongue, and is configured such that when the hitch tongue is in a neutral position the front flotation wheels roll in the operating direction, and pivoting the hitch tongue causes the front flotation wheels to pivot in the same direction. | ||||||
| 12 | Mechanically coupled automatic guidance system for agricultural tractors | US579461 | 1990-09-10 | US5103924A | 1992-04-14 | Dean B. Walker |
| A simple and inexpensive, mechanically coupled automatic guidance system for tractors comprising a ground line sensor which is directly coupled to a steering system comprising limited, partial, spatial disengagement or play about a narrow steering angle within which the automatic guidance system provides steering control, unencumbered by the forces of the primary steering system, especially the steering forces of a power-steered-tractor. The play in the steering system provides spatial relief of steering forces which could not otherwise be overridden by a purely mechanical system. The ground line sensor comprises three degrees of freedom permitting adjustable variation to the shape, breadth, and attitude of the sensor to conformably match a previously prepared ground line. At least two movement degrees of freedom allow the sensor to horizontally and vertically follow ground line and tractor path anomalies while providing feedback to the automatic guidance system. A sensor attachment tongue vertical controller allows an operator to disengage the ground line sensor allowing alternate safe operation of the steering system without damage to the steering system or to the automatic guidance system. The limited range of the automatic steering angle provides for re-engagement of the primary steering system by turning the primary steering beyond the narrow automatic steering angle. Thus, when the automatic guidance system is disengaged from the ground line, the tractor is dirigible only by the primary steering system. | ||||||
| 13 | Tractor-mounted hitch | US35843953 | 1953-05-29 | US2762284A | 1956-09-11 | FRAGA FRANK M |
| 14 | Laterally shiftable, tractor mounted plow | US38026353 | 1953-09-15 | US2756658A | 1956-07-31 | DUNCAN DRUMMOND WILLIAM |
| 15 | Laterally shiftable tractor-mounted cultivator with fluid drive | US22555251 | 1951-05-10 | US2718836A | 1955-09-27 | PERTICS ELIAS P; PERTICS EMIL E |
| 16 | KOMBINATION AUS EINEM ZUGFAHRZEUG UND EINEM GERÄT | EP11761565.8 | 2011-09-21 | EP2621257B1 | 2017-06-14 | KORMANN, Georg; VOLLMAR, Uwe |
| 17 | KOMBINATION AUS EINEM ZUGFAHRZEUG UND EINEM GERÄT | EP11761565.8 | 2011-09-21 | EP2621257A1 | 2013-08-07 | KORMANN, Georg; VOLLMAR, Uwe |
| A combination is described of a tractor (10) and an implement (12) which is pulled by the tractor (10), by means of a draw bar (14) coupled to the tractor (10) so as to be pivotable about the vertical axis, is supported on the ground by wheels (28) and comprises a cultivating element (30) for cultivating a field (64). A control device (36) is used to activate a first actuator (40) with which the position of the draw bar (14) in relation to the implement (16) can be changed. The control device (36) activates the first actuator (40) in such a manner that the latter adjusts the draw bar (14) with the effect of moving the implement (16) towards an outside of a curve. | ||||||
| 18 | COORDINATED TRAVEL WORK SYSTEM | EP15772652 | 2015-03-25 | EP3127413A4 | 2018-01-10 | YOKOYAMA KAZUHISA; NAKAGAWA WATARU |
| Provided is an accompanying traveling work system in which work is performed by a manned work vehicle (100) that performs pre-process work ahead, and an unmanned first work vehicle (1) that performs post-process work, so that the manned traveling work vehicle can work ahead, and the first work vehicle (1) can performs post-process work while traveling in front of the second work vehicle (100), wherein the first work vehicle (1) includes a control device (30) that positions a machine body, utilizing a satellite positioning system, and causes the first work vehicle to automatically travel along a set traveling route R, and the first work vehicle (1) traveling diagonally in front includes markers (70R, 70L), which are landmarks for an advancing direction of the manned work vehicle traveling diagonally behind. | ||||||
| 19 | Precision weeding machine for row crops | EP94105913.1 | 1994-04-15 | EP0619937A1 | 1994-10-19 | Desmarais, Robert |
The machine includes a frame (2) adapted to move along spaced ridges (C) planted with crop plants (B), frame support runners engaging the furrows (D) between the ridges (C), transverse rows of weeding implements carried by the frame (2) for vertical movement from an inoperative to an operative position also transversely displaceable relative to the frame in opposite directions to closely run along the ridges (C) and furrows (D). The actuating rams (42,66) are controlled by an operator supported by the frame (2) in a position to have a direct view of the weeding implements. These weeding implements can be earth working discs (16) for mechanically loosening the earth and uprooting the weeds and for earth refilling. The distance between the implements can be adjusted in accordance with the distance between the ridges (C). |
||||||
| 20 | Flotation for Agricultural Implements | US13793214 | 2013-03-11 | US20130255974A1 | 2013-10-03 | Scott Scherman; Devin Lung |
| An agricultural implement has front flotation wheels with a significantly increased diameter, increasing flotation and improving rolling characteristics, especially in soft soil conditions. The implement has a frame supported on front and rear wheels. Front flotation wheels are pivotally mounted to the frame about vertical axes. A hitch tongue is pivotally attached to the frame about a vertical hitch pivot axis. A wheel control mechanism connects the front flotation wheels to the hitch tongue, and is configured such that when the hitch tongue is in a neutral position the front flotation wheels roll in the operating direction, and pivoting the hitch tongue causes the front flotation wheels to pivot in the same direction. | ||||||
QQ群二维码
意见反馈
意见反馈