| 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 | 一种可洒水大豆玉米播种机 | CN201510992620.2 | 2015-12-26 | CN106912223A | 2017-07-04 | 徐学贵 |
| 本发明公开了一种可洒水大豆玉米播种机,包括播种机座、加料斗、从动链轮和前机轮,所述播种机座一侧焊接有支撑架,所述播种机座上设置有飞轮,所述飞轮一侧固定连接有后机轮,所述飞轮通过皮带连接有从动链轮,所述从动链轮一侧固定连接有下料轮,所述播种机座上侧设置有加料斗,所述下料轮设置在加料斗的底部且加料斗直径大于下料轮直径,所述加料斗下侧设置有冲犁腿,所述冲犁腿下侧设置有冲犁,所述播种机座上设置有储水箱,所述储水箱上侧设置有加水口。该可洒水大豆玉米播种机,机体积小、价格低,使用方便,犁地播种一次完成,特别适用于小面积零星土地的大豆、玉米播种使用,而且能够实现一边播种一边洒水,提高了种子的发芽率。 | ||||||
| 2 | 带状耕作系统 | CN201480008149.2 | 2014-02-10 | CN105188339A | 2015-12-23 | G·帕斯基埃 |
| 带状耕作系统。所述带状耕作系统包括:至少一个带状耕作单元(13),所述带状耕作单元(13)包括支撑框架、安装在支撑框架(19)上的至少一个耕作构件(15)、安装在支撑框架(19)上的至少一个肥料输送装置(149);及控制系统(17),设置为调节肥料输送装置相对于支撑框架(19)的位置。另外还提供了用于带状耕作的方法。 | ||||||
| 3 | 具有多行播种元件的条播机 | CN201280009120.7 | 2012-02-20 | CN103476240A | 2013-12-25 | E·马斯奇奥 |
| 一种具有多行播种元件的条播机,包括至少两行(3,4)播种元件(5),每个均连接到各自的元件承载杆(9,10)上,杆(9,10)相互平行并间隔,并通过各自的杆支撑件被保持,杆(9,10)绕其自身轴线相对于杆支撑件被可旋转地支撑;杆(9,10)彼此旋转地连接,以使相对于支撑结构一个杆的旋转以相同方式传递到另一个杆。 | ||||||
| 4 | 一种可调节播种深度的播种腿 | CN201611006542.5 | 2016-11-16 | CN106717349A | 2017-05-31 | 毕杰 |
| 本发明公开了一种可调节播种深度的播种腿,包括:播种腿架、播种腿、调节板、限位孔、螺环孔、螺杆,所述的播种腿架上均匀的固定一排播种腿,且播种腿等高,所述的调节板上设有两个相同的限位孔,所述的调节板通过螺栓穿过限位孔与播种腿架的右端连接,且播种腿的左端链接有相同的调节板,所述的两个调节板的内侧分别连接一个螺环孔,所述的螺杆竖直穿过播种腿架和螺环孔并通过螺母固定,本发明具有使用方便、提高工作效率等优点。 | ||||||
| 5 | 用于基于种子的深度控制的传感器的播种装置 | CN201580024036.6 | 2015-05-08 | CN106572632A | 2017-04-19 | 欧雷·格林; 艾思科·马蒂凯宁; 索伦·托马森; 尼尔森·索伦柯克加德 |
| 装置涉及播种装置(100),所述播种装置包括:框架(2),沿预期移动方向看其包括前端部(4)和后端部(6);所述预期移动方向限定了所述装置的纵向方向(X);其中,所述框架具有沿横向方向(Y)的延伸,所述横向方向垂直于所述纵向方向(X);其中,所述框架包括一个或多个剪切滑架(8),所述剪切滑架每个具有第一端部(10)和第二端部(12);其中,所述一个或多个剪切滑架(8)在其第一端部枢转悬挂至所述框架上的悬挂部(14);其中,所述剪切滑架在其第二端部(12)包括适于至少局部浸入泥土(18)的一个或多个剪切部(16);其中,关于所述一个或多个剪切滑架(8)中的一个或多个,所述框架包括种子传送器件(20),用于在与所述一个或多个剪切部中的一个或多个对应的位置将种子传送进泥土;其中,关于所述一个或多个剪切滑架(8)的一个或多个,所述装置包括传感器(22),用于检测所述剪切滑架相关于所述框架的位置;所述传感器(22)构造为提供代表所述剪切滑架(8)的感测位置的输出信号;其中,关于所述一个或多个剪切滑架中的一个或多个,所述装置包括致动器(24),用于更改所述剪切滑架相关于所述框架的位置;其中,所述装置包括控制单元(26),其构造为从所述传感器接收所述输出信号;其中,所述控制单元构造为提供用于控制所述致动器的输出信号;其中,所述控制单元连接至输入设备(28),所述输入设备构造为基于所述传感器的所述输入信号允许操作员向所述控制单元提供涉及所述致动器的期望响应的指令。 | ||||||
| 6 | 自动保持播种深度恒定的谷物播种机 | CN201610275226.1 | 2016-04-29 | CN105850297A | 2016-08-17 | 刘朝霞; 刘长生; 刘秋生 |
| 自动保持播种深度恒定的谷物播种机,其特征是由若干个播种机架单元、施肥开沟器、播种圆盘开沟器、扶土器、播种器和地轮组成,播种机架单元水平方向和垂直方向上分别设置中间传动轴和竖向传动轴,平衡调节器通过机架右平衡调节杆、机架左平衡调节杆、中心左右浮动调节杆和纵向深度调节杆组成,机架右平衡调节杆和机架左平衡调节杆以中心左右浮动调节杆为中心根据地面的平整度时刻上下浮动调节机架的左右平衡度,纵向深度调节杆调节机架单元的总体播种深度。本发明播种机使机架单元距地面的高度恒定,这样播种种子的深度距地面的深度恒定,保证了种子的成活率和出芽时间的一致性。 | ||||||
| 7 | 一种气力式玉米精量免耕播种机 | CN201610201157.X | 2016-03-31 | CN105659994A | 2016-06-15 | 张东兴; 颜丙新; 杨丽; 崔涛; 张瑞; 李克鸿; 殷小伟 |
| 本发明属于农业机械技术领域,涉及一种气力式玉米精量免耕播种机,包括风机(1)、风机架(2)、肥箱(3)、三点悬挂机构(4)、主动防堵机构(7)、通用机架(8)、平行四连杆播种机构(9)、风压分配管(5)和限深机构(6);平行四连杆播种机构(9)还包括拉簧调节环(29)、挡块(37)、平行四连杆下限位机构(38);限深机构(6)包括限深机构安装板(46)、限深机构转轴(47)、弹簧固定销(48)、调节弹簧(49)、限深机构调节手柄(50)、限位板(51)、限深轮(52)、第一限深机构锥齿轮传动盒(17)和第二限深机构锥齿轮传动盒(56)。该播种机集主动防堵机构、气力式排种器、播种仿形于一体。 | ||||||
| 8 | 内部深さガイドを備えるダブルディスクプラウシェア | JP2016523276 | 2014-10-15 | JP2016533176A | 2016-10-27 | ベレンゼン,マーク; ベルガーファース,デニス; ゲベッケン,マーティン; ジェラーツ,マーセル; ゴッツェン,クリスチャン; ルーカス,トーマス; パエッセンス,クリスチャン; ウェリーズ,ディーター |
| 【解決手段】少なくとも1つのダブルディスクコールタ7、8と、1つの深さ制御輪9が空気圧送式高精度播種機のフレーム6上に配置される。この深さ制御輪9は走行方向から見て、2つのディスクコールタ7、8の間に配置され、2つのディスクコールタ7、8と深さ制御輪9とが同一方向に回転する。【選択図】図3 | ||||||
| 9 | Sowing spaced seeds equipment | JP5512197 | 1997-03-10 | JP2893174B2 | 1999-05-17 | YAJI YUKIO; ITO NOBUO; MOTOBAYASHI KOTA; NISHIWAKI KENTARO; MUJINASAWA SHINICHI; KUDO KAZUHIRO; TANAKA NAOYA |
| 10 | Hill seeding machine | JP5512197 | 1997-03-10 | JPH10248314A | 1998-09-22 | YAJI YUKIO; ITO NOBUO; MOTOBAYASHI KOTA; NISHIWAKI KENTARO; MUJINAZAWA SHINICHI; KUDO KAZUHIRO; TANAKA HISAYA |
| PROBLEM TO BE SOLVED: To obtain a hill seeding machine improving and stabilize budding and establishment and capable of precise hill seeding by moving a seed sucker to the accelerate-discharging position of seeds and accelerate-discharging the seeds to the fixed depth of soil in a specific condition to precisely seeding without receiving the influence of the hardness of soil. SOLUTION: The seed sucked 7 sucker and holds the seeds by a negative pressure generator 6 and an air cylinder 9 for stretching and contracting the sucker and the sucker 7 sucking and holding the seeds moves to the accelerate- discharging position of the seeds by an air cylinder 8 for rocking the sucker. In addition negative pressure is switched to positive pressure adjusted by a pressure control signal corresponding to the hardness of soil by a switching valve 3 to accelerate-discharge the seeds to position at the fixed depth of soil. In addition, this hill seeding machine gives a primary speed corresponding to the variation of the hardness of soil to each grain of the seeds so as to position the seed at about the 10mm depth of the soil. COPYRIGHT: (C)1998,JPO | ||||||
| 11 | 승용 이앙기용 수평제어장치 | KR1020010004276 | 2001-01-30 | KR1020020063689A | 2002-08-05 | 남병대; 천원기; 최덕순; 도현대 |
| PURPOSE: Provided is a horizontal control system for an elevation rice planting machine which keeps the height of a planting part constant in changing balance to execute exact planting work so that it improves workability and reliability remarkably. CONSTITUTION: The horizontal control system for the elevation rice planting machine comprises the parts of: a first hydraulic cylinder which is driven when working oil is supplied from a hydraulic pump connected to an engine; a first direction change valve which is placed between the hydraulic pump and the first hydraulic cylinder to control flow direction of working oil supplied into the first hydraulic cylinder; a hydraulic cylinder for elevation which is placed at a discharge passage to elevate a planting set; and a hydraulic cylinder for horizontal control which is connected to the hydraulic pump with keeping the planting set horizontal as the level of slide of road surface detected by a slide sensor to keep the planting height of rice seedlings constant. | ||||||
| 12 | 좌우 수평 및 전후 높이 연동 조절이 가능한 다기능 복합 직파기 | KR1020120025167 | 2012-03-12 | KR1020120103518A | 2012-09-19 | 김식 |
| PURPOSE: A multifunctional complex direct-sowing machine is provided to apply the machine to the agricultural land having various conditions including a dry paddy field, an ill-drained paddy field, and a paddy field. CONSTITUTION: A multifunctional complex direct-sowing machine comprises the following: a main body(111) towed by a tractor(10); a sowing module(131) sowing seeds and fertilizer on the ground; a hydraulic system(101) receiving driving force from the tractor, and controlling the flow of operation fluid for generating the hydraulic pressure; a main body driver(110) adjusting the horizontal location of the main body from the ground by the hydraulic pressure; a sowing height controller(130) adjusting the vertical ascending height of the sowing module from the ground using the hydraulic pressure; towing frames installed on both ends of tractor wheels; an ascending member(114) guided along to both pillars of the towing frames; hydraulic cylinder(116) for moving the ascending member; a screw covering the wheel marks of the tractor; and a harrow flattening the sowed surface on the ground. | ||||||
| 13 | 작업 차량 | KR1020160042751 | 2016-04-07 | KR1020160120244A | 2016-10-17 | 야마사키히토시; 카토사토시; 이즈미미츠타카; 카와카미슈헤이 |
| (과제) 티칭작업의개시위치를임의의위치로하고, 시비량의증감에적합한기준시비량을산출할수 있는작업차량을제공한다. (해결수단) 주행차체(2)에시비장치(100)와포장정보를검지하는포장정보검지부재를설치하고, 설정된작업범위내에서검지된제 1 포장정보에의거하여기준시비량을산출하는티칭기능을구비하는제어장치(210)를설치하고, 기준시비량과기준시비량이산출된후에검출된제 2 포장정보로부터시비장치(100)로시비하는시비량을산출하는구성으로한 작업차량에있어서, 티칭기능을작동가능상태와작동규제상태로스위칭조작하는티칭조작부를형성하고, 티칭조작부는티칭기능이작동하는타이밍을자동으로설정하는제 1 티칭조작부(820)와, 수동으로설정하는제 2 티칭조작부(840)로구성한다. | ||||||
| 14 | 좌우 수평 및 전후 높이 연동 조절이 가능한 다기능 복합 직파기 | KR1020120025167 | 2012-03-12 | KR101255151B1 | 2013-04-22 | 김식 |
| 건답, 습답, 무논을 비롯한 여러 작업 환경에 적용 가능하도록 지면으로부터 설정된 높이 상에서 파종을 실시할 수 있는 좌우 수평 및 전후 높이 연동 조절이 가능한 다기능 복합 직파기에 관하여 개시한다.
본 발명의 일실시예에 따르면 트랙터에 견인되는 본체와, 상기 본체의 후단에 연결되어 종자와 비료를 지면으로 파종하는 파종 모듈을 포함하는 다기능 복합 직파기에 있어서, 트랙터로부터 구동력을 인가 받아 작동 유체의 유동을 제어하여 유압을 발생시키는 유압 시스템; 상기 유압 시스템으로부터 전달된 유압에 의해 지면으로부터 상기 본체의 수평 위치를 조절하는 본체 구동 수단; 및 상기 유압 시스템으로부터 전달된 유압에 의해 지면으로부터 상기 파종 모듈의 상하방향 승강 높이를 조절하는 파종 높이 조절 수단;를 포함하되, 상기 본체 구동 수단은, 트랙터 바퀴의 폭 방향 양단에서 수직방향으로 설치되는 견인틀; 상기 견인틀의 양단 지주를 따라 안내되어 승강하는 승강부재; 및 상기 견인틀에 인접하여 배치되며, 상기 유압 시스템으로부터 전달된 유압에 의해 상기 승강부재를 이동시키는 본체 구동용 유압실린더로 구성됨을 더 포함하며, 상기 파종 높이 조절 수단은, 상기 본체의 후단으로부터 상기 파종 모듈이 승강 작동되도록 복수의 링크 부재 및 스프링으로 구성된 가이드 부재; 및 상기 파종 모듈이 상기 가이드 부재를 따라 승강 조절되도록 상기 유압 시스템으로부터 유압을 도입 받아 전후 방향으로 신축 구동하는 파종 높이 조절용 유압실린더로 구성됨을 더 포함하는 좌우 수평 및 전후 높이 연동 조절이 가능한 다기능 복합 직파기를 제공한다. |
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| 15 | SEED DRILL | PCT/EP0212116 | 2002-10-30 | WO03037064A3 | 2003-09-25 | DREYER HEINZ |
| The invention relates to a seed drill for carrying out a direct sowing process and/or a mulch sowing process. Said seed drill comprises a frame (1) on which sowing ploughs, preferably embodied as chisel-type sowing ploughs (8), are adjacently arranged in a plurality of transversal rows, in such a way that they can be moved in vertical planes. Ground processing elements embodied as freely rotating discs (15) are arranged in front of the first transversal row in at least one transversal row. The aim of the invention is to provide a seed drill and a process for direct sowing or mulch sowing, which enable a weed killing process to be simultaneously carried out. To this end, the discs (15) are arranged on the frame in at least two transversal rows in such a way that they can be moved in vertical planes, and are arranged in an almost vertical manner and inclined in relation to straight lines extending in the direction of travel. | ||||||
| 16 | MULTI-FUNCTIONAL COMPLEX DIRECT SEEDER HAVING INTERLOCKINGLY ADJUSTABLE LEFT AND RIGHT HORIZONTALITY AND FRONT AND REAR HEIGHTS | PCT/KR2012001792 | 2012-03-12 | WO2012121576A2 | 2012-09-13 | KIM SIK |
| The present invention relates to a multi-functional complex direct seeder having interlockingly adjustable left and right horizontality and front and rear heights, which performs seeding at a preset height from the ground so that the multi-functional complex direct seeder is applicable for various working environments such as a dry paddy, a wet paddy, a rice field, and the like. According to the present invention, the multi-functional complex direct seeder includes: a main body towed by a tractor; and a seeding module connected to a rear end of the main body to seed seeds and spread fertilizer on the ground. Also, the multi-functional complex direct seeder includes: a hydraulic system receiving a driving force from the tractor to control a flow of a working fluid, thereby generating an oil pressure; a main body driving unit for adjusting a horizontal position of the main body from the ground by the oil pressure transmitted from the hydraulic system; and a seeding height adjustment unit for adjusting a vertical elevation height of the seeding module from the ground by the oil pressure transmitted from the hydraulic system. | ||||||
| 17 | APPARATUS FOR PLANTER DEPTH MONITORING | PCT/US2007015743 | 2007-07-11 | WO2008008345A3 | 2008-03-13 | MARTIN HOWARD D |
| A seed planting assembly comprising a laterally extending support member and a planting unit including a planting frame supported by said support member. Said planting unit frame carries, a seed trench opening assembly operable to create a seed trench in a ground surface, a depth regulating member having a vertical position relative to said seed trench opening assembly, wherein said depth regulating member responds to forces upon said planting unit to control ground surface engagement, an arm assembly connecting said depth regulating member to said planting unit frame with a depth monitoring means for indicating whether said depth regulating member is fully engaged with said ground surface wherein said depth monitoring means indicates whether said arm assembly is engaged with said stop means. | ||||||
| 18 | APPARATUSES, METHODS, AND SYSTEMS FOR PROVIDING DOWN FORCE FOR AN AGRICULTURAL IMPLEMENT | PCT/US2015022018 | 2015-03-23 | WO2015143433A3 | 2015-11-12 | ACHEN COURTNEY N; BACHMAN MARVIN; SCHILDROTH RHETT; ROLFFS MERLAN; MYERS MICHAEL J; KOLLMAN JOHN; MULHERIN JOHN P |
| An agricultural planter (10) includes systems, methods, and apparatus for providing down force pressure at row units (34, 40) of the planter (10). The row units (34, 40) include an electric linear actuator (49) connected to linkages of the row units (34, 40) to provide and maintain a down force pressure for the row unit (34, 40). The linkage (42) may also be removed and replaced with a strut (73) or like mechanism to apply a direct down force pressure to components of the row unit (34, 40). One or more sensors (62) can be included to obtain information related to the ground to automatically adjust the amount of down force provided based upon a ground characteristic in order to maintain a substantially uniform furrow depth. | ||||||
| 19 | ADJUSTABLE ROW CLEANER | PCT/US2009046661 | 2009-06-08 | WO2009149473A3 | 2010-04-15 | MARTIN R STEVEN |
| An adjustable row cleaner includes a row cleaner assembly that functions to clear material from the ground surface. The adjustable row cleaner includes, in one embodiment, a connector that is in mechanical communication with both a row cleaner frame, to which row cleaner wheels may be pivotally mounted, and a first end of a translator member. The translator member may pivot with respect to the row unit frame and/or row unit sub-frame about a translator member pivot. The position of a translator member second end may be manipulated, thereby adjusting the maximum depth to which the row cleaner wheels penetrate the ground surface. The adjustable row cleaner may be powered or manually adjusted, and the position of the row cleaner wheels may be monitored and automatically adjusted via a control system. | ||||||
| 20 | METHOD FOR PLANTER DEPTH MONITORING | PCT/US2007015745 | 2007-07-11 | WO2008008347A3 | 2008-03-27 | MARTIN HOWARD D |
| An improved method of monitoring penetration of a planting unit into a ground surface comprising engaging a planting unit with a ground surface wherein the planting unit has a planting unit frame and the planting unit frame is cooperatively engaged with a support member by a planting frame and wherein the planting unit comprises, a seed trench opening assembly operable to create a seed trench in a ground surface, a depth regulating member having a vertical position relative to the seed trench opening assembly and monitoring penetration of the furrow forming structure into the ground surface. | ||||||
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