| 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 | 微耕机阻力装置 | CN201710435410.2 | 2017-06-11 | CN107018679A | 2017-08-08 | 车大强 |
| 一种微耕机阻力装置,包括机架、片形轮、配重箱,所述片形轮通过安装座与机架联接,所述配重箱设置于片形轮上侧的机架上,所述片形轮是多边形轮缘,多边形轮缘的边是朝向内侧凸起的弧形边。一种实施例是,还包括一个设于安装座上的可限制片形轮的轮缘部左右侧偏的限位装置,所述限位装置包括两对限位头。本发明的片形轮两个弧形边的交点自然构成防滑齿,避免了原防滑齿易磨损的问题,既可防缠草,又增加了压草入泥的作用,碾压后防滑齿不挂草,不会带草出泥。安装座可前后调节,达到调节耕作深度以及适应不同类型秸秆压草入泥的需要。其防缠草效果好,比杆状阻力器的微耕机作业效率提高30‑40%,整机稳定性好,振动小,操作轻松。 | ||||||
| 2 | 土壤处理方法 | CN03826242.8 | 2003-09-19 | CN1829436A | 2006-09-06 | 谷脇宪; 小林有一; 饭岛渡; 山下正照; 小谷一 |
| 本发明的土壤处理方法是一种将微波发射器潜入土壤中且从微波处理器向作为处理对象的土壤发射微波的土壤处理方法。作为将微波发射器潜入土壤中的方法可以采用由与凿形中耕铲或心土铲相同的潜行爪结构一边使农作业机行进一边使内藏有微波发射器的潜行体潜行的方法、由动力臂时而垂直插入土壤中时而拉出的方法、利用各种垂直挖掘装置时而垂直插入土壤中时而拉出的方法。根据本发明,即使针对对农田表面照射微波难以施加影响到深层土壤区域,也可以有效地受微波影响。从而能够期待诸如作物生长调整、发芽期调整、土壤消毒、土壤改良之类的农业上有益作用。 | ||||||
| 3 | 与筑埂机连接的密实度把控组件 | CN201610209254.3 | 2016-04-05 | CN107290500A | 2017-10-24 | 刘君华 |
| 与筑埂机连接的密实度把控组件,包括一个机架(1),机架(1)上部设置主杆架装置(2)内设中控装置(3)、无线数据模块(4),杆体右侧设置探测结构包括伸缩筒装置(5)、助推装置(6)、长形探测装置(7)贯穿梯形框架,运行时针对成型埂进行定时检测,检测数据传至中控装置(3)分析,根据埂实度、抗压性、通透性等相关参数调整筑埂强度;设置提示装置(8),若成型埂相关指标未达所需筑埂需求则发出提示信息;梯形框架内侧设有抗压感应装置(9);主杆架装置(2)两侧设置连接装置(10);针对筑埂作业实行定时检测,确保成型埂的密实度,调节便捷,科技含量高,适用于水田等筑埂需求,经济实用。 | ||||||
| 4 | 农业土壤耕种处理系统 | CN201510972824.X | 2015-12-23 | CN106900179A | 2017-06-30 | 陈巧利 |
| 本发明涉及一种农业土壤耕种处理系统,包括底部支撑机构,底部支撑机构上部安装有混合容器,混合容器上部左右两侧分别连接有下料容器和进料管,下料容器上部连接有搅拌容器,搅拌容器上部左右两侧均连接有进料容器,混合容器右侧连接有提升容器,提升容器右侧上部连接有出料管,出料管右侧连接有出料容器;搅拌容器上部中间位置安装有上动力机构,上动力机构下部连接有旋转机构,底部支撑机构上部左侧安装有左动力机构,左动力机构右侧连接有左动力机构轴,提升容器上部安装有右动力机构。该发明系统能有效地针对农业耕种土壤进行提升,并方便加入物料予以混合提升,方便农业耕种。 | ||||||
| 5 | 省力垄埂器 | CN201610338000.1 | 2016-05-23 | CN105814985A | 2016-08-03 | 赵鹏耀; 乔永超 |
| 本发明涉及农业机械技术领域,名称是省力起垄器,包括框体,在框体下面是起垄板,起垄板包括两侧下面向外倾斜的侧面板和上面的顶面板,起垄板前面是扩展口形结构,所述的侧面板是第一弧形板,第一弧形板在框体前面和后面向外设置,第一弧形板下面向外设置,所述的顶面板是两端向上翘起的第二弧形板,这样垄埂器具有使用时阻力小、有利于省力的优点。 | ||||||
| 6 | 农业耕种土壤处理系统 | CN201510972345.8 | 2015-12-22 | CN106900178A | 2017-06-30 | 欧茜 |
| 本发明涉及一种农业耕种土壤处理系统,包括土壤供给器,土壤供给器右侧连接有提升容器,提升容器右侧上部连接有供料管;提升容器左侧上部连接有动力机构支架,动力机构支架上部安装有动力机构,提升容器中间位置安装有旋转机构支柱,旋转机构支柱上下部分别安装有上旋转机构和下旋转机构;提升容器右侧安装有出料容器,出料容器下部安装有多个出料管,出料容器上部左侧安装有升降控制机构,升降控制机构上部连接有液压伸缩柱,出料容器上部右侧安装有右铰链柱,上铰链柱和右铰链柱上铰链连接有分离机构。该发明系统能有效地针对农业耕种土壤进行提升,然后予以平整处理,便于调节高度,改善了农业耕种效果。 | ||||||
| 7 | 农业耕种物料提升平铺系统 | CN201510972343.9 | 2015-12-22 | CN106900177A | 2017-06-30 | 欧茜 |
| 本发明涉及一种农业耕种物料提升平铺系统,包括底座容器,底座容器上部安装有下料板,下料板上部安装有搅拌容器,搅拌容器上部连接有多个进料容器,搅拌容器左侧连接有提升容器,提升容器左侧上部连接有出料管,出料管下部连接有下料容器,下料容器下部连接有出料容器;提升容器右侧上部连接有承载机构,承载机构上部安装有上动力机构,提升容器中间位置安装有旋转机构支柱,旋转机构支柱上下部分别安装有上旋转机构和下旋转机构。该发明系统能有效地针对农业耕种物料进行混合提升,便于提升后进行平铺,改善了农业耕种物料提升平铺效果,方便农业耕种使用。 | ||||||
| 8 | 冲击式松耕装置 | CN201611092217.5 | 2016-11-30 | CN106612645A | 2017-05-10 | 彭涌淦; 袁靖昆; 彭世勋; 彭进先; 彭杰勋 |
| 本发明公开了一种冲击式松耕装置,包括机架、高压供气装置和松土轮;松土轮包括轮毂和固定于轮毂的多个针状喷头;机架上固定有用于安装轮毂的轮轴;所述轮轴和轮毂内设有导气孔使高压供气装置通过导气孔依次与旋转至轮轴正下方的针状喷头相通;本发明的冲击式松耕装置,利用高压气流的冲击作用实现土壤深层的耕松,在促进土壤中的水、肥、气、热相互协调的同时避免造成壤过于粉碎,保证土壤表层的稳固性,便于机械耕作,提高抗水土流失以及抗倒伏能力。 | ||||||
| 9 | 一种带犁耙的烟草栽培机动车 | CN201610650320.0 | 2016-08-10 | CN106258046A | 2017-01-04 | 陈泽鹏 |
| 本发明涉及车辆的技术领域,更具体地,涉及一种带犁耙的烟草栽培机动车。一种带犁耙的烟草栽培机动车,包括上部的手柄、与手柄连接的转向杆、与转向杆下端连接的装于车身内的驱动装置、车身两边与驱动装置连接的俩个车轮和相应的电控装置,其特征在于:所述驱动装置包括转向机构、左驱动电机、右驱动电机、左输出轴和右输出轴,转向机构输入端与转向杆连接控制车轮转向,其中央控制主板输入端与方向传感器连接连接,中央控制主板输出端与左/右驱动电机连接、左/右驱动电机通过左/右输出轴与左/右车轮连接;右/左驱动电机通过右/左输出轴与右/左车轮连接。本发明可动态自平衡行走,结构简单、制造容易、价格较低。 | ||||||
| 10 | 一种偏心可调的秧田制浆机构 | CN201610111538.9 | 2016-02-29 | CN105532303A | 2016-05-04 | 张翔; 洪瑛杰; 罗龙和; 任金波; 施火结 |
| 本发明公开了一种偏心可调的秧田制浆机构,包括机座、动力机构、制浆部件、浇浆机构和传动机构,机座以行走轮支撑于地面移动,制浆部件以连接架与机座铰接;制浆部件设有跳跃装置,其包括带可调位置的偏心块的从动轮,制浆部件以带滤筛的支架立于地面;浇浆机构包括泥浆泵,泥浆泵与制浆部件的滤筛相连;动力机构固定于机座处,动力机构包括发动机和变速箱,经传动机构驱动制浆部件的跳跃装置和浇浆机构的泥浆泵;制浆时,制浆部件的连接架绕机座上下摆动,当连接架上摆时,制浆部件跃离地面,当连接架下摆时,制浆部件以自重碎土并滤取泥浆;泥浆泵吸取滤筛内的泥浆并浇灌秧盘;本发明能以机械化方式完成泥浆育秧法的泥浆制备、浇灌作业。 | ||||||
| 11 | 土壤处理方法和装置 | CN03826242.8 | 2003-09-19 | CN100418416C | 2008-09-17 | 谷脇宪; 小林有一; 饭岛渡; 山下正照; 小谷一 |
| 本发明的土壤处理方法是一种将微波发射器潜入土壤中且从微波处理器向作为处理对象的土壤发射微波的土壤处理方法。作为将微波发射器潜入土壤中的方法可以采用由与凿形中耕铲或心土铲相同的潜行爪结构一边使农作业机行进一边使内藏有微波发射器的潜行体潜行的方法、由动力臂时而垂直插入土壤中时而拉出的方法、利用各种垂直挖掘装置时而垂直插入土壤中时而拉出的方法。根据本发明,即使针对对农田表面照射微波难以施加影响到深层土壤区域,也可以有效地受微波彩响。从而能够期待诸如作物生长调整、发芽期调整、土壤消毒、土壤改良之类的农业上有益作用。 | ||||||
| 12 | 畦塗り機 | JP2014166353 | 2014-08-19 | JP2014209926A | 2014-11-13 | KOBASHI KENJI; YASUKURA TOSHIYUKI |
| 【課題】土盛体により切削されて元畦箇所に供給された畦塗り用の泥土を、回転しながら元畦に塗りつけて、元畦を修復するドラム状の整畦体を改良する。【解決手段】本発明は、元畦を修復する整畦体を備える畦塗り機であって、前記整畦体における側面修復体は、回転軸を中心として周方向に等間隔に配設された複数の整畦板を相互に連結して構成され、前記複数の整畦板の基端部は、前記回転軸を中心とする取付け基部に取付けられ、隣接する2つの整畦板の境界部分において、一方の整畦板の側縁の長さと他方の整畦板の側縁の長さが異なることを特徴とする。前記隣接する2つの整畦板の境界部分では、回転方向後側の整畦板における前記側縁の長さの方が短くてもよい。【選択図】図8 | ||||||
| 13 | Self-propelling type air soil conditioner | JP27994985 | 1985-12-12 | JPS62138103A | 1987-06-20 | KOBASHI TERUHISA; KOBASHI ICHIRO; IWAI MASANORI |
| 14 | Triple-rake levelling machine | EP03076912.9 | 2003-06-19 | EP1380199A1 | 2004-01-14 | Carboni, Renzo |
A levelling machine with oscillating combs supported by a frame fixed to a power cultivator, the rear power take-off of which drives the combs, comprises a series of connecting rods (10) and rocker arms (11) supported by the frame in such a manner as to oscillate in the horizontal plane, three parallel combs or rakes (102, 112, 122), of which one (102) is supported at the end of the connecting rods and two (112, 122) are supported at the opposite ends of the rocker arms, and means for oscillating said connecting rods and said rocker arms, the movement being transmitted to each of the two combs (102, 122) oscillating in phase by a crank mechanism (51) of the connecting rod-crank type, the two cranks (511, 512) being connected in phase opposition to the same shaft (5). |
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| 15 | Vorrichtung zur Bodenbearbeitung | EP87103658.8 | 1987-03-13 | EP0246409A1 | 1987-11-25 | Stockreiter, Helmut |
Die Erfindung bezieht sich auf eine Vorrichtung zur Bodenbearbeitung mit einem Druckerzeuger 3 zur Lieferung von Druckluft oder dgl. unter Druck stehenden Medien und mit einem Vorratsbehälter 2 für flüssige Bodenverbesserungsmittel. Der Druckerzeuger 3 und der Vorratsbehälter 2 sind zum Einbringen der Druckluft bzw. des Bodenverbesserungsmittels in das Erdreich mit einem vorzugsweise lanzenförmig gestalteten Bodenbearbeitungswerkzeug 7 verbindbar. Um mit baulich einfachen, weitgehend verschließfrei arbeitenden Mitteln eine intensive Vermischung des in den Vorratsbehälter eingefüllten Mediums erreichen zu können, ist im Vorratsbehälter 2 eine Blasöffnungen 11 aufweisende, an den Druckerzeuger anschließbare Druckleitung 12 vorgesehen (Fig. 2). |
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| 16 | Cultivating implement | EP80302924.8 | 1980-08-22 | EP0024901A1 | 1981-03-11 | Riach, Allan |
A cultivating implement to be carried by a vehicle comprises a frame (10) having spaced and opposed members (11, 12) between which a tine-carrying bar (13) is supported for gyratory motion the direction of which is counter to the direction of movement of the carrying vehicle and which derives from and is centred on the axis of axially-aligned stub shafts (14, 15) adapted to be driven from a prime mover and supported in bearings mounted in or on said opposed members of the frame. Preferably the mutually-opposed ends of the stub shafts (14, 15) are cranked in mirror-image fashion and the tine-carrying bar (13) is supported between bearing arrangements (28,29) centred on the crank arms. The angle of presentation of the tines to the ground is preferably selectable to accord with the nature of the work to be done and the tine sweeps or shovels to be used therefor. |
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| 17 | Construction Machine Or Agricultural Machine Having A Rotating Work Device And Method For Driving The Rotating Work Device | US13714642 | 2012-12-14 | US20130154339A1 | 2013-06-20 | Thomas Darscheid; Marco Reuter |
| A self-propelled or stationary construction machine or agricultural machine is provided having a rotatable work device, in particular, a work device for processing soil surfaces or for chopping material. The machine has a drive device for the work device, the drive device having a first drive source and a switchable coupling unit between the first drive source and the work device for engaging the work device with the first drive source. The drive device is equipped with an additional drive unit, the machine being configured for controlling the drive device to accelerate the work device by means of the additional drive unit to an operating speed which would result during operation of the work device by means of the first drive source. In addition, an associated method for driving a work device of a construction or agricultural machine is disclosed. | ||||||
| 18 | Soil processing method | US10551264 | 2003-09-19 | US20060283364A1 | 2006-12-21 | Ken Taniwaki; Yuichi Kobayashi; Wataru Iijima; Masateru Yamashita; Hajime Odani |
| In a soil processing method of the present invention, a microwave radiator is made to move into soil, and microwaves are thereafter radiated from the microwave radiator to soil to be processed. As a method for making the microwave radiator move into soil, a method in which an underground mover incorporating the microwave radiator is made to move underground while making a cultivator move underground by means of a underground-moving claw mechanism similar to a chisel or subsoiler, a method in which the microwave radiator is vertically thrust into and drawn out from soil by a power arm, or a method in which the microwave radiator is vertically thrust into and drawn out from soil by using one of various vertical excavation devices may be used. According to the present invention, the influence of microwaves on soil in a deep region not easily influenced by microwave radiation to a farm surface can be effectively improved to ensure that various functions useful in agriculture, e.g., the function of adjusting the growth of a plant, the function of adjusting germination time, the function of sterilizing soil and the function of remedying soil can be expected. | ||||||
| 19 | Method of and device for loosening agriculturally used soil | US445661 | 1982-11-30 | US4429647A | 1984-02-07 | Eugen Zinck |
| A method of and device for loosening agriculturally used soil, especially for loosening in depth compacted agriculturally used soil, according to which a current of compressed air is introduced into the soil to be loosened and is released in or below a minimum depth of loosening thereby breaking-up the soil by the freed and following compressed air. The device for practicing the above outlined method includes primarily a probe adapted into the soil to be loosened. This probe has associated therewith a compressed air conveying conduit. The probe is within the region of its end provided with at least one air outlet. | ||||||
| 20 | Ploughs | US39552673 | 1973-09-10 | US3920077A | 1975-11-18 | VAN DER LELY CORNELIUS |
| A plough has forward soil-loosening means, soil-elevating elements and a soil-crumbling mechanism mounted under a screen. The plough has a beamed frame and side plates between which the elements and crumbling mechanism are rotatably mounted. A forward coupling assembly includes two arched beams that can be interconnected at several spaced apart points so that the plow can be placed at various locations behind a prime mover. The power take off is in driving engagement with the elements and crumbling mechanism. The soil-loosening means can be forwardly extending tines that are bolted in holders with the latter being pivotably mounted and spring biased to operative positions. The front of the plough rests on ground wheels with means to adjust the working level of the tines or other loosening means.
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