子分类:
| 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 | 一种手扶式播种机 | CN201510992897.5 | 2015-12-26 | CN106912219A | 2017-07-04 | 徐学贵 |
| 本发明公开了一种手扶式播种机,包括机架和用于推动播种机的扶手,其特征在于,所述机架上侧设有盛放种子的料斗,所述料斗上设有用于控制种子流量的调控开关,所述料斗下侧设有贯穿机架的管道,所述管道插入固定在机架下侧的播种装置,所述扶手通过螺帽固定安装在机架上。该手扶式播种机操作简单,功能齐全,能够很好的实现小面积作业,而且设计合理,实用性较强。 | ||||||
| 2 | 自走龙门式矮化密植枣园施肥机 | CN201610298286.5 | 2016-05-09 | CN105900580A | 2016-08-31 | 王旭峰; 鲁兵; 胡灿; 牛瑞坤; 张攀峰; 李俊宝 |
| 本发明公开了一种自走龙门式矮化密植枣园施肥机,包括转向装置、液压装置、升降装置、传动装置、施肥装置、机架、驾驶座椅、动力轮、转向轮、电池组,所述液压装置由液压控制阀总成、液压油箱、液压泵、行走液压马达组成;升降装置由升降平台、升降油缸组成,升降油缸一端通过螺栓连接在机架上,升降油缸的另一端与升降平台通过螺栓连接在一起;施肥装置的肥料斗装在机架后方,喂料液压马达通过螺栓连接在肥料斗的侧边并且喂料液压马达的输出轴与双向搅龙的转轴通过联轴器相连,开沟铲铰接在机架上并且位于肥料斗下方,覆土铲通过螺栓连接固定在开沟铲铲柄后方,开沟铲转动油缸一端铰接在机架上,另一端与开沟铲铲柄末端铰接在一起。 | ||||||
| 3 | 组合式工厂化育秧机 | CN201710847019.3 | 2017-09-19 | CN107484476A | 2017-12-19 | 陈勇 |
| 本发明公开了组合式工厂化育秧机,包括有铺土装置、播种装置和覆土装置三个部分,铺土装置、播种装置和覆土装置的机架上分别架设有输送滚轮,输送滚轮上方架设有料斗,铺土装置的装土料斗下方的出料口处设有沿输送方向运行的循环输送运土皮带,装土料斗后方的机架上架设有刮板,刮板后方的机架上架设有滚刷,滚刷后方的机架上架设有洒水装置;播种装置的种子料斗的出料口处安装有播种机构;覆土装置的盛土料斗的进料口安装有筛网,筛网下方设有倾斜的导板,导板的出料口处设有阀门。本发明的三个部分可独立工作,也可组合工作,当组合工作时,可以自动完成铺土、洒水、播种和覆土工作,当独立工作时,可完成单项任务。 | ||||||
| 4 | 一种防缠绕开沟器 | CN201710356164.1 | 2017-05-19 | CN106993415A | 2017-08-01 | 丁纯一; 丁群 |
| 本发明公开了一种防缠绕开沟器,包括开沟器主体,所述开沟器主体包括设置器杆,所述器杆底部设置有开沟器,开沟器最前端设置有开沟入土尖;所述开沟器的上方设置有防缠转管,防缠转管与器杆平行,防缠转管位于器杆前端,所述开沟器的上方设置有并列的两个下种管;下种管正下方设置有分种器;所述分种器两侧均设置有侧板,两个侧板对称设置。本发明结构简单,设计合理,分种器两侧的护板后端设计成后收式,下端为圆弧过渡。这样设计侧板既能覆土掩种,又不会因覆土过多而打拥。分种器与开沟器杆的夹角不大于30°,这样设计可以避免黏土落在分种器上因角度陡,而不会粘在分种器上,杜绝了堵种现象发生。 | ||||||
| 5 | 一种农田攻土用螺旋机构 | CN201610167396.8 | 2016-03-23 | CN105794359A | 2016-07-27 | 朱德仲 |
| 本发明公开了一种农田攻土用螺旋机构,包括攻土杆,攻土杆为杆状结构,攻土杆的端部设有连接管,连接管的端部设有螺旋柱,螺旋柱的外表面设有螺旋槽,攻土杆套装有套管,套管与攻土杆通过固定销连接。本发明可以将该螺旋机构与攻土机对接,通过该螺旋机构可以方便在农田上实现攻土处理,方便了农田的对农作物的播种,播种效率大大提高。 | ||||||
| 6 | 用于沙田柚的施肥装置 | CN201510953414.0 | 2015-12-20 | CN105409389A | 2016-03-23 | 陈世远 |
| 本发明申请公开了一种用于沙田柚的施肥装置,包括肥料斗、土料斗、上支撑板、下支撑板、掘土钻、千斤顶和汽油机,所述肥料斗、掘土钻、土料斗、汽油机分别安装在上支撑板上,所述土料斗出料口处设置有出料阀,所述掘土钻由汽油机驱动,其特征在于,所述掘土钻呈锥状,且掘土钻内设有储料腔,掘土钻上设有与储料腔连通的进料通道,所述掘土钻的表面设有若干与储料腔连通的出料口,肥料斗的出料口通过进料管和旋转接头与进料通道连通;所述下支撑板位于上支撑板的下方,所述上支撑板与下支撑板之间通过千斤顶连接,所述土料斗的出料口滑动安装在下支撑板上,所述下支撑板上设置行走轮和支撑座。该施肥装置能使肥料更分散,从而使沙田柚的根部能更快吸收肥料的养分。 | ||||||
| 7 | 一种农用施肥装置 | CN201510903593.7 | 2015-12-06 | CN106817999A | 2017-06-13 | 江舟 |
| 本发明公开了一种农用施肥装置,包括机架、扶手、车轮、肥料箱和犁头,所述肥料箱固定安装在机架上,所述机架左侧固定安装有扶手支架,所述扶手与扶手支架固定连接,所述肥料管通过机架固定安装在肥料箱底端,且所述肥料管下端固定安装有犁头,所述滚动轴承贯穿机架与机架固定连接,且所述固定轴承贯穿车轮,所述车轮设有多个辐条,所述牵引架通过固定螺栓固定安装在机架上。该农用施肥装置,可开沟,使肥料的有效性大大提高,可调节施肥的量,使用灵活方便,便于小规模家庭作业,大大减轻施肥的劳动量,提高播种的效率,且结构简单、价格低廉、设计合理、环保和易于推广使用。 | ||||||
| 8 | 一种农业自动播种机 | CN201510789991.0 | 2015-11-14 | CN106688382A | 2017-05-24 | 于涛 |
| 本发明公开了一种农业自动播种机,包括机体、机架和操作台,所述机体与操作台为一个整体,所述机架设置在机体上,所述机架上设置有动力装置,所述动力装置上安装有动力转盘,所述动力转盘通过皮带连接动力输入转盘,所述动力输入转盘由机体内部转轴连接动力输出行走轮,所述动力输出行走轮表面设置有防滑钉,所述机体顶面设置有变速箱,所述机体左侧设置有控制器,所述操作台底面设置有两个固定架,所述固定架固定于行走中心的轮转盘处,所述操作台侧边设置有漏斗,该新型播种机动力装置设置在机架上,增加了动力装置的使用寿命,设置机械连杆装置,农用机械播种可方便地通过沟渠,设置漏斗减少了劳动。 | ||||||
| 9 | 一种变距双行开沟机 | CN201610567755.9 | 2016-07-19 | CN105993345A | 2016-10-12 | 李武德; 蓝庆德; 韦烽 |
| 一种变距双行开沟机,包括机架和左右对称的开沟犁模块,特征是安装所述开沟犁模块的活动座通过两个等长的连杆与所述机架上的固定座活动连接,所述活动座上两个销轴中心和所述固定座上两个销轴中心的封闭连线为平行四边形,所述两个等长的连杆中至少一个连杆上与机架之间安装有可变长度的支撑杆,所述活动座和开沟犁模块可在水平方向摆动,将所述支撑杆的长度固定即可固定开沟犁模块的左右位置,改变支撑杆的长度即可改变左右开沟犁模块的距离。本发明的有益效果是能实现双行开沟机在一定范围内行距可调,即可根据农作物生长的大小不一或种植行距不同,方便调整成为不同行距的双行开沟机,提高了双行开沟机的利用率。 | ||||||
| 10 | 一种秋耕使用的多层施肥机 | CN201510828975.8 | 2015-11-25 | CN105340446A | 2016-02-24 | 陈学庚; 郑炫; 宋庆文; 赵岩; 李玉虎; 任志强; 马旭; 刘进宝; 田军; 张权; 彭勇 |
| 本发明公开了一种秋耕使用的多层施肥机,包括机架(2),其特征在于:机架(2)上至少设有肥箱(5)和肥料层施机构,所述肥料层施机构的具体结构如下:至少包含支架(12),支架(12)的一端与机架(2)固定,另一端设有开沟铲(9)和竖向设置的导肥槽(10),开沟铲(9)设置的在导肥槽(10)的前方,导肥槽(10)与肥箱(5)之间设有输肥管(4),所述导肥槽(10)呈管状体,其管体内设有螺旋叶片,表面设有排肥口(14),所述排肥口(14)处设有导肥板(11),导肥板(11)沿管体向外延伸。与现有技术相比,本发明具有结构简单,层施效果好,施肥层次明显,能提高肥料利用率等特点。 | ||||||
| 11 | SYSTEM AND METHOD FOR REDUCING VARIATIONS IN THE PENETRATION DEPTHS OF GROUND-ENGAGING TOOLS OF AN AGRICULTURAL IMPLEMENT BASED ON MONITORED TIRE PRESSURES | US15665557 | 2017-08-01 | US20190037761A1 | 2019-02-07 | JASON E. ANDREWS |
| In one aspect, a system for reducing variations in the penetration depths between ground-engaging tools of an agricultural implement may include an implement having tires spaced apart from each other. The system may also include pressure sensors provided in operative association with the tires, each pressure sensor being configured for detecting an air pressure within the associated tire, Additionally, the system may include a controller communicatively coupled to the pressure sensors. The controller may be configured to monitor an air pressure differential between a pair of tires based on measurement signals received from the pressure sensors. The air pressure differential may be indicative of variability in the penetration depths of the ground-engaging tools. Furthermore, the controller may be configured initiate a control action associated with reducing the variability in the penetration depths of ground-engaging tools when the air pressure differential exceeds or falls below a predetermined tire pressure differential threshold. | ||||||
| 12 | Method for controlling arthropod pests | US15305858 | 2015-04-13 | US10015968B2 | 2018-07-10 | Naoya Akizuki; Atsushi Iwata; Yasutaka Shimokawatoko |
| A method for controlling arthropod pests includes: step a): a step of forming furrows in the soil; step b): a step of placing, in the furrows formed in the previous step, seeds retaining one or more neonicotinoid compounds selected from group I, on the surface or in the interior, and a step of applying an aqueous dispersion or an aqueous solution containing one or more neonicotinoid compounds selected from group I to the furrows formed in the previous step; and step c): a step of covering the furrows. In step b above group I is a group selected from clothianidin, thiamethoxam, imidacloprid, and thiacloprid. | ||||||
| 13 | PRECISION HOE OPENER WITH SWING LINK AND BIASING MEMBER | US12141895 | 2008-06-18 | US20080308021A1 | 2008-12-18 | Nicholas George Alfred Ryder; Montgomerie Summach; Gerard James Gadzella |
| A precision hoe opener assembly is provided with improved accuracy of seeding as well as improved control over the opener and packer wheel assemblies. The opener assembly includes a hydraulically-driven parallel linkage assembly, a lost motion linkage, a biasing member, a ground engaging tool, and a packer wheel. The design provides improved seeding accuracy, by compensating for changes in draft force caused by changes in terrain elevation. | ||||||
| 14 | US889004D | 1970-04-20 | UST889004I4 | 1971-08-31 | ||
| 15 | Row marker | US25158451 | 1951-10-16 | US2650533A | 1953-09-01 | GEILING WAYNE W |
| 16 | Improvement in seeding-machines | US13530D | US13530A | 1855-09-04 | ||
| 17 | METHOD FOR CONTROLLING ARTHROPOD PESTS | US15305858 | 2015-04-13 | US20170042158A1 | 2017-02-16 | Naoya AKIZUKI; Atsushi IWATA; Yasutaka SHIMOKAWATOKO |
| Provided is a method for controlling arthropod pests. The method includes: step A): a step of forming furrows in the soil; step B): a step of placing, in the furrows formed in the previous step, seeds retaining one or more neonicotinoid compounds selected from Group I, on the surface or in the interior, and a step of applying an aqueous dispersion or an aqueous solution containing one or more neonicotinoid compounds selected from Group I to the furrows formed in the previous step; and step C): a step of covering the furrows. In step B above Group I is a group selected from clothianidin, thiamethoxam, imidacloprid, and thiacloprid. | ||||||
| 18 | Combined furrowing and tamping tool | US766294 | 1996-12-13 | US5816338A | 1998-10-06 | Damon S. Fleming |
| A combined furrowing and tamping garden tool includes an elongated handle having a ground engaging member disposed at one end thereof. The ground engaging member has a furrow forming member and a soil replacing and tamping element formed therewith as a unitary member. The furrow forming member depends from a first edge of the ground engaging member and the replacing and tamping portion is in diametric opposition to the furrow forming member such that the handle can be rotated 180.degree. in either direction for the desired function. | ||||||
| 19 | Ground-clearing and mound-building scarifier | US328309 | 1981-12-07 | US4416335A | 1983-11-22 | Stig-Gunnar Lofgren; Bo G. Ekeborg |
| A ground-clearing and mound-building device is provided that can be towed along the ground to move material on the surface to one side, expose the surface of the ground, and build mounds on the cleared ground for planting and forest regeneration, having a scarifier means mounted for rotation about its central axis, circular in cross-section, and having a peripheral surface that digs into the ground during rotation thereof when in contact with the ground under pressure, arranged to be brought into contact with the ground at any selected contact pressure; with control of at least one of the selected contact pressure and the selected rotation rate to dig, loosen, and displace a surface layer of the ground and push such loosened ground into mounds. | ||||||
| 20 | Cultivators | US568276 | 1975-04-15 | US3995570A | 1976-12-07 | Ary van der Lely |
| A cultivator has soil working blade members mounted on a horizontal shaft which is driven to rotate the members forwardly through the soil in the normal direction of travel. A baffle comprised of screen segments are mounted on the cultivator frame to partially surround the blade members. The screen segments are biased about respective pivots and a rod grating is connected to the baffle to extend downardly immediately to the rear of the blade members. The rear screen segment has V-shaped guides to ridge the soil. A hopper communicates with dosing outlets, each outlet being a nozzle device that extends between a pair of guides. Each nozzle device is pivotable to either one of two positions for planting tubers deep or shallow. A pair of rear wheels is connected to the rear of the frame and the wheels are drivenly connected to dosing conveyors leading to the outlets. An adjusting device is associated with each wheel to raise and lower the soil working blade members. | ||||||
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