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 |
|---|---|---|---|---|---|---|
| 141 | 一种能够适应固定陇高的农用播种机 | CN201510912264.9 | 2015-12-11 | CN105409404A | 2016-03-23 | 张仲林; 韩永强 |
| 能够适应固定陇高的农用播种机,属于农业耕种机械自动化设备领域。其特征在于还包括行走机构和播种机构,所述的行走轮通过行走轮支架安装在机架上,所述的行走轮支架通过电动滚筒连接行走轮,所述的行走轮包括弹性销轴、轮毂和四根以上成对设置的悬伸式支臂,支臂的一端铰接在轮毂上,支臂的另一端连接抓地行进轮;在支臂外套装弹性橡胶轮套;在支臂的中段铰接多孔销接轴;相对设置的支臂上安装的多孔销接轴通过销柱插装固定在一起。本发明能够在固定陇高的单陇上自由行进作业,令播种机械能够适应山地耕作模式。 | ||||||
| 142 | 调距打孔装置 | CN201510947242.6 | 2015-12-17 | CN105409395A | 2016-03-23 | 袁东升 |
| 本发明涉及播种机的传送机构,具体为一种调距打孔装置,包括固定座、从动架以及主动凸轮,其中,从动架包括滑杆、弧形板以及滚轮组,主动凸轮分为扇形部和弧形部,主动凸轮的转轴转动连接于固定座上,主动凸轮的表面与主动凸轮上方的滚轮组相抵,滚轮组包括一号滚轮、一号固定杆、二号滚轮以及二号固定杆,一号滚轮铰接于一号固定杆,二号滚轮铰接于二号固定杆,一号固定杆与二号固定杆均通过螺栓固定于弧形板的侧面开设的弧形滑槽中,弧形板固定于滑杆的下端,滑杆的上端伸入固定座的开设的通孔中并与通孔滑动连接。本发明为了解决现有的打孔装置打孔频率不易改变的问题,意在提供一种打孔频率可调的打孔装置。 | ||||||
| 143 | 一种气压式播种机均匀低损气路系统及气流组织方法 | CN201510894692.3 | 2015-12-08 | CN105359685A | 2016-03-02 | 杨丽; 殷小伟; 张东兴; 崔涛; 韩丹丹; 张瑞; 张天亮; 王满涛; 和贤桃; 李克鸿; 颜丙新; 屈哲; 刘全威; 赵东岳; 虞异茗 |
| 本发明属于农业机械领域,涉及一种气压式播种机均匀低损气路系统及气流组织方法。气流进入气流分配器(1)的入气管(13),经变径接头(12),由分配器圆板(11)上均匀分布的多个出气管(15)分出气流大小一致的多路气流;然后经气压式排种器(3)进入排种管(4),每下降一定高度,气流从排种管(4)管体均匀布置的泄气口(41)逐步排出,排种管(4)内的气流压力逐步减小,随气流下落的种子速度显著降低,最后从排种管出种口(42)排出。本发明气压式播种机均匀低损气路系统能够有效地使各行播种单体排种器供气压力一致,通过降低气体分配过程产生的损失降低风机动力需求,并同时通过增加排种过程的泄压使气压式排种器排种速度显著降低。 | ||||||
| 144 | 一种环保预混行进轮式播种机 | CN201510911630.9 | 2015-12-11 | CN105325101A | 2016-02-17 | 张仲林; 韩永强 |
| 一种环保预混行进轮式播种机,属于农业耕种机械自动化设备领域。其特征在于还包括混料仓、播种轮和行走机构,混料仓连接播种轮;所述混料仓呈中空球体形,在混料仓内部设置螺旋混料条孔,混料仓由搅混驱动装置带动旋转;在混料仓下部的螺旋混料条孔中设置余粉收集孔,所述余粉收集孔连接粉料回收装置。本发明不但能够在崎岖山地自由行进,还能预先均匀的搅拌种子和药粉,实现全自动播种,极大得提升了播种成功率。此外,本设备还能够回收剩余农药粉料再利用,在经济节约的同时,避免对环境造成危害。 | ||||||
| 145 | 农用播种机中使用的种子滑板 | CN200410001516.4 | 2004-01-09 | CN100352330C | 2007-12-05 | D·B·蒂姆克; J·M·瓦尔德兹 |
| 播种机包括至少一个种子计量系统和至少一个种子种植系统。每个种子种植系统与对应的种子计量系统联通。每个种子种植系统包括有底端和终止在该底端的种子槽的种子滑板,其中所述种子滑板包括由弧形段互相连接的两个大体线性段,一个所述的线性段限定所述的底端,其中在种子滑板的为限定所述底端的线性段之上设置有可转动的种子速度调节器,速度调节器的外周边定位在或紧挨着种子滑板,以速度调节器和种子滑板共同作用将种子按所需的轨迹和速度排出。 | ||||||
| 146 | 农用播种机中使用的种子滑板 | CN200410001516.4 | 2004-01-09 | CN1517003A | 2004-08-04 | D·B·蒂姆克; J·M·瓦尔德兹 |
| 播种机包括至少一个种子计量系统和至少一个种子种植系统。每个种子种植系统与对应的种子计量系统联通。每个种子种植系统包括有底端和终止在该底端的种子槽的种子滑板。 | ||||||
| 147 | JPS4922802B1 - | JP2665869 | 1969-04-08 | JPS4922802B1 | 1974-06-11 | |
| 148 | APPARATUS, SYSTEMS AND METHODS FOR ROW UNIT DOWNFORCE CONTROL | EP12822819.4 | 2012-08-06 | EP2739128B1 | 2016-07-20 | SAUDER, Derek, A.; RADTKE, Ian, R.; STOLLER, Jason, J. |
| System and method for controlling the downforce applied to agricultural implement (1) with row units (10), that has a lift control device (320). The system (300) has actuators (32) which are arranged to apply force to row units (10). The actuators (32) include down chambers (33) and lift chambers (35). Each row unit (10) comprises a downpressure control device (320) in fluid communication with the down chamber (33) for controlling pressure in each down chamber (33) separately. A lift pressure control device (310) is in common fluid communication with the lift chambers (35) of all actuators (32) for controlling pressure in lift chambers (35). | ||||||
| 149 | APPARATUS, SYSTEMS AND METHODS FOR ROW UNIT DOWNFORCE CONTROL | EP12822819 | 2012-08-06 | EP2739128A4 | 2015-06-10 | SAUDER DEREK A; RADTKE IAN R; STOLLER JASON J |
| System and method for controlling the downforce applied to agricultural implement (1) with row units (10), that has a lift control device (320). The system (300) has actuators (32) which are arranged to apply force to row units (10). The actuators (32) include down chambers (33) and lift chambers (35). Each row unit (10) comprises a downpressure control device (320) in fluid communication with the down chamber (33) for controlling pressure in each down chamber (33) separately. A lift pressure control device (310) is in common fluid communication with the lift chambers (35) of all actuators (32) for controlling pressure in lift chambers (35). | ||||||
| 150 | SOIL OPENING IMPLEMENTS PARTICULARLY FOR SEED PLANTING | EP08788765.9 | 2008-09-08 | EP2205055A1 | 2010-07-14 | Borland, Robert |
| Disclosed is a soil opening implement comprising a frame (5) adapted to be moved across a ground surface to be opened, a soil opener (1) mounted on the frame for a repetitive cyclic movement to cause the soil opener to penetrate the ground at a plurality of spaced positions to form a line of holes in the soil, and means for varying the pitch of the holes, that is the spacing between adjacent holes in the direction of movement of the implement, the implement having the facility to deliver objects, such as seeds or fertiliser granules in the holes, either one object per hole or multiple objects per hole, wherein the implement includes a hopper (11) for holding a supply of objects and for delivering the objects to the soil opener which is in the form of a substantially vertical hollow tube (11b) through which the objects are fed and delivered to the holes; and wherein the lower end (13) of the tube is angled and tapers to a point, the taper being formed by an angled cut on the trailing side of the opener relative to the direction of movement of the implement. | ||||||
| 151 | SAATGUTFÜHRUNG | EP03780123.0 | 2003-12-05 | EP1587355B1 | 2006-11-02 | THIEMKE, Daniel Bruce; VALDEZ, Jose Miguel |
| The invention relates to a seed guide (40) for a discharging system (30) of a sowing machine (10) for discharging seeds into seed furrows. The discharging system (30) is connected to a dosing system (28) contained inside said sowing machine (10). The seed guide (40) comprises a seed trough (60), which terminates at a lower end (56) of the seed guide (40) and whose depth increases in a continuously linear manner between an upper end (54) and the lower end (56) of the seed guide (40). Seeds are received by the discharging system (30) at a predetermined rate. The discharging system (30) comprises the seed guide (40) and a delivery wheel (42). The seeds are taken up by the delivery wheel (42) at the predetermined rate in a flat area of the seed trough (60), are conveyed through the seed trough (60) having an increasing depth, and are discharged at the lower end (56) of the seed guide (40) and into the seed furrow. | ||||||
| 152 | CROP INPUT VARIETY SELECTION SYSTEMS, METHODS, AND APPARATUS | EP14813797.9 | 2014-06-23 | EP3010326A1 | 2016-04-27 | SAUDER, Derek; KOCH, Dale; PLATTNER, Troy |
| Systems, methods and apparatus are disclosed for selecting an agricultural input. First and second seed meters selectively meter seed from first and second sources, respectively, into a common planting trench. In some embodiments the seed meters are selectively operated by electric motors controlled with reference to a seed type prescription. In some embodiments the first and second seed meters deposit seeds along a common plane. | ||||||
| 153 | APPARATUS, SYSTEMS AND METHODS FOR ROW UNIT DOWNFORCE CONTROL | EP12822819.4 | 2012-08-06 | EP2739128A1 | 2014-06-11 | SAUDER, Derek, A.; RADTKE, Ian, R.; STOLLER, Jason, J. |
| System and method for controlling the downforce applied to agricultural implement (1) with row units (10), that has a lift control device (320). The system (300) has actuators (32) which are arranged to apply force to row units (10). The actuators (32) include down chambers (33) and lift chambers (35). Each row unit (10) comprises a downpressure control device (320) in fluid communication with the down chamber (33) for controlling pressure in each down chamber (33) separately. A lift pressure control device (310) is in common fluid communication with the lift chambers (35) of all actuators (32) for controlling pressure in lift chambers (35). | ||||||
| 154 | SAATGUTFÜHRUNG | EP03780123.0 | 2003-12-05 | EP1587355A1 | 2005-10-26 | THIEMKE, Daniel Bruce; VALDEZ, Jose Miguel |
| The invention relates to a seed guide (40) for a discharging system (30) of a sowing machine (10) for discharging seeds into seed furrows. The discharging system (30) is connected to a dosing system (28) contained inside said sowing machine (10). The seed guide (40) comprises a seed trough (60), which terminates at a lower end (56) of the seed guide (40) and whose depth increases in a continuously linear manner between an upper end (54) and the lower end (56) of the seed guide (40). Seeds are received by the discharging system (30) at a predetermined rate. The discharging system (30) comprises the seed guide (40) and a delivery wheel (42). The seeds are taken up by the delivery wheel (42) at the predetermined rate in a flat area of the seed trough (60), are conveyed through the seed trough (60) having an increasing depth, and are discharged at the lower end (56) of the seed guide (40) and into the seed furrow. | ||||||
| 155 | Seed planting device | EP93303293.0 | 1993-04-27 | EP0568324B1 | 1996-07-03 | Makkink, Andrew Eugene |
| 156 | Star wheel seed planter | EP92302124.0 | 1992-03-12 | EP0503938A1 | 1992-09-16 | Mitchell, Alan |
A device for placing seed into the soil at a specific pitch in which radiating spikes of two star wheel formed discs (6,7) are brought together by rotating the discs (6,7) synchronously at an angle and that each of the radiating spikes has on its inner side a hollow channel forming an internal closed funnel (3) when the spikes are brought together and opens when by further rotating the spikes move away from each other. The means to place seed or small objects into the funnels (3) consists of a hub (2) disposed about the axis of rotation of the discs (6,7) and mounted to rotate with the discs (6,7), which hub (2) is provided with cells adapted to receive the seed or the other small objects and to release them upon rotation of the discs (6,7) so they can fall under gravity into the funnel (3). The device is particularly suitable to plant seed into soil covered by a thick crop residue. |
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| 157 | CROP INPUT VARIETY SELECTION SYSTEM | EP14813797.9 | 2014-06-23 | EP3010326B1 | 2018-10-17 | SAUDER, Derek; KOCH, Dale; PLATTNER, Troy |
| Systems, methods and apparatus are disclosed for selecting an agricultural input. First and second seed meters selectively meter seed from first and second sources, respectively, into a common planting trench. In some embodiments the seed meters are selectively operated by electric motors controlled with reference to a seed type prescription. In some embodiments the first and second seed meters deposit seeds along a common plane. | ||||||
| 158 | CROP INPUT VARIETY SELECTION SYSTEMS, METHODS, AND APPARATUS | EP14813797 | 2014-06-23 | EP3010326A4 | 2017-02-22 | SAUDER DEREK; KOCH DALE; PLATTNER TROY |
| Systems, methods and apparatus are disclosed for selecting an agricultural input. First and second seed meters selectively meter seed from first and second sources, respectively, into a common planting trench. In some embodiments the seed meters are selectively operated by electric motors controlled with reference to a seed type prescription. In some embodiments the first and second seed meters deposit seeds along a common plane. | ||||||
| 159 | Star wheel seed planter | EP92302124.0 | 1992-03-12 | EP0503938B1 | 1994-06-08 | Mitchell, Alan |
| 160 | Seed planting device | EP93303293.0 | 1993-04-27 | EP0568324A1 | 1993-11-03 | Makkink, Andrew Eugene |
A seed planting device has a planting wheel (22) rotatable about an axis (74) to roll over a land (38). Hollow tines (50) mounted at angular spacings on the wheel (22) extend outwardly. A seed cell (66) in each tine has an inlet (118) for receiving a seed and an outlet (69) towards an outer end. A seed dispensing mechanism (56) dispenses seeds individually to the seed cells via ducts (60). A release member (70) in each seed cell is movable between a retain condition for retaining a seed and a release condition for releasing the seed. Control means for controlling the members (70) includes a control rotor (92) rotatable about an axis (94) parallel to and spaced from this axis (74) a predetermined amount in a predetermined direction, and link means linking each member (70) to a predetermined position on the rotor (92) such that the member is in its retain condition while the tine moves through angular positions approaching a position in which the tine penetrates the land (38), and such that the member is in its release condition when the tine is at its penetrating position. |
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