| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 61 | 一种免浇灌自填覆式播种机 | CN201610430840.0 | 2016-06-17 | CN106034487A | 2016-10-26 | 杨瑞美 |
| 本发明主要涉及一种免浇灌自填覆式播种机,属于农用机械领域。其特征在于所述播种机构包括安装在筒形支架内的储种仓和种子传送带,所述种子传送带的一端衔接储种仓,种子传送带的另一端连接筒形机架的出种口;在筒形机架的前端外部盘绕设置螺旋形掘土铰龙,所述掘土铰龙能够围绕筒形机架正向旋转或者反向旋转;在筒形机架的中部设置中空环形储土仓;掘土铰龙正向旋转时能够挖掘种坑,掘土铰龙反向旋转时,能够将储土仓中的土壤回传到种坑中。本发明手持式操作,简单灵活,不受地形限制,尤其适合在土质坚实的地域进行自动化播种作业,还能在播种后自动覆土;根据需要对覆土进行预浇灌,精简作业环节,节省劳力,提升效率。 | ||||||
| 62 | 一种菜苗无土海绵育苗方法 | CN201610387111.1 | 2016-06-02 | CN105993890A | 2016-10-12 | 章浩; 曾晓泉; 李树生; 文国荣 |
| 本发明提供一种菜苗无土海绵育苗方法,包括以下步骤:A无土海绵种植块的制备;B育苗床的建设;C播种:采用自制的播种器进行播种,用准备好的无土海绵种植块接纳种子;D浸种:将播种好的无土海绵种植块放到浸泡槽浸泡48小时;E育苗:将浸泡好的无土海绵种植块移至育苗床进行育苗;F育苗后管理:对无土海绵种植块上表面和下表面定期进行喷雾,可按照天气的干湿程度和菜苗的生长情况进行设定;本发明所采用的方法及设备能使菜苗在生长过程不受虫害污染,避免农药喷洒,并且结构简单,操作方便并且能节约成本。 | ||||||
| 63 | 玉米播种机 | CN201510952055.7 | 2015-12-20 | CN105594344A | 2016-05-25 | 陈世远 |
| 本专利公开了一种玉米播种机,包括进料斗,播种管、软轴、连接板和播种铲,所述进料斗与播种管一端连接,所述播种铲与播种管另一端连接,所述播种铲呈圆锥形且中空设置;所述播种管上设有转盘,所述播种管中部设有套管,所述套管内设有轴芯,所述轴芯与套管转动连接;所述转盘通过软轴与轴芯连接;所述轴芯上端中心加工有弧形的凹槽,所述轴芯上设有弹簧,所述弹簧与连接板连接;所述连接板固定在播种管上。本专利申请可以控制播种数量。 | ||||||
| 64 | 可控制玉米播种数量的装置 | CN201510953505.4 | 2015-12-20 | CN105557130A | 2016-05-11 | 陈世远 |
| 本发明公开了一种可控制玉米播种数量的装置,包括进料斗,播种管、控制器和播种铲,所述进料斗与播种管一端连接,所述播种铲与播种管另一端连接,所述播种铲呈圆锥形且中空设置;所述播种管上设有电磁阀,所述播种管内设有红外线发射器和与之配合的红外线接收器,所述红外线接收器位于电磁阀下面,所述电磁阀和红外线接收器均与控制器电连接。本发明申请可控制玉米的播种数量。 | ||||||
| 65 | 分配器装置 | CN201180075767.5 | 2011-12-20 | CN103998689B | 2015-05-27 | 阿克塞尔·莫克; 雷吉纳·施奈德 |
| 本发明公开了一种用于分配颗粒物的装置(100)。所述装置(110)包括桶(102),该桶构造成储存颗粒物。此外,所述装置(100)包括盖(104),该盖能拆卸地连接至桶(102)。盖(104)还包括选择板(106),该选择板构造成选择性地分配颗粒物。此外,盖(104)包括铲部(108),该铲部构造成便于分配颗粒物以及将颗粒物填充入桶(102)中。此外,盖(104)包括手柄(110),该手柄构造成使得能够操作装置(100),其中在分配颗粒物期间,手柄(110)设置于穿过装置(100)的重心的轴线(111)上方。 | ||||||
| 66 | 手持播種器 | JP2013088151 | 2013-04-19 | JP2014209875A | 2014-11-13 | MORIHASHI KOICHI |
| 【課題】持柄部の押下及び持ち上げ操作により播種作業を行うことができ、楽な姿勢で容易に播種作業を行うことができる。【解決手段】持柄部1に播種部2を設け、播種部に複数個の種子S・・を収納可能な種子収納部3、種子収納部内の種子を一粒又は数粒ずつ分離可能な種子分離部4及び種子分離部から分離された種子を土壌D上に排出案内する種子排出部5を設けてなり、種子排出部を土壌に当接し、種子排出部の当接静止状態において持柄部を復帰用バネ9に抗して押下し、持柄部の押下により分離杆部6を種子収納部内及び種子排出部内で下降摺動させ、分離杆部の下降摺動及び受入凹部7と分離板部8との協動により種子を一粒又は数粒ずつ種子分離部を介して土壌上に分離排出すると共に土壌上の種子を分離杆部の先端部で土壌中に押し込むように構成してなる。【選択図】図5 | ||||||
| 67 | JPS6359749B2 - | JP50072279 | 1979-05-11 | JPS6359749B2 | 1988-11-21 | |
| 68 | Granular material spreader and material product container | JP34309398 | 1998-12-02 | JPH11225652A | 1999-08-24 | WOODRUFF KEITH FLOYD; THOMAS JOHN HARDIN |
| PROBLEM TO BE SOLVED: To provide a granular material spreader suitable for spreading esp. an agricultural treating material, e.g. insecticide, herbicide or fumicide, from a driving unit moving on the ground to which the above material is applied. SOLUTION: This spreader is provided with a measuring system serving to diffuse a material and comprising a measuring disk having an apertured 70 positioned above a rotatable impeller 10. The measuring disk 70 functions to measure the amount of a material transferred by gravity from a material product container 6 to an impeller 10 thereunder in proportion to the moving speed of a driving unit and to spread the material over the ground uniformly. The measuring disk 70 is detachably mounted on the driving unit and a constitutional element of the container 6. The impeller 10 rotates at a constant speed, regulates a deposition level on the impeller of the material and resultantly spreads the material to a constant extent. A user is allowed to stop spreading the material optionally by using a clutch and to automatically interrupt its spread when the driving unit is driven in the opposite direction. | ||||||
| 69 | Sowing tool | JP11693497 | 1997-05-07 | JPH10304715A | 1998-11-17 | MIYAMOTO HARUO |
| PROBLEM TO BE SOLVED: To provide a sowing tool by which even humid seeds are uniformly sowed. SOLUTION: This sowing tool consists of a clamping part 3 provided with a seed throw-in part 5 in one end and a sowing part 14 formed at the other end side of the clamping part 3, a sowing port 6 is formed in the tip of the sowing part 4, a seed passage 8 is formed between the sowing port 6 and the seed throw-in part 5 and a manual vibration generating mechanism 9 and a leveling mechanism 10 for leveling the seeds which are carried through the seed passage 8 by a vibration generated by the manual vibration generating mechanism 9 are provided in the seed passage 8. A vibration generating member 16 provided with a mass in mobile space is provided so as to be movable in the manual vibration generating mechanism 9. COPYRIGHT: (C)1998,JPO | ||||||
| 70 | 播種ユニットおよびその使用 | JP2016538891 | 2014-08-26 | JP2016533756A | 2016-11-04 | オールンド,ヨナス; フォルスム,オーサ; スヴェンネルスタム,ヘンリク; ヴィンサ,ハンス |
| 吸水性材料と、筐体と、種子とを備える播種ユニットであって、吸水性材料が、NH4+、L−アルギニン、L−リシンおよびL−ヒスチジンから選択される正電荷栄養物質イオンに結合することができる吸湿性負電荷材料と;任意選択で、K+、NH4+、L−アルギニン、L−リシンおよびL−ヒスチジンから選択される正電荷栄養物質イオンを含む栄養物質とを含むことを特徴とする播種ユニット。播種ユニットの方法および使用。【選択図】図1 | ||||||
| 71 | 1個以上の品目を地中に位置させるための器具および技術 | JP2015525463 | 2013-07-25 | JP2015531592A | 2015-11-05 | カツセル,ロナルド・エル |
| 1個以上の品目を地中に配置または位置させるための器具および技術を提供する。1つの面では、穴を地面の中に生じさせた後に1個以上の品目を前記穴の中に位置させるための通路を与えるに適した構造の器具を作成する。1つの形態では、本器具を用いて地中に配置または位置させることができる品目には、非限定例をほんの少し挙げるとすると、農産物、例えば種または搬送用媒体などが含まれ得、前記搬送用媒体には1種以上の肥料または有害生物防除剤またはこのような物質の組み合わせが含まれる。本説明および図からさらなる態様、形態、目的、特徴、利点、面および利益が明らかになるであろう。【選択図】図1 | ||||||
| 72 | JPS55500242A - | JP50072279 | 1979-05-11 | JPS55500242A | 1980-04-24 | |
| 73 | ADJUSTMENT MECHANISM FOR VARYING DEGREE OF OPENING OF HOLES IN SPREADER | EP13814507.3 | 2013-12-17 | EP3082392B1 | 2017-11-22 | KOHL, Peter; ARNDT, Wolfgang |
| 74 | BLOWER/ATOMIZER PORTABLE DEVICE | EP11727315.1 | 2011-05-05 | EP2704845A1 | 2014-03-12 | CIFARELLI Roberto |
| A blower/atomizer portable device comprises a propulsion assembly or power unit (2), a blowing assembly (3), a swingable dispenser (4) and an adjusting assembly (5) acting in said swingable dispenser (4) for selectively introducing a predetermined amount of substance to be distributed/atomized; the blower/atomizer further comprises a pumping unit (13) operated by the power unit (2) and adapted to cause movement of a substance to be distributed/atomized and contactless transmission means acting between the propulsion assembly (2), the blowing assembly (3) and the pumping unit (13), said contactless transmission means being adapted to actuate at least the pumping unit (13) while maintaining a pneumatic/hydraulic separation relative to the power unit (2) and/or the blowing assembly (3). | ||||||
| 75 | BUCKLING CLAMSHELL CONTAINER FOR AUTOMATED ALIQUOT AND DISPERSAL PROCESSES | EP07799348.3 | 2007-07-06 | EP2038186B1 | 2011-01-05 | GOLDMAN, Daniel, M.; HARTMAN, Michael, E.; HUNTER, James, L.; JOHNSON, David, L.; TUCKER, Griffiths, J. |
| A package assembly (100) for automated aliquot and/or dispersal processes is provided. Embodiments of the present invention include, but are not limited to: first and second portions (110, 130) which cooperate to contain the aliquot, wherein a pair of flexure channels (145) are defined in opposing sides of at least one of the first or second portions, the flexure channels cooperating to define a flexure axis (142) extending through the pair of flexure channels. Thus, embodiments of the present invention may allow at least one of first and second portions of the package assembly (100) to flex about the flexure axis (142) in response to a force exerted on the package assembly such that the first and second portions (110, 130) separate in response to the force. | ||||||
| 76 | Granular spreader and product container | EP03021490.2 | 1998-12-03 | EP1382236A2 | 2004-01-21 | Woodruff, Keith Floyd; Thomas, John Hardin |
Methods and apparatus are provided for dispensing chemical material, and in particular, granular, agricultural material, from a moving device driven over terrain to be treated with the material. A metering system for dispersing the material includes on apertured metering disk (70) positioned above a rotatable impeller (114). The apertured disk meters material from a product container (6), by gravity feed, onto the impeller (114) below at a rate proportional to the linear speed at which the apparatus is driven to dispense material at a uniform density over the terrain. The metering disk (70) is a component of a product container (6) which is removably mounted to the device. The impeller (114) rotates at a constant speed to disperse the deposited material at a uniform distance from the apparatus, and the position on which the material is deposited on the impeller (114) is adjustable. A clutch permits the user to discontinue dispensing material from the device at the selection of the user, and automatically discontinues dispensing of material when the apparatus is driven in a reverse direction. |
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| 77 | PORTABLE SPREADING DEVICES | EP91916043.2 | 1991-07-01 | EP0542902B1 | 1996-09-11 | COURTNEY, Steve, Paul; AMERINE, James, Dalton |
| A hand held spreading device (10) is disclosed for broadcast spreading material via a rotating impeller (42). The device (10) has an actuating assembly including an actuating member (78) and a dual spring arrangement (80) interconnected with the actuating member (78). One of the springs (82) causes material to be discharged onto the impeller (42) in response to movement of the actuating member (78) and prevents damage of the device (10) resulting from excessive movement of the actuating member (78). The second spring (84) biases the actuating member (78) to move to an idle position in which no material is discharged onto the impeller (42) and causes the actuating member (78) to return to this idle position after movement thereof. | ||||||
| 78 | PORTABLE DEVICE FOR DISPENSING AND METERING GRANULAR OR POWDERY PRODUCTS | EP94905107.0 | 1994-01-24 | EP0632690A1 | 1995-01-11 | D'AGOSTINIS, Giuseppe |
| The dispensing and metering device has a container (1) connected by a funnel-shaped region (3) to a tube (4) defining a lower end (5). A valve (6) is journalled by a pivot (9) to a clamp (10) connected to the lower end (5). A biasing spring maintains the valve (6) in a normally closed position on the lower end (5). Arms (7, 8), connected to the valve (6), can be placed in contact with the ground to rotate the valve (6) about the pivot (9) against the action of the biasing spring to open the lower end (5) and dispense product (2) from the container (1) in a localized area. | ||||||
| 79 | Vorrichtung zum Dosieren von körnigem, rieselfähigem Material | EP91120537.5 | 1991-11-29 | EP0489367B1 | 1994-02-02 | Artz, Hans |
| 80 | Vorrichtung zum Dosieren von körnigem, rieselfähigem Material | EP91120537.5 | 1991-11-29 | EP0489367A1 | 1992-06-10 | Artz, Hans |
Die Erfindung betrifft eine Vorrichtung zum Dosieren von körnigem, rieselfähigem Material, die einen Behälter zur Aufnahme des Materials, ein mit dem Behälter verbundenes Zuführrohr sowie einen am freien Ende des Zuführrohres abnehmbar befestigten Dosierer umfaßt. Der Dosierer (1) besteht aus einem Dosierrohr (5), das fest, aber lösbar mit dem freien Ende des Zuführrohres (2) verbunden ist und am unteren Ende an einer Seite eine Aussparung (6) aufweist, und einem Dosierhebel (11) mit Hebelkralle (12) am oberen Ende des Dosierhebels (11) und einer Auflagefläche (16) am unteren Ende (15) des Dosierhebels (11). Der obere Teil des Dosierhebels (11) ist in die Aussparung (6) eingepaßt. Der Dosierhebel (11) ist in dem Dosierrohr (5) in einem Abstand vom freien Ende (14) des Dosierrohres (5) in der Weise aufgehängt, daß er um ein Befestigungsmittel (17) als horizontaler Achse pendelförmig frei drehbar ist. Die dem Inneren des Dosierrohres (5) zugewandte Seite des Dosierhebels (11) bildet zusammen mit der dieser gegenüberliegenden Innenwand des Dosierrohres (5) eine Dosierkammer (13), die in der Ruhestellung des Dosierers (1) durch die Stellung der Hebelkralle (12) nach oben geöffnet ist, so daß das zu dosierende Material in die Dosierkammer (13) strömen kann. Durch Aufdrücken der Auflagefläche (16) auf eine feste Unterlage, z.B. auf den Boden, wird der Dosierhebel (11) in eine Arbeitsstellung gebracht, in der die Dosierkammer (13) nach unten hin geöffnet und gleichzeitig nach oben durch die vorgezogene Stellung der Hebelkralle (12) absperrbar ist. |
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