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 | 排水沟墙体连续浇筑水平滑模装置 | CN201710671891.7 | 2017-08-08 | CN107245983A | 2017-10-13 | 季一全; 汤佳 |
本发明公开排水沟墙体连续浇筑水平滑模装置,包括单元滑模,单元滑模主体由内侧板和外侧板组成,内侧板之间通过调节式固定撑杆制成定位,内侧板底部设有底部滚轮轴套、底滚轮;内侧板和外侧板顶部通过顶部对拉丝杆固定,内侧板和外侧板顶部表面通过盖板压板封闭;本发明的优点是新型模板抗弯、抗剪强度高,挠度变形小,力学性能与普通木模板相比有较大优势;实现工厂预制化加工标准化、系列化,加工损耗小,周转使用次数多;安装与拆卸方便,大量减少立模、拆模工作量,提高了模板使用效率。 | ||||||
2 | 自动刮掉淤泥的水田滚动式开沟机 | CN201710079960.5 | 2017-02-15 | CN107006175A | 2017-08-04 | 梁毅; 俞德军 |
本发明公开了自动刮掉淤泥的水田滚动式开沟机,包括机架、设置在机架中部的悬挂架和设置在所述机架两侧的梯形开沟鼓轮安装架;在所述梯形开沟鼓轮安装架上设置有梯形开沟鼓轮,其特征在于,在每个所述梯形开沟鼓轮上方的所述梯形开沟鼓轮安装架上设置有垂直于地面的刮淤泥的金属刀片;所述金属刀片为矩形。本发明还在梯形开沟鼓轮安装架上设置有可以排开行进道路上的淤泥或者障碍物的金属薄板。本发明不仅结构简单,安装方便,在实际生产中使得开沟机顺畅的运转,不会出现附着在梯形开沟鼓轮上的淤泥影响工作的情况,也不会出现障碍物卡住梯形开沟鼓轮的情况。 | ||||||
3 | 集水罐的埋设方法 | CN201610763951.3 | 2016-08-30 | CN106337403A | 2017-01-18 | 王胜 |
本盐碱地整治技术领域的发明公开了集水罐的埋设方法,该集水罐的规格为3m*3m*1.5m,所述该集水罐的埋设方法中所需的器械和材料包括:挖掘机;水准仪;潜水泵;规格为3mm厚的钢板40㎡;电焊机;打磨机;防腐漆和毛刷;混凝土;火焰切割机;该集水管埋设方法包括如下步骤:S1:准备施工器材;S2:焊接集水罐;S3:开挖集水罐基坑;S4:铺设垫层;S5:放置集水罐;S6:回填集水罐基坑,在埋设集水罐的过程中对集水罐基坑的底部铺设了垫层,使集水罐长时间不会因泥土下沉而发生下沉,在开挖的时候基坑放有一定的坡度,不会发生塌方,在集水罐的外壁上涂抹了防腐漆,避免集水罐长期埋设在地下发生生锈腐蚀。 | ||||||
4 | 一种使用效果好的鼠道犁 | CN201510989925.8 | 2015-12-24 | CN106917390A | 2017-07-04 | 刘自豪 |
本发明公开了一种使用效果好的鼠道犁,包括犁铲、自犁刀、悬挂支架、伸缩杆、夯实轮和鼠道成型机构,所述悬挂支架的左端安装有支耳,所述支耳的中部开设有螺孔,所述悬挂支架的中部上下两端均安装有连接板,所述连接板之间通过螺栓固定连接,所述连接板的下端安装有犁座,所述自犁刀通过销钉固定在犁座上,所述犁铲固定在自犁刀的下端,所述鼠道成型机构的左端与犁铲的右端均安装有U型环,所述U型环之间卡环连接,所述鼠道成型机构由鼠道成型机构壳体、电机与偏心轮组成,所述电机的左右两端均安装有偏心轮。本发明结构简单,安装方便,可在农田中开挖暗渠,夯实轮与鼠道成型机构的配合使用,使鼠道更加夯实。 | ||||||
5 | 一种水渠开沟机 | CN201510906641.8 | 2015-12-01 | CN105386428A | 2016-03-09 | 王升旗 |
本发明提供了一种水渠开沟机,包括固定盘,所述固定盘上设置有上下贯穿的动力旋转轴,动力旋转轴的下端设置刀片固定筒,刀片固定筒的外圆表面固定有多个呈螺旋分布的旋耕刀,刀片固定筒的外圆表面还设置有贴合在旋耕刀的上端面的螺旋提升板,所述刀片固定筒的旁边设置有与旋耕刀的旋转母线等距离的圆弧挡板,圆弧挡板的两侧及底侧设置有与所开挖的水渠横截面形状一致的整形板,整形板的上端两侧设置有水平方向的限深板。该水渠开沟机作业效率高,质量高,挖土、整形一次完成,完全符合水渠标准横断面的设计要求,可直接进行箍水泥的衬垫作业,无需再进行人工的二次修补,每天可挖2公里长的水渠。 | ||||||
6 | 一种田间排水通气系统及埋设装置 | CN201410686323.0 | 2014-11-26 | CN104499467A | 2015-04-08 | 韩京龙 |
本发明涉及一种田间排水通气系统及埋设装置。包括水平埋设于田间土壤之下30-50cm的N根通气集水管、与通气集水管通过三通连接的M根通气汇水管,N≥M≥1,其特征在于:还包括K根通气管,M≥K≥1,所述的通气管一端与通气汇水管通过三通连接,另一端穿过土壤露出土壤面30-50cm并设置第一截止阀,第一截止阀连接带有开口朝下的弯头;所述的通气集水管的管体上遍布通气集水孔;所述的通气汇水管一端封闭、另一端开口于排水沟并设置第二截止阀;在其中一个弯头上还连接一个活接,空压机的充气管可与活接配合。与现有技术相比,本发明结构简单、施工方便、运行可靠,不仅能实现排涝功能,还具有提高土壤透气性的功能。 | ||||||
7 | 新型农用鼠道犁 | CN201510960435.5 | 2015-12-18 | CN106894400A | 2017-06-27 | 周武成 |
本发明涉及农业机械领域的一种新型农用鼠道犁,主要特点是机架内的齿轮箱将拖拉机后齿轮输出动力由圆周运动转换为往复直线运动,振动杆将往复直线运动转换为犁刀围绕振动支轴以水平振动为主的复合振动,犁刀切割土壤,犁头吸收振动破碎土壤,塑孔器挤压膨松土壤形成圆形鼠道,本发明采用我国农村普及推广的手扶拖拉机作为动力源和牵引车,结构精巧,设计合理。 | ||||||
8 | 一种盐碱地土壤改良埋设集水管构造 | CN201610753957.2 | 2016-08-29 | CN106368191A | 2017-02-01 | 王胜 |
本发明公开了集水管技术领域的一种盐碱地土壤改良埋设集水管构造,包括盐碱地层,所述盐碱地层的底部设置有碎石过滤层,所述碎石过滤层的底部设置有砂砾层,所述砂砾层的底部设置有排水管,所述排水管倾斜设置在砂砾层的底部,本发明通过碎石过滤层的设置,使排盐水能够初次过滤,减少泥沙进入集水管,通过砂砾层的设置,使排盐水能够二次过滤,减少排盐水中的固体颗粒,同时起到减压缓冲的作用,减少对集水管和排水管的压力,通过排水管的设置,使收集的水集中的通过排水管排向集水井,减少水资源的损失,通过细微集水孔的设置,使没有被集水漏斗收集的水被细微集水孔收集,减少水资源的损失。 | ||||||
9 | 集水管埋设方法 | CN201610753952.X | 2016-08-29 | CN106284246A | 2017-01-04 | 王胜 |
本集水管埋设技术领域的发明公开了集水管埋设方法,该集水管的埋设总长为220m,所述该集水管埋设方法中所需的器械和材料包括:挖掘机;水准仪;潜水泵;规格为160mm*4m的PVC集水管55根;PVC胶水;直径为160的PVC束节;直径为160的PVC三通;水泥、黄沙和砖块;钢锯;该集水管埋设方法包括如下步骤:S1:准备施工器材;S2:开挖集水管沟;S3:铺设垫层;S4:连接管道;S5:修建检修井;S6:回填集水管沟,该方法在施工过程中采用的是环环相扣的方法,可同时作业,提高了施工速度,同时在铺设集水管的过程中对集水管沟的底部铺设了垫层,使集水管长时间不会因泥土下沉而发生变形,在保证速度的同时有提高了质量,值得广泛推广。 | ||||||
10 | 一种田间开沟粉土机 | CN201511011988.2 | 2015-12-30 | CN105568940A | 2016-05-11 | 陈星 |
本发明提供了一种田间开沟粉土机,包括机架、开沟粉土装置、传动装置,所述机架包括下部框架、上部框架、连接结构,所述开沟粉土装置包括前齿轮、后齿轮、链条组件,所述链条组件安装于前齿轮、后齿轮外侧,所述链条组件外侧设有开沟粉土刀,所述传动装置包括传动轮、传动轴,所述传动轴与下部框架轴承连接,所述后齿轮固定于传动轴中间位置,所述前齿轮与下部框架前置杆轴承连接。本发明的田间开沟粉土机,具有设计简单,结构合理,生产容易,制造成本低,安装快捷,使用寿命长,工作效率高的特点。 | ||||||
11 | 一种改进的开沟机 | CN201510091226.1 | 2013-07-20 | CN104775407A | 2015-07-15 | 闻敏杰; 王海峰 |
本发明提供了一种改进的开沟机,属于农业机械技术领域。它解决了现有改进的开沟机中链刀不能上下升降且自动化程度低等问题。本改进的开沟机,包括机体,机体上固定有柴油机和减速器,机体的一侧还设有开沟装置,包括支架、主动链轮、从动链轮、链条一、搅轮和若干链刀,主动链轮、从动链轮和搅轮分别通过转轴轴向定位在支架上,搅轮处于主动链轮和从动链轮之间,链条一作用在主动链轮、从动链轮和搅轮上,链刀均匀布置在链条的外侧;机体上还固定有立柱,立柱上套设有滑动块,支架的一端铰接在滑动块上,机体与滑动块之间设有能使滑动块沿着立柱上下升降并将滑动块定位在立柱上的升降定位机构。本发明中的链刀能够上下升降,而且自动化程度高。 | ||||||
12 | 花生地排水开沟机 | CN201410576280.0 | 2014-10-24 | CN104328771A | 2015-02-04 | 劳炳凤 |
本发明涉及一种花生地排水开沟机,主要由柴油机、机架、行走轮、传动机构、开沟机构、扶手柄这几部分构成,所述的柴油机安装在机架上提供行走和开挖地开沟的动力;所述的行走轮有前两个主动行走轮和后一个从动行走轮;所述的传动机构包括皮带轮、皮带、变速装置;所述的开沟机构包括两个交接斜置的刨挖轮、斜转轴以及与之连接的变速装置,开沟机构安装在前两个行走轮的后部、后行走轮的正前部,机架和护手柄将各装置连接成一整体。花生地排水开沟机行走稳定、开沟有力,还利用两个斜置交接的刨挖轮对地面进行三角状开沟,能把刨挖出的泥土均匀喷射向远方,能挖出排水顺畅的排水沟。 | ||||||
13 | 水田排水开沟机 | CN201410559980.9 | 2014-10-18 | CN104328770A | 2015-02-04 | 王庆忠 |
水田排水开沟机主要由一部汽油机、两个防滑行走轮、固定架、皮带传动装置、螺旋刀组、手推柄组成,所述的汽油机安装在固定架上通过皮带传动装置驱动前部的一个螺旋刀组高速转动,所述的两个防滑行走轮半排安装在固定架下部作行走支持,固定架还焊接有向后延伸的手推柄。水田排水开沟机只用一小汽油机直接驱动一个螺旋刀组对污泥进行旋切,把污泥抛扬远离,开出排水沟,各装置由两个防滑行走轮作支持,人力推动行走,结构简单、重量轻、体积小、操作简单、开沟快速,是最好的水田排水开沟装置。 | ||||||
14 | Creating slots in a drip line in real time in conjunction with ground placement of the drip line | US14722705 | 2015-05-27 | US09969098B2 | 2018-05-15 | Michael Cash |
An agricultural implement that includes a slotting mechanism and a slotting actuator is provided. The slotting mechanism is for cutting slots in a drip line in real time in conjunction with ground placement of the drip line. The slotting actuator is for actuating the slotting mechanism. The actuating is controlled by a computer following a slot spacing in a drip line prescription for a field in which a drip line is being placed. | ||||||
15 | Water Catchment and Soil Treatment System | US15611367 | 2017-06-01 | US20170266588A1 | 2017-09-21 | Christofer Jay Kachman |
A water catchment and lawn edging system includes a cap, a channeled drain fixture, and at least one base clip. The base clip, which connects the system to the ground surface, is connected to a bottom end of the channeled drain fixture. Depending upon the length or the profile of the channeled drain fixture, the system can utilize a single base clip or a plurality of base clips to properly support the system. The cap is continuously connected along the channeled drain fixture from a top end of the channeled drain fixture. The cap may include a plurality of drain openings to provide additional drainage for the system. Collectively, the cap, the channeled drain fixture, and the base clip function as a water catchment and lawn edging system so that surface and ground water can be drained and filtered away from a collecting area and discharged into an outfall. | ||||||
16 | Biomass storage system | US13682417 | 2012-11-20 | US08991513B2 | 2015-03-31 | William D. Duncan; Roderick A. Hyde; Jordin T. Kare; Tony S. Pan; Lowell L. Wood, Jr. |
An apparatus for forming a water storage material from a biomass input material using supercritical or subcritical fluid processing, the water storage material capable of absorbing a liquid and releasing the liquid. The apparatus utilizes supercritical fluid processing, subcritical fluid processing, charring, or a combination thereof. The apparatus includes a controller configured to control the apparatus. The apparatus further including a processing station configured to hold the biomass input material, and to use the biomass input material for processing into the water storage material. | ||||||
17 | System for placing and removing draining systems | EP01204717.1 | 2001-12-11 | EP1215339A2 | 2002-06-19 | Klinge, Jan |
The invention relates to a system for placing and removing a draining system, comprizing an adapted articulated vehicle for conveying materials and for conveying a small caterpillar tracked vehicle to a site to be drained. The small vehicle is moreover provided with support means (29a,29b,30a,30b) and with tools (17,18,19,20,21,27,28) for carrying out the activities. |
||||||
18 | System for placing and removing draining systems | EP01204717.1 | 2001-12-11 | EP1215339A3 | 2002-10-23 | Klinge, Jan |
The invention relates to a system for placing and removing a draining system, comprizing an adapted articulated vehicle for conveying materials and for conveying a small caterpillar tracked vehicle to a site to be drained. The small vehicle is moreover provided with support means (29a,29b,30a,30b) and with tools (17,18,19,20,21,27,28) for carrying out the activities. |
||||||
19 | BIOMASS STORAGE SYSTEM | US15606593 | 2017-05-26 | US20170260710A1 | 2017-09-14 | William D. Duncan; Roderick A. Hyde; Jordin T. Kare; Tony S. Pan; Lowell L. Wood,, JR. |
An apparatus for forming a water storage material from a biomass input material using supercritical or subcritical fluid processing, the water storage material capable of absorbing a liquid and releasing the liquid. The apparatus utilizes supercritical fluid processing, subcritical fluid processing, charring, or a combination thereof. The apparatus includes a controller configured to control the apparatus. The apparatus further including a processing station configured to hold the biomass input material, and to use the biomass input material for processing into the water storage material. | ||||||
20 | Biomass storage system | US14671490 | 2015-03-27 | US09663913B2 | 2017-05-30 | William D. Duncan; Roderick A. Hyde; Jordin T. Kare; Tony S. Pan; Lowell L. Wood, Jr. |
An apparatus for forming a water storage material from a biomass input material using supercritical or subcritical fluid processing, the water storage material capable of absorbing a liquid and releasing the liquid. The apparatus utilizes supercritical fluid processing, subcritical fluid processing, charring, or a combination thereof. The apparatus includes a controller configured to control the apparatus. The apparatus further including a processing station configured to hold the biomass input material, and to use the biomass input material for processing into the water storage material. |