在国家特定土壤条件中罗马尼亚深松松土设备的施工演变【中文5360字】
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在国家特定土壤条件中罗马尼亚深松松土设备的施工演变【中文5360字】,国家,特定,土壤条件,罗马尼亚,松松,设备,装备,施工,演变,演化,蜕变,中文
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【中文5360字】在国家特定土壤条件中罗马尼亚深松松土设备的施工演变1)BDESCUM1,CROITORUT1,PETCUA2,MARINE2,BORUZS1,IVANGH2,VLDUV2,MATACHEM2,CUJBESCUD2,VOICEAI2INMA布加勒斯特克拉约瓦大学关键词深度,曝气,设备,工作机构,土壤摘要本文介绍了最大的深松松土机械和设备制造商的主要成就,突出了每个设备的特定特性,使其能够在相同工作宽度下使用低能量源进行深度松动。介绍罗马尼亚由于侵蚀,酸化,碱化,水分或干旱过度,盐碱化,压实等原因而面临一定程度的土壤质量恶化。土壤退化的主要过程是社会经济影响,这种过程是水的侵蚀,伴随着登陆超过700万公顷的农田。土壤退化的第二个重要因素是周期性内涝,影响380万公顷农田和60万林地,过度频繁出现干旱。710万公顷的农田和20万公顷的森林。自然遇到的一个主要过程是盐碱化,这通过一些改进的不适当的技术,例如阻塞,排水和灌溉而大大增强。土壤退化的重要作用是人为土壤的压实和结壳。在约13密耳找到压实。公顷的耕地主要是由于重量和/或农业设备的过度使用造成的,特别是在潮湿的条件下不合适的土壤或太干燥的土壤或湿润的土壤最后的主要原因是耕地面积较大的拖拉机的负荷。结皮和充填土壤孔隙(22百万公顷)主要发生在有机质含量较低的粉质和粘土土壤中,由于集约化的农业工作而摧毁了更高的地平线结构,反复造成不适宜的湿度条件,植被覆盖度差,雨滴。表面上的过量水分是由于从3540厘米的深度存在一个可渗透水和空气的硬层(B层粘土层),土壤形成的沉积物的细致结构(来自黑色和棕色的贫瘠土壤,HUMIFERE粘土,致密的,VERTISOLS)。另一方面,在化学农业和机械化农业中土壤的大量使用,同时遭受了渐进的压实过程。在大多数不同深度的栽培土壤中,形成一层厚达1520厘米的坚硬渗透水和空气的致密层,促进了上层水分过量膨胀,而土壤植物造成的水量减少多年降水量少的土壤干旱。在我国一年中降雨量分布不均的情况下,这些土壤在春季和夏季缺水时会遭受水分和曝气量不足的严重影响。为了防止和消除所显示的缺陷,同时提高土地改良工程的效率,必须实施一套农业改良措施,其中土壤深度松动尤其重要。在土壤学方面,对土壤松动深度感兴趣的土壤属于以下主要类型和亚型土壤粘土水洼通常呈假G状布朗森林的土壤,PODZOLIC往往是假的GLEYED一些红褐色的森林土壤VERTISOLS(斯莫尔纳)一些沼泽地和SOLONETZS粘土一些黑钙土浸出物(粘土)。我国土壤质量恶化程度较高的土地面积约占农业面积的198。考虑到土壤负面特征的显示强度,工作的预期效率,地域组织的坡度,机械化的可能性等,农业病学专家建立了紧急订单来实施改良工程。从这些观点来看紧迫性首先在于面积约130万公顷,分布在36个县。在表1中,对于该国的每个县,在紧急分配需要深松土壤作业的农地之后。材料和方法深松作品中有松土和深松。疤痕用称为松土机的特殊设备松开土壤剖面(4580厘米),在不转动切割材料的情况下进行切割,破碎,研磨和松动土壤。本文旨在改善土壤中水分运动的系统,有利于从表面到深度的渗透过量,由于孔隙率增加,低穿透阻力,微生物活性增加,造成良好的体积密度(DA)发展根源的条件等等。这项工作的有效性取决于其执行的需要和机会。使这项工作需要特殊作用的因素之一是压实程度“GT”(表1)。表格1影响划痕的因素压实程度取决于土壤最小总孔隙度PMIN,孔隙度取决于土壤质地和总有效土壤PE的关系处理时间取决于土壤湿度,最佳值为IUA的6080(活跃土壤湿度范围),其内部因培养而不同(夏季或秋季的早期作物,收获后以及耕种前后种植春季或在准备苗床之前弹簧)。执行深度为45至80厘米,取决于土壤剖面和硬地板厚度的位置(厚15至20厘米的土壤层,位于不同深度,压实,不透水且不透水,防止深水渗透并有利于在上层出现过量的水分)。两幅作品之间的时间间隔取决于土壤质地为4粘土5年,黏土粘土5年6年,粉砂质土79年,910砂质壤土和1012年土壤盐分。基本上,这项工作是由拖拉机PTO驱动的松土器进行的,振荡或振动运动到6080厘米及以上的深度。如果工作与多余的排水工作结合在一起,则划伤的效率是最大的。深松深松(图1),具有周期性特征,特别适用于在草地(葡萄园,果树),泥质可耕地和易发生硬加工的多年生作物(图2)。HARDPAN是一个不渗透的土壤层,由于表面作业的表现和连续几年的相同深度耕作而发生。这项工作是在不同类型的工作中进行的,固定的或摆动的鱼鳍弯曲或直线,不同于装有两个或更多机身(最多5个凿子,深度松动设备)的拖拉机轮,破坏硬地板并将土壤松动至5060厘米,甚至更多的整个表面或条状。图2深度松动图3硬盘的例子深松效果取决于其他部分的执行深度低于40厘米,大田作物效果不佳,而深度过大则价格昂贵。在果园和葡萄园中,深松处理34年,葡萄园的深松犁可以部分恢复疏果效果。获得深松效应,并在土壤作业搅拌上部(深松装置),一个附着在犁上的部件,在515CM的深度上松开低能层,而不会将其带到表面。低耕层的搅动旨在缓解水和空气的深度渗透,增强有氧微生物过程,增加土壤养分库,加热土壤低可耕层和促进植物根系。土壤深度松动的农业技术指标为了在最佳条件下使土壤深度松动,需要考虑一系列的农业技术指标,其中指出如下考虑到防水层的位置及其厚度,根据土壤剖面确定松动深度(H)。最大深度松动7080厘米或更多。工作体(L)的工作宽度取决于通常依赖关系L2H之间的松动深度(H)。两部作品之间的横向距离(D)由指数决定(H)和(L)显示双重上升区域(图3)。必须根据土壤类型(轻微,中等和重度)选择两个活动物体之间的距离。因此,轻土壤和轻中等肥料对34个工作体有作用,对于中等至重度土壤,其数量减少,随后通过作用于以前未耕作的范围。图3松土器的有效器官之间的距离L工作宽度D两个活动物体之间的距离H工作深度建议松动工作的方向垂直于排水通道(适当时),以便将多余的水排入收集通道。如果土壤的压实程度很高,建议在两个垂直方向之后完成工作。在斜坡上,松散的土壤通常与轮廓平行以消除侵蚀的危险。只有在最佳湿度条件下运行时,深度松动的工作时间可能会有更长的影响。当湿度在活跃湿度间隔的6090之间时,满足最佳湿度条件。在含水量低于60的情况下,土壤太干燥,造成大块硬块,工作努力且能耗高。在松动土体的过程中,必须打破裂隙和裂缝,形成不规则的结构构件,必须相对移动,侧向推移到地面,这样就不能恢复原有的沉降。湿度大于90,减少了工作体对土壤切割的简单松动。深松工作表现的年龄建议在夏季,7月8月和秋季收获后的秋季。如果不干预潮湿时期,尤其是如果土地不适用于其他冬季作物,则可能会持续到10月份进行深度松动。还必须在施用有机肥料之前进行深度松动,并且在适当的情况下施用磷酸盐肥料和修改以去除多余的水分等。深松土的设备的工作过程和施工传统上,土壤曝气工程机械组可以根据在以下小组中进行的工作的目的进行分类,其使用频率最高用于松开被犁过的层的称为凿子的用于深松的耕种机用于松动准备工作的消化器用于定期更新解锁工作的设备用于深度松动土壤的机器,用于增加土壤层的空气和水渗透性。深松的固定体所进行的加工过程与犁体的加工过程类似,实现了表土到深度的加工,其对应的地面宽度约为BO2A(图4)。图4通过身体工作由AFNAREADNC加工的土壤剖面图考虑到作业机构(主动)的作用方式,深度松动土壤的机器可以配备简单的工作体,未经训练的(图5A)和复杂的工作机构,通过拖拉机的各种机构具有不同的驱动侧PTO图5B,C)。图5深松机器的主要类型A未经训练的工作B,C与工作的移动(训练)1活动的身体2支持3帧(前支架)对于未经训练的工作体的深松松土机,他们只是在被拖曳时才执行工作,而不会接受更多的运动。刚性工作机构安装在机器的固定支架上。不同的土壤深度松动机器按照相似的原理工作,它们之间的区别主要在于工作体的形状和类型以及工作深度。表2列出了用于松动土壤的设备的主要技术特征。表2技术特点结果与讨论尽管在罗马尼亚,需要进行深松土壤松动工程的土地面积相当可观(约3,000,000公顷或198的农业面积),但很长一段时间没有特定的设备要求。第一次尝试填补这个空隙代表了一种搅拌型OLT型,它由扁平凿子和一个直支撑组成,在犁PP330上安装成两件而不是组件支架1和3。6A)。与轮子上的478千瓦拖拉机(U650M,图6中的拖拉机配备了用于稻田的半拖车)合计,搅拌上OLT型的最大工作深度达到28厘米,并且一对夫妇的两个同样松动的土壤动力的轮式拖拉机的深度达37厘米。安装在PSP435犁上而不是零部件载体上。3(图6B)中,一台带478千瓦履带式拖拉机(S650)的搅拌器型OLT的最大工作深度为55厘米,相邻路径之间的距离为140厘米。图6安装在犁架PP330/PSP435上的STIRUPER型OLT虽然由于性能差(低工作深度,过度燃料消耗)而产生的数量较多(大约1200个单位),并且这种搅拌器的可靠性降低很少用于生产。对于土壤深度松动的施工,使用配备鼹鼠装置的机器MID02(图7)。图7使用摩尔装置的松开装置MID02对于沉重的土壤(泥泞,沼泽地)而言,为了达到60厘米的工作深度,机器必须由两台履带式拖拉机(图示为S650T74)的联轴器牵引,力的拉伸强度超过57103DAN。由于燃油消耗量高,可靠性非常低,使用MID02机械来处理深松土壤并没有扩散。在装有松土器的S1500LS拖拉机上满足深松土壤工作的广泛用途(图8)。图8拖拉机S1500的松土机设计用于建筑工程,土地开垦,森林砍伐等,S1500LS拖拉机配备有三个活动器官的间隙器,间距为1125毫米,构造工作深度为40厘米。因此,松动疏松活性物体的工作在深度远大于设计的深度时开始工作,导致运行异常,额外的能源消耗。为了消除这些缺点,INMA布加勒斯特公司设计并制造了一种用于深松土壤的松土机构,特别是安装在松土机上的S1500LS拖拉机A120,位于中心位置(图9)。图9拖拉机S1500LS1的松开本体A120支架的结构允许在63100MM之间安装松动凿子宽度。在坚硬的土壤条件下,最大作业深度达到90厘米,拉力达到811103DAN,油耗超过90L/公顷。由于工作成本高,农业单位现有的110千瓦履带式拖拉机数量有限,该机器尚未投入生产。对于132KW的轮式拖拉机(A1800A型或其他类似拖拉机),INMA布加勒斯特公司设计并制造了装有3或5(图10)型松紧装置的深松装置SP3(5)用犁刀凿平和弯曲的托架。安装的深松设备SP3(5)用于在深达40至50厘米深处松动土壤,有效器官之间的距离可在520至1040毫米之间调节,固定步长为130毫米。凿凿宽度为60毫米,三辆有源组件的质量为950千克。图10SUBSOLIERULPURTATSP3(5)ECHIPATCU3/5有机酸1在PODZOL土壤类型的工作中,水分层已经工作2023,拖拉机A1800的速度为210KM/H,在更换过程中工作容量为1420的车轮滑动047公顷,平均油耗为50升/公顷(图11)。图11安装在工作中的深度松动装置SP3(5)1深度松动设备SP3(5)在阿拉德企业机械公司的批量生产中投入生产,但它的使用条件是轮式拖拉机132KW(A1800)。使用相同的活动体安装的深度松动装置SP3(5),机械企业ARAD制造了一种深松装置的变体,用于履带式拖拉机S1500的5个工作体(图12)。叶片之间的距离为500MM,并且具有三个活动部件的机器的质量为1200KG。由于它们的线性排列,在一条线上,当工作的深度松动设备中,活动体频繁地陷入泥泞,因为泥土向前移动到单位土体重量的方向。此外,深松设备无法水平摆动到拖拉机上,以控制难以维护的单元区域的移动方向。图12深松设备S1500型拖拉机的5个主体2为了在ICSITMUA上使用振动进行深松松动,我们制作了深度松动设备SV2(图13)。深松设备配备两个活动体,刚性安装在框架上,带有两个旋转不平衡块的振动器(用于施工压实台)用于执行整个机器的定期运动,而不仅仅是活动体。图13亚音速振动器SV2,主旋转平衡器3同样,奥拉迪亚的实验模型也被制成了一种用于在两个正交平面中使用工作振动器进行深层松动的机器(图14)。图14工作振动器在两个正交平面运行时松动土壤的机器4设计用于总功率为132KW的拖拉机轮(A1800),深度为40至80厘米,机器配备两个工作机构。在没有配备1000千瓦/分钟独立动力的132千瓦拖拉机轮(A1800)的情况下,用于驱动实验模型中的活动体时,使用了一台外部网络驱动的,功率为50千瓦,转速为975转/分钟的电动机。装备齐全的重量为2950公斤。由于运行振动器配备132千瓦动力输出的建设性拖拉机的复杂性和缺乏,该机器尚未扩大到批量生产。在2000年之后,他们同意制造凿子犁PC70(图15)和深松设备PC130C(S)(图16),这些设备用于土壤工程以建立谷物修复和保守系统,经常工作的深松低耕层,与高功率拖拉机一起工作。图15凿犁PC701图16凿犁和深松设备PC130S1图17含有活性物质的深层土壤松动技术设备EAA5结论工作未经训练的深松土壤松动机器仅仅是因为机器被拖曳而没有进行更多的运动而执行该过程。刚性工作机构安装在机器的固定支架上。不同的土壤深度松动机器以相似的原理工作,他们区分它们,主要由工作体的形状和类型以及工作深度决定。用于松动设备的工作体可以是仅由拖拉机的PTO驱动的固定,往复式或摆动式犁刀。带有工作秋千的设备可以很好地松开深度,并且可以将必要工作的能耗降低到很大的深度,但与具有固定工作体的设备相比,具有更高的设计复杂性,不可靠性和更高的成本。在罗马尼亚生产的土壤松动/深松的器官相对较少雕刻FP7刀具和深度松动设备PC13OC(S)带垂直摆动刀片和凿子摆动SPV45和SPS50,适用于葡萄园和温室或日光浴室。参考书目1技术事实INMA布加勒斯特2TECHNICALFACTNTREPRINDEREAMECANICARAD3技术事实ICSITMUA4技术事实CRSMAORADEA5HTTP/WWWINMARO/ADER_2020/EUGEN/CONTRACT_1_3_5_2011HTMANALELEUNIVERSITIIDINCRAIOVA,SERIAAGRICULTURMONTANOLOGIECADASTRUANNALSOFTHEUNIVERSITYOFCRAIOVAAGRICULTURE,MONTANOLOGY,CADASTRESERIESVOLXLIV201425CONSTRUCTIONEVOLUTIONOFDEEPSOILLOOSENINGEQUIPMENTINROMANIAINTHECOUNTRYSPECIFICSOILCONDITIONSBDESCUM1,CROITORUT1,PETCUA2,MARINE2,BORUZS1,IVANGH2,VLDUV2,MATACHEM2,CUJBESCUD2,VOICEAI21UNIVERSITYOFCRAIOVA2INMABUCHARESTKEYWORDSDEPTH,AERATION,EQUIPMENT,WORKINGBODY,SOILABSTRACTTHISPAPERPRESENTSTHEMAINACHIEVEMENTSOFTHELARGESTMANUFACTURERSOFDEEPSOILLOOSENINGMACHINESANDEQUIPMENT,HIGHLIGHTINGTHESPECIFICCHARACTERISTICSOFEACHDEVICE,SOTHATTHEYACHIEVEAVERYGOODJOBLOOSENINGINDEPTH,USINGANLOWENERGYSOURCEFORTHESAMEWORKINGWIDTHINTRODUCTIONROMANIAFACESADEGREEOFDETERIORATIONOFSOILQUALITYTHROUGHEROSION,ACIDIFICATION,ALKALIZATION,EXCESSOFMOISTUREORDROUGHT,SALINIZATION,COMPACTIONETCTHEMAINPROCESSOFSOILDEGRADATIONBYEXTENSIONANDSOCIOECONOMICIMPACTISTHEEROSIONBYWATER,WHICHTOGETHERWITHLANDFALLOVER7MILHECTARESOFFARMLANDTHESECONDMOSTIMPORTANTFACTORINSOILDEGRADATIONISPERIODICWATERLOGGINGAFFECTING38MILLIONHAOFAGRICULTURALLANDANDFORESTLAND06MILLIONANDEXCESSFREQUENTDROUGHTMANIFESTSAPPROX71MILLIONHAOFFARMLANDAND02MILLIONHECTARESOFFORESTAPRIMARYPROCESSNATURALLYENCOUNTEREDISSALINIZATION,WHICHISLARGELYENHANCEDBYSOMEAMELIORATIVEIMPROPERLYAPPLIEDTECHNIQUESSUCHASDAMMING,DRAINAGEANDIRRIGATIONANIMPORTANTROLEINSOILDEGRADATIONOCCUPIESANTHROPOGENICSOILCOMPACTIONANDCRUSTINGCOMPACTIONISFOUNDONABOUT13MILHECTARESOFARABLESOILBEINGDUEMAINLYWEIGHTAND/ORTOOFREQUENTUSEOFAGRICULTURALEQUIPMENT,ESPECIALLYINHUMIDCONDITIONSUNSUITABLESOILORTHETOODRYSOILORTOOWETSOILSTHELASTONESISMAINLYARESULTOFHIGHERLOADONATRACTOROFTHEARABLEAREACRUSTANDFILLINGSOILPORES22MILHAOCCURSMOSTLYSILTYANDCLAYEYSOILSWITHLOWORGANICMATTERCONTENT,HIGHERHORIZONSTRUCTUREDESTROYEDASARESULTOFINTENSIVEAGRICULTURALWORKANDREPEATEDLYMADEIMPROPERMOISTURECONDITIONS,WITHPOORVEGETATIONCOVERTHATALLOWSMAXIMUMIMPACTOFRAINDROPSEXCESSOFMOISTUREONTHESURFACEISDUETOTHEEXISTENCE,FROMTHEDEPTHSOF3540CM,AHARDLAYERPERMEABLETOWATERANDAIRBHORIZONCLAYILUVIAL,FINETEXTUREOFTHEDEPOSITSTHATWEREFORMEDTHESOILSEXBLACKANDBROWNPOORSOILSHUMIFERECLAY,COMPACT,VERTISOLSONTHEOTHERHAND,THEINTENSIVEUSEOFSOILSUNDERCHEMICALIZEDANDMECHANIZEDAGRICULTURE,WHILETHEYSUFFERAPROGRESSIVECOMPACTIONPROCESSESINMOSTCULTIVATEDSOILSATDIFFERENTDEPTHSTOFORMATHICKCOMPACTLAYEROF1520CMHARDPERMEABLETOWATERANDAIR,WHICHPROMOTESTHEEXPANSIONOFTHEEXCESSOFMOISTUREINTHEUPPERLAYERS,WHILETHEVOLUMEOFWATERDUETOSOILPLANTSREDUCEPEDOLOGICALDROUGHTOCCURRINGINYEARSWITHLESSPRECIPITATIONUNDERTHECONDITIONSOFOURCOUNTRY,WHERERAINFALLISUNEVENLYDISTRIBUTEDDURINGTHEYEAR,THESESOILSSUFFERASTRONGALTERNATIVEOFEXCESSINMOISTUREANDAERATIONDEFICITDURINGSPRINGTIMEANDDURINGSUMMERTIMEAMOISTUREDEFICITANALELEUNIVERSITIIDINCRAIOVA,SERIAAGRICULTURMONTANOLOGIECADASTRUANNALSOFTHEUNIVERSITYOFCRAIOVAAGRICULTURE,MONTANOLOGY,CADASTRESERIESVOLXLIV201426TOPREVENTANDREMOVETHEDEFICIENCIESSHOWNANDATTHESAMETIMEINCREASINGTHEEFFICIENCYOFLANDIMPROVEMENTWORKSISNECESSARYTOAPPLYASETOFAGROIMPROVEMENTMEASURES,WHERETHESOILDEEPLOOSENINGOFPARTICULARIMPORTANCEINTERMSOFPEDOLOGY,THESOILINTERESTEDINWORKSDEEPSOILLOOSENINGBELONGSTOTHEFOLLOWINGMAINTYPESANDSUBTYPESPODZOLICCLAYILUVIALUSUALLYPSEUDOGLEYEDBROWNFORESTSOILS,PODZOLICOFTEN,PSEUDOGLEYEDSOMEREDDISHBROWNFORESTSOILSVERTISOLSSMOLNASOMEMARSHYGROUNDSANDSOLONETZSCLAYSOMECHERNOZEMSLEACHATECLAYTHEAREAOCCUPIEDINOURCOUNTRYWITHTHESOILSWITHAHIGHDEGREEOFDETERIORATIONOFSOILQUALITYISABOUT198OFTHETOTALAGRICULTURALAREAEMERGENCYORDERTOIMPLEMENTIMPROVEMENTWORKSWASESTABLISHEDAGROPEDOLOGYEXPERTS,TAKINGINTOACCOUNTTHEINTENSITYOFMANIFESTATIONOFTHENEGATIVECHARACTERISTICSOFTHESOIL,THEEXPECTEDEFFICIENCYOFTHEWORK,THESLOPEOFTERRITORIALORGANIZATION,THEPOSSIBILITIESFORMECHANIZATIONETCFROMTHESEPOINTSOFVIEWTHATTHEURGENCYFIRSTLIESANAREAOFABOUTA13MILLIONHECTARES,SPREADIN36COUNTIESINTABLE1,FOREACHCOUNTYINTHECOUNTRY,AFTERTHEEMERGENCYDISTRIBUTIONOFAGRICULTURALLANDSTHATREQUIREDEEPSOILLOOSENINGWORKSMATERIALANDMETHODAMONGTHEDEEPLOOSENINGWORKSSTANDSBYSCARIFICATIONANDSUBSOILINGSCARIFICATIONCONSISTSINLOOSENINGSOILPROFILE4580CMWITHSPECIALEQUIPMENTCALLEDSCARIFIER,PERFORMI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