喜歡就充值下載吧。。資源目錄里展示的文件全都有，，請放心下載，，有疑問咨詢QQ:414951605或者1304139763 ======================== 喜歡就充值下載吧。。資源目錄里展示的文件全都有，，請放心下載，，有疑問咨詢QQ:414951605或者1304139763 ======================== 畢 業(yè) 設(shè) 計(jì) 任 務(wù) 書 1．畢業(yè)設(shè)計(jì)課題的任務(wù)和要求： 1.1了解125型炮彈的裝配工藝； 1.2熟練掌握Solidworks軟件的應(yīng)用； 1.3設(shè)計(jì)一套裝配機(jī)構(gòu)實(shí)現(xiàn)炮彈的精密裝配； 1.4 對設(shè)計(jì)的精密裝配機(jī)進(jìn)行實(shí)體造型并生成工程圖紙。 1.5 書寫畢業(yè)設(shè)計(jì)說明書。 2．畢業(yè)設(shè)計(jì)課題的具體工作內(nèi)容（包括原始數(shù)據(jù)、技術(shù)要求、工作要求等）： 2.1 參考內(nèi)容： 包括一套用于精密裝配的沖頭尺寸圖（另附），炮彈彈體的重要輪廓尺寸圖（如下）。 2.2技術(shù)要求： 1）裝成后彈體表面的圓跳動要求為：0.05㎜； 2）銅芯內(nèi)表面的圓跳動為：0.03㎜。 3）裝配壓力：3噸 2.3設(shè)計(jì)內(nèi)容： 1）精裝機(jī)整套機(jī)構(gòu)的設(shè)計(jì)，包括： 彈體固定整形機(jī)構(gòu)、快速壓下機(jī)構(gòu)、壓緊機(jī)構(gòu)以及機(jī)架和導(dǎo)向部分等結(jié)構(gòu)； 2）編寫操作使用說明書。 畢 業(yè) 設(shè) 計(jì) 任 務(wù) 書 3．對畢業(yè)設(shè)計(jì)課題成果的要求（包括畢業(yè)設(shè)計(jì)、圖紙、實(shí)物樣品等)： 3.1 提交畢業(yè)設(shè)計(jì)說明書一份（包括相關(guān)內(nèi)容的外文文獻(xiàn)的翻譯）； 3.2 提交機(jī)構(gòu)及零件的工程圖紙。 4．畢業(yè)設(shè)計(jì)課題工作進(jìn)度計(jì)劃： 起 迄 日 期 工 作 內(nèi) 容 2015年 3月 8日～3月15日 3月 16日～4月3日 4月 4日～ 4月25日 4月26日～5月10日 5月11日～5月30日 6月1日～6月10日 6月11日～6月20日 完成資料的查找和收集和開題報(bào)告 完成方案設(shè)計(jì) 完成設(shè)計(jì)工作 完成系統(tǒng)的建模和圖紙的生成、整理 整理畢業(yè)設(shè)計(jì)說明書,完成所有設(shè)計(jì)工作 論文修改 論文答辯 學(xué)生所在系審查意見： 可以書寫開題報(bào)告 系主任： 2016 年 3 月 8 日 畢 業(yè) 論 文 開 題 報(bào) 告 1．結(jié)合畢業(yè)論文情況，根據(jù)所查閱的文獻(xiàn)資料，撰寫2000字左右的文獻(xiàn)綜述： 文 獻(xiàn) 綜 述 1.1炮彈發(fā)射藥裝藥機(jī)概念 火炮發(fā)射裝藥的元件結(jié)構(gòu)包括發(fā)射藥容器、發(fā)射藥、點(diǎn)傳火機(jī)構(gòu)、輔助元件等。 發(fā)射藥容器，它是容納火藥和其它輔助元件的結(jié)構(gòu)，用于保持發(fā)射裝藥形狀和結(jié)構(gòu)強(qiáng)度，防止火藥受潮和遭受意外沖擊，按結(jié)構(gòu)可分為藥筒和藥包兩大類。 傳統(tǒng)藥筒由金屬材料（一般使用材質(zhì)較軟易于加工的黃銅）沖壓制成，這種藥筒結(jié)構(gòu)強(qiáng)度高，能夠方便的密閉火藥燃?xì)?，發(fā)射后退出炮膛還可以進(jìn)行回收重新利用，所以使用非常廣泛。但是它會占用大量寶貴的金屬資源，而且發(fā)射后的退殼和拋殼動作還限制了火炮射速的提高，大量廢舊藥筒的回收處理也給后勤部門帶來巨大壓力。所以隨著技術(shù)的進(jìn)步，出現(xiàn)了所謂的全可燃和半可燃藥筒。這些藥筒具有和金屬藥筒相近的結(jié)構(gòu)強(qiáng)度和密封性能，但是藥筒部分主體可以在火炮藥室內(nèi)燃燒殆盡，從而省去上面的各種麻煩。全可燃藥筒因?yàn)闊o法密閉火藥燃?xì)?，所以需要在炮閂上增加專用的密封緊塞具，而半可燃藥筒則在藥筒底部增加了一個很短的金屬彈底解決燃?xì)饷荛]問題，采用這種結(jié)構(gòu)藥筒的炮彈主要用在射速較高，而且體積有限的坦克炮上。除了可燃藥筒裝藥以外，近年來我國還針對大口徑壓制火炮可燃藥筒加工生產(chǎn)困難的問題研制開發(fā)了塑料藥筒技術(shù)。同樣作為金屬藥筒的替代產(chǎn)品，塑料藥筒在解決了結(jié)構(gòu)強(qiáng)度和抗燒蝕問題后，生產(chǎn)成本和技術(shù)難度都要低于金屬及可燃藥筒。藥筒本身結(jié)構(gòu)重量較輕，而且因?yàn)楹徒饘偎幫蚕啾瘸杀緲O低，使用后可以直接拋棄，無需回收。塑料藥筒裝藥已經(jīng)在國產(chǎn)新型155mm自行加榴炮武器系統(tǒng)上成功應(yīng)用，對其它采用藥筒裝藥的火炮（特別是大中口徑火炮）來說，也具有較高的推廣價值。 發(fā)射藥，發(fā)射藥就是通過燃燒產(chǎn)生能量，推動彈丸前進(jìn)和火炮后座的火藥，是火炮發(fā)射裝藥中最重要，也是直接實(shí)現(xiàn)其功能的部分。它的種類、尺寸、形狀、質(zhì)量及在藥筒和藥室中的配置形式對火炮的那彈道性能起著決定性作用。 現(xiàn)代火藥有顆粒狀和長管狀兩種形狀結(jié)構(gòu)，多孔粒狀火藥裝填密度大，而且具備明顯的增面燃燒特性，燃?xì)馍伤俾时容^穩(wěn)定。它加工生產(chǎn)非常簡單，用一種牌號的粒狀火藥就能廣泛適應(yīng)多種火炮的需求。但是粒狀火藥在藥筒（藥包）內(nèi)成無規(guī)則排列，彈底發(fā)射藥點(diǎn)燃以后容易造成傳火不暢現(xiàn)象的發(fā)生，進(jìn)而影響發(fā)射藥燃燒的穩(wěn)定性。比較而言，長管狀裝藥雖然加工成本較高，容易產(chǎn)生侵蝕燃燒和燃燒殘留現(xiàn)象，但是特別有利于傳火，而且在低溫環(huán)境下引燃穩(wěn)定。所以，76mm以下中小口徑航炮、高射炮、艦炮可以全部采用粒狀裝藥；而100mm高射炮，120/152mm坦克炮等藥室長度大，裝藥量多的大口徑火炮一般都采用管狀裝藥。以上分類主要針對藥筒裝藥的火炮，對于采用藥包裝藥或模塊化裝藥的榴彈炮、加榴炮來說，雖然總裝藥量較大，但是單一藥包（模塊）體積有限，故仍然采用粒狀裝藥。 點(diǎn)傳火機(jī)構(gòu)，點(diǎn)傳火機(jī)構(gòu)就像爆竹的火捻一樣，利用最簡單的外部擊發(fā)沖量而產(chǎn)生足夠的熱量點(diǎn)燃發(fā)射藥，顧名思義，由點(diǎn)火器件和傳火器件組成。不同結(jié)構(gòu)的火炮裝藥所采用的點(diǎn)傳火器件也各不相同，采用金屬藥筒（也包括帶金屬彈底的半可燃藥筒）的發(fā)射裝藥都采用火帽或者底火作為基本點(diǎn)火具。它們一般都安裝在火炮藥筒底部中心，內(nèi)部裝有少量對沖擊非常敏感的雷汞等化學(xué)物質(zhì)作為擊發(fā)劑，只要火炮的擊針撞擊底火，就會引燃擊發(fā)劑。對于25mm口徑以下的火炮彈藥，使用只含有擊發(fā)劑的火帽就足夠了，而37mm口徑以上的火炮彈藥因?yàn)檠b藥量較多，需要更大的擊發(fā)能量，這時就需要少量的黑火藥作為輔助點(diǎn)火劑，輔助點(diǎn)火劑和火帽的結(jié)合體就是底火。采用全可燃藥筒和藥包（模塊）裝藥火炮彈藥因?yàn)榻Y(jié)構(gòu)強(qiáng)度不足，無法在底部安裝底火，所以采用擊發(fā)門管作為基本點(diǎn)火具，它的基本結(jié)構(gòu)和底火相同，但是做成了黃銅外殼的獨(dú)立器件，使用時直接放到火炮炮閂的擊發(fā)門管室里。早期火炮的擊發(fā)門管需要炮手人工裝填，費(fèi)時費(fèi)力，目前需要使用擊發(fā)門管擊發(fā)的火炮一般都會在炮閂上安裝門管自動裝填機(jī)構(gòu)，從而縮短了火炮彈藥的裝填時間。 大口徑火炮裝藥還需要進(jìn)一步增大擊發(fā)能量才能保證發(fā)射藥正常點(diǎn)火，這就用到了傳火器件，也就是點(diǎn)火藥包和傳火管。點(diǎn)火藥包是一小包放置在藥筒底部或者縫制在藥包底部的黑火藥，它和底火緊密相連，由底火直接點(diǎn)燃，燃燒后產(chǎn)生足夠的能量引燃全部發(fā)射藥。傳火管是一個開有很多傳火孔的中空細(xì)管，內(nèi)部裝滿黑火藥，一頭直接連接到底火上，另一頭則深深插入發(fā)射藥粒中，傳火管在密實(shí)的發(fā)射藥粒內(nèi)提供了一條火藥最初的燃燒通路，有力地保證了發(fā)射藥點(diǎn)火均一性和穩(wěn)定性，因此裝填密實(shí)的大藥量粒狀發(fā)射藥一般都會用到傳火管作為傳火器件。 輔助元件，在火炮發(fā)射裝藥的組成機(jī)構(gòu)中，還有很多結(jié)構(gòu)不同，功能各異的輔助元件，他們雖然不是裝藥結(jié)構(gòu)的主要部分，但是都為裝藥效能的充分發(fā)揮起著重要作用。這些輔助元件主要包括護(hù)膛劑、消焰劑、除銅劑、緊塞具、密封蓋等。 目前實(shí)際使用的身管火炮發(fā)射藥結(jié)構(gòu)主要有兩種類型：一是采用粒狀裝藥用傳火管點(diǎn)火的結(jié)構(gòu)，二是采用粒狀藥加常關(guān)狀裝藥，或全部采用長管狀裝藥用點(diǎn)火藥包點(diǎn)火的結(jié)構(gòu)。但也有少數(shù)彈藥，比如采用分裝式結(jié)構(gòu)的俄制坦克炮用125mm脫殼穿甲彈會同時采用傳火管和點(diǎn)火藥包構(gòu)成的混合結(jié)構(gòu)。 護(hù)膛劑是大大威力火炮發(fā)射裝藥必不可少的元件，它是一層包裹在發(fā)射藥外層的底燃點(diǎn)物質(zhì)，射擊時能夠在高溫火藥燃?xì)夂团谔艃?nèi)壁之間形成一個低溫夾層，有效保護(hù)了火炮內(nèi)膛不被火藥燃?xì)鉄g，提高了火炮身管壽命。 ? ????火藥燃?xì)庠谂诳诤团谖才c空氣中的氧氣發(fā)生二次燃燒產(chǎn)生的強(qiáng)烈火焰，這些炮口（炮尾）火焰不但會暴露火炮發(fā)射陣地，而且會對炮手造成傷害，以硫酸鉀為主要成分的消焰劑就是消除這些火焰影響的裝藥元件。 ? 使用紫銅彈帶的線膛炮因?yàn)閺棊Р馁|(zhì)較軟，因此會在發(fā)射時產(chǎn)生“掛銅”現(xiàn)象，膛線上的殘銅積攢過多就會對彈丸前進(jìn)產(chǎn)生額外阻力，導(dǎo)致火炮初速下降，膛線磨損加劇。因此這類火炮的發(fā)射裝藥內(nèi)都會添加專門的除銅劑元件，消除“掛銅”現(xiàn)象。 針對不同的彈道要求，火炮的發(fā)射裝藥可分成以下幾種構(gòu)造形式：藥筒定裝式發(fā)射裝藥、藥筒分裝式發(fā)射裝藥、藥包分裝式/模塊化發(fā)射裝藥、特殊彈種的發(fā)射裝藥、迫擊炮裝藥、無后坐力炮裝藥。 1.2研究現(xiàn)狀 以下列舉一系列目前國內(nèi)和國際上的裝藥結(jié)構(gòu)： 美制M830型120mm多用途彈 國產(chǎn)雙管25mm高炮的可散彈鏈內(nèi)補(bǔ)充炮彈，為了和自動機(jī)配合以實(shí)現(xiàn)高射速，各種中小口徑自動炮幾乎無一例外地采用了金屬藥筒定裝式裝機(jī)構(gòu)。 西方國家現(xiàn)代主戰(zhàn)坦克炮彈普遍采用半可燃藥筒定裝式發(fā)射裝藥，藥筒白色的是可燃部分，底部銀灰色的是閉氣和安裝底火用的金屬短彈底。 俄羅斯2C19式152mm自行加榴炮為了實(shí)現(xiàn)彈藥全自動裝填，同樣采用了金屬藥筒分裝式發(fā)射藥。 1.3研究目的 利用掌握的Solidworks軟件設(shè)計(jì)一套炮彈發(fā)射藥裝藥機(jī)的裝配機(jī)構(gòu)實(shí)現(xiàn)炮彈的精密裝配;并編寫操作使用說明書 參考文獻(xiàn)： [1]習(xí)重華;高危產(chǎn)品生產(chǎn)過程安全問題的探討[J];兵工自動化;2008年08期 [2]馬云富;我國彈藥裝藥裝配技術(shù)現(xiàn)狀及發(fā)展對策[J];兵工自動化;2009年09期 [3]李琳琳;張欲立;張宏光;徐恒秋;常東;;一種大口徑戰(zhàn)斗部分步壓裝藥有限元模擬與實(shí)驗(yàn)[J];兵工自動化;2011年05期 [4]李錦;黃權(quán);李全俊;;雙計(jì)量板高效加藥機(jī)的創(chuàng)新設(shè)計(jì)[J];四川兵工學(xué)報(bào);2011年09期 [5]雙海軍;我國通用彈藥發(fā)展戰(zhàn)略的思考;[J];兵工自動化;2012年07期 [6]邢存震;張玉光;周威;黃維平;中大口徑炮射榴彈裝藥技術(shù)體系化的發(fā)展對策研究[J];裝備制造技術(shù);2013年03期 [7]王秋雨;吳軍;孫家利;加強(qiáng)標(biāo)準(zhǔn)化科技創(chuàng)新 提高企業(yè)核心競爭力[J];兵工自動化;2014年07期 [8]雷林;劉桂林;張博;國外火炸藥生產(chǎn)安防技術(shù)裝備現(xiàn)狀及發(fā)展趨勢[A];第二屆全國危險(xiǎn)物質(zhì) [9].梁斌;陳忠富;盧永剛;楊世全;;不同材料殼體裝藥對爆破威力影響分析[J];解放軍理工大學(xué)學(xué)報(bào)(自然科學(xué)版);2007年05期 [10]彭旭;高豐;基于連續(xù)動態(tài)旋轉(zhuǎn)結(jié)構(gòu)的槍彈自動裝藥技術(shù)[J];兵工自動化;2010年07期 [11].劉猛;趙萬江;倪慶杰;孫是君;炮射火箭增程發(fā)動機(jī)裝藥試驗(yàn)研究與選優(yōu)[J];沈陽理工大學(xué)學(xué)報(bào);2012年06期 [12]李便花;潘會平;孔俊峰;和海亮;苑哲;;基本裝藥銅座與保護(hù)帽脫落故障分析及工藝改進(jìn)[J];新技術(shù)新工藝;2014年03期 [13]陳文;張慶明;胡曉東;白潤青;侵徹過程沖擊載荷對裝藥損傷實(shí)驗(yàn)研究[J];含能材料;2009年03期 [14]侯聰花;王晶禹;某裝藥彈振動特性的安全分析[J];中國安全科學(xué)學(xué)報(bào);2009年08期 [15]李家亮;董素榮;常秀英;馮雷江;星形串聯(lián)裝藥的設(shè)計(jì)方法[J];彈箭與制導(dǎo)學(xué)報(bào);2013年02期 [16]田棣華;兵器科學(xué)技術(shù)總論.北京理工大學(xué)出版社 2003-8 [17]成大先。機(jī)械設(shè)計(jì)圖冊?；瘜W(xué)工業(yè)出版社 2000.1 （1） 畢 業(yè) 論 文 開 題 報(bào) 告 ２．本課題要研究或解決的問題和擬采用的研究手段（途徑）： 1研究的問題 （1） 確定單體固定的整形機(jī)構(gòu)所選用的材料； （2） 裝藥機(jī)的快速下壓機(jī)構(gòu)； （3） 彈藥的壓緊機(jī)構(gòu)以及機(jī)架和導(dǎo)向部分等結(jié)構(gòu)； 2研究的手段 （1）確定炮彈彈體固定整形機(jī)構(gòu)的具體材料，并保證裝成后彈體表面的圓跳動要求為：0.05mm （2）根據(jù)已給的參考內(nèi)容使用Solidworks軟件將給出參考的沖頭和彈體圖設(shè)計(jì)具體的發(fā)射藥容器、發(fā)射藥、點(diǎn)傳火機(jī)構(gòu)、輔助元件 （3）發(fā)射藥容器選擇藥筒定裝式發(fā)射裝藥 ，這種藥筒結(jié)構(gòu)強(qiáng)度高，能夠方便的密閉火藥燃?xì)猓? （4）發(fā)射藥與準(zhǔn)備做成類似蜂窩煤的形狀方便裝填； （5）沖頭結(jié)構(gòu)為快速下壓機(jī)構(gòu)需要保證銅芯內(nèi)表面的圓跳動為：0.03mm，讓彈藥在裝藥容器內(nèi)不發(fā)生晃動并與容器壁發(fā)生碰撞 （6）在裝配過程中需要保證裝配的壓力在3噸左右，不可太大，也不可太小 畢 業(yè) 論 文 開 題 報(bào) 告 指導(dǎo)教師意見： 接下來去完成相關(guān)零件的設(shè)計(jì)和相關(guān)數(shù)據(jù)，制定相關(guān)的設(shè)計(jì)方案。不懂的問題及時查閱資料，或者咨詢老師，務(wù)必自己設(shè)計(jì)完成，同意開題。 指導(dǎo)教師： 2016 年 5月 5 日 所在系審查意見： 同意開題 系主任： 2016年 5月 5 日 附件：參考文獻(xiàn)注釋格式 學(xué)術(shù)期刊 作者﹒論文題目﹒期刊名稱，出版年份，卷(期)：頁次 如果作者的人數(shù)多于3人，則寫前三位作者的名字后面加“等”，作者之間以逗號隔開。例如： [1] 李峰，胡征，景蘇等. 納米粒子的控制生長和自組裝研究進(jìn)展. 無機(jī)化學(xué)學(xué)報(bào)， 2001, 17(3): 315~324 [2] J.Y.Li, X.L.Chen,H.Li. Fabrication of zinc oxide nanorods. Journal of Crystal Growth, 2001,233:5～7 學(xué)術(shù)會議論文集 作者﹒論文題目﹒文集編者姓名﹒學(xué)術(shù)會議文集名稱，出版地：出版者，出版年份：頁次 例如： [3] 司宗國，謝去病，王群﹒重子湮沒快度關(guān)聯(lián)的研究﹒見趙維勤，高崇壽編﹒第五屆高能粒子產(chǎn)生和重離子碰撞理論研討會文集，北京：中國高等科學(xué)技術(shù)中心，1996：105 圖書 著者﹒書名﹒版本﹒出版地：出版者，出版年﹒頁次 如果該書是第一版則可以略去版次。 例如： [4]韓其智，孫洪洲﹒群論﹒北京：北京大學(xué)出版社，1987﹒101 預(yù)印本 作者﹒論文題目﹒預(yù)印本編號（出版年份） 例如： [5]Xiaofeng Guo and Jianwei Qiu﹒The leading power corrections to the structure functions﹒hep—ph/9810548(1998) 學(xué)位論文 作者﹒論文題目﹒學(xué)士(或碩士、博士)學(xué)位論文. 出版地：出版者，出版年份 例如： [6] 陳異. 納米粒子形貌控制研究. 碩士學(xué)位論文. 北京：中國科學(xué)院, 2002 電子文獻(xiàn) 主要責(zé)任者. 電子文獻(xiàn)題名﹒電子文獻(xiàn)的出處或可獲地址. 發(fā)表或更新日期 例如： [7] 王明亮. 關(guān)于中國學(xué)術(shù)期刊標(biāo)準(zhǔn)化數(shù)據(jù)庫系統(tǒng)工程的進(jìn)展. http://www.caycd.edu.cn/pub/wml.txt/980810-2.html, 1998-08-16 專利 專利所有者. 專利名稱. 專利國別：專利號，日期. 例如： [8] 姜錫洲.一種溫?zé)嵬夥笏幹苽浞桨? 中國專利：881056073，1989-07-26. 炮射巡邏彈發(fā)展趨勢及研究方向 朱　勇　　劉　莉 摘　要：針對采用各類陸軍火炮和海軍艦炮作為發(fā)射平臺的炮射巡邏彈,介紹了其發(fā)展歷史及發(fā)展現(xiàn)狀,總結(jié)出在不斷應(yīng)用相關(guān)成熟技術(shù)的基礎(chǔ)上追求智能化、靈巧化、低成本已成為炮射巡邏彈的發(fā)展趨勢。另外,簡要介紹了炮射巡邏彈總體設(shè)計(jì)研究領(lǐng)域的一些關(guān)鍵技術(shù),如抗高過載技術(shù)、機(jī)翼制造技術(shù)、彈道減速減旋技術(shù)、總體多學(xué)科設(shè)計(jì)優(yōu)化技術(shù)、小型低推力長航時發(fā)動機(jī)技術(shù)、雙向遠(yuǎn)距離抗干擾數(shù)據(jù)鏈技術(shù)及目標(biāo)偵察及航跡規(guī)劃技術(shù)等,對上述問題的深入研究將有利于炮射巡邏彈的進(jìn)一步發(fā)展。 關(guān)鍵詞：炮射巡邏彈　　關(guān)鍵技術(shù)　　發(fā)展趨勢　　綜述 引　言 巡邏彈是一種利用現(xiàn)有武器投放,能在目標(biāo)區(qū)進(jìn)行巡邏飛行,可承擔(dān)監(jiān)視、偵察、戰(zhàn)斗毀傷評估、空中無線中繼及攻擊目標(biāo)等單一或多項(xiàng)任務(wù)的彈藥(或子彈藥)。炮射巡邏彈就是兼容目前陸軍各類火炮和海軍艦炮系統(tǒng),采用炮射方式進(jìn)行發(fā)射的巡邏攻擊彈。 炮射巡邏彈是集合常規(guī)制導(dǎo)炮彈和無人機(jī)相關(guān)技術(shù)的一種產(chǎn)物,具有許多優(yōu)越之處,與常規(guī)彈藥相比,它多出一個“巡邏彈道”,留空時間長、作用范圍大,可發(fā)現(xiàn)并攻擊隱蔽的時間敏感目標(biāo);與無人機(jī)相比,它能快速進(jìn)入作戰(zhàn)區(qū)域,突防能力強(qiáng),戰(zhàn)術(shù)使用靈活;與制導(dǎo)炮彈相比,它能根據(jù)戰(zhàn)場情況變化,自主或遙控改變飛行路線和任務(wù),對目標(biāo)形成較長時間的威脅,實(shí)施“有選擇”的精確打擊,并實(shí)現(xiàn)彈與彈之間的協(xié)同作戰(zhàn);與其它類型的巡邏彈相比,它的發(fā)射平臺簡單,可以和炮彈配合使用,由于利用火炮系統(tǒng)提供的高初速,能夠快速進(jìn)入作戰(zhàn)區(qū)域,有很強(qiáng)的時效性。 1　發(fā)展歷史與現(xiàn)狀 美國是最早研制巡邏彈的國家,其研制的LOCAAS (LowCost Autonomous Attack System,低成本自主攻擊系統(tǒng))和網(wǎng)火系統(tǒng)中的LAM (Loiter AttackMissile,巡邏攻擊導(dǎo)彈)可以說是巡邏彈中的代表。美國也是最早將巡邏彈兼容到火炮和艦炮發(fā)射系統(tǒng)的國家,隨后世界上興起了炮射巡邏彈的研究熱潮。目前美國正在研究的炮射巡邏彈項(xiàng)目有: 127 mm艦炮發(fā)射的前沿空中支援彈藥(FASM)、155 mm榴彈炮發(fā)射的快看(Quicklook)偵察巡邏彈、155 mm榴彈炮或127 mm艦炮彈投放的炮射廣域偵察彈(WASP )和適合81 mm ~155 mm相應(yīng)火炮的多功能一次性炮射巡邏彈(GLUAV)。預(yù)計(jì)這類彈藥將在2010年左右投入使用。 FASM是美國海軍于1999財(cái)年開始研制的由127 mm艦炮發(fā)射的巡邏彈。當(dāng)年的炮射偵察彈藥防御計(jì)劃財(cái)政支持包括FASM與Quicklook兩個項(xiàng)目,至2002年結(jié)束。FASM直徑為127 mm,長度為2·8 m,質(zhì)量為73 kg。能夠?qū)?85 km遠(yuǎn)范圍內(nèi)的海岸和海域進(jìn)行監(jiān)視、偵察和戰(zhàn)場評估,巡飛時間約為3 h[1]。 Quicklook是美國陸軍于1999財(cái)年開始研制的一種由155mm自行或牽引榴彈炮發(fā)射的巡邏彈。它的直徑為155 mm,長度為99cm,質(zhì)量為36 kg~41 kg。當(dāng)炮彈發(fā)射飛至彈道最高點(diǎn)后下降至高度為1 000 m時,速度為Ma=0·85,靠氣囊對其減旋,靠降落傘裝置將其減速到60 m/s;然后展開控制尾翼、充氣式彈翼和螺旋槳,啟動發(fā)動機(jī),以80 m/s的速度飛至目標(biāo)上空,此段采用GPS定位和中段制導(dǎo),大約用10min;在到達(dá)目標(biāo)上空后(距離發(fā)射點(diǎn)50 km),以62 m/s的速度進(jìn)行巡飛,可以探測偵察39平方公里范圍內(nèi)的區(qū)域,巡飛時間為30 min左右[1]。 WASP是美國陸軍武器發(fā)展與研究中心(ARDEC)于2000年跟蹤研制的,由M483式155 mm彈藥攜帶投放的一種巡邏彈。長度為0·50 m,翼展為1·22 m,質(zhì)量為3·9 kg。這種子母彈可由陸基榴彈炮或艦炮發(fā)射,初始速度為762 m/s ~975 m/s。當(dāng)彈丸經(jīng)過了彈道最高點(diǎn)后,利用爆炸將外彈殼炸開,展開充氣氣球,將其減速至60 m/s。下降到一定高度時,保護(hù)內(nèi)殼分離,飛行器拋出,展開一個使其減速到約14m/s的降落傘,隨后展開折疊彈翼和尾翼。啟動由電池驅(qū)動的電動發(fā)動機(jī),可以維持它以約28 m/s的巡航速度飛行約30min,巡飛高度為1 220 m[2-3]。 GLUAV是美國航空環(huán)境公司與美國陸軍實(shí)驗(yàn)室和聯(lián)合防務(wù)公司(United Defense)聯(lián)手于2001年開始研制的一種炮射巡邏彈。它可以制造成直徑為81 mm~155 mm的巡邏彈,裝入相應(yīng)的炮彈中,主要用于偵察、目標(biāo)探測、目標(biāo)識別以及戰(zhàn)場毀傷評估(BDA)。它可以攜帶彩色電視攝像頭、熱成像儀、生物化學(xué)戰(zhàn)劑探測傳感器等,還能在飛行過程中對敵方雷達(dá)和通信網(wǎng)絡(luò)進(jìn)行干擾。在接收到前線偵察兵或偵察機(jī)的發(fā)射指令后,通過火炮將GLUAV發(fā)射出去,到達(dá)目標(biāo)上空后通過爆炸裝置引爆外彈殼,巡邏彈從母彈中釋放出來,并采用降落傘對其進(jìn)行減速后展開彈翼,以20m/s~60m/s的速度在戰(zhàn)場上空進(jìn)行巡飛偵察,巡飛時間為19min~57min[4-5]。 除美國外,俄羅斯、以色列、英國、德國、意大利、法國等發(fā)達(dá)國家也加入巡邏彈的發(fā)展行列,只是對于炮射巡邏彈,目前見到的有關(guān)型號的報(bào)道比較少。 2　發(fā)展趨勢 從炮射巡邏彈的發(fā)展歷史和現(xiàn)狀可以看出,它是目前信息化戰(zhàn)爭的一種產(chǎn)物。只有當(dāng)軍隊(duì)對信息的要求到了空前重要的今天,巡邏彈才會出現(xiàn),而炮兵作為壓制性部隊(duì),為其研制相應(yīng)的巡邏彈是必不可少的。在制導(dǎo)炮彈、無人機(jī)、傳感器等技術(shù)逐步發(fā)展和完善的過程中,炮射巡邏彈在現(xiàn)代戰(zhàn)爭中也就初具生命力?？偟恼f來作為新型的防區(qū)外武器,炮射巡邏彈的發(fā)展趨勢可以歸結(jié)為:在不斷應(yīng)用先進(jìn)技術(shù)的基礎(chǔ)上追求智能化、靈巧化和低成本化。 所謂智能化,指的是炮射巡邏彈自身能夠完成多重作戰(zhàn)任務(wù),既能對戰(zhàn)場目標(biāo)進(jìn)行偵察、監(jiān)視,還能完成戰(zhàn)場作戰(zhàn)毀傷評估。從炮射巡邏彈的研制現(xiàn)狀可以看出,炮射巡邏彈的功能主要還是偵察、監(jiān)視、評估任務(wù)。巡邏彈在使用結(jié)束后都采取自毀,為了提高其使用效能,未來發(fā)展必然要求其在完成偵察任務(wù)的同時可以對目標(biāo)進(jìn)行選擇性打擊。巡邏彈之間的協(xié)同使用,巡邏彈與常規(guī)武器之間的匹配使用是炮射巡邏彈智能化研究的熱點(diǎn)關(guān)注課題。 所謂靈巧化,指的是炮射巡邏彈可以匹配各種火炮發(fā)射系統(tǒng)。炮射巡邏彈的研制是在不改動目前已有的火炮發(fā)射平臺的基礎(chǔ)上開展的,從炮射巡邏彈的研究現(xiàn)狀可以看出,要求其兼容目前火炮系統(tǒng)的同時,還希望它能夠滿足現(xiàn)有的多種火炮系統(tǒng),這樣可以大大降低炮射巡邏彈的使用成本和使用范圍,大大增加了炮兵武器使用的靈活性。例如美國現(xiàn)在投入很大財(cái)力研制的GLUAV就設(shè)計(jì)了很多種類,使其能夠匹配81 mm ~155 mm的各類火炮。 所謂低成本化,是指巡邏彈的出現(xiàn)在一定意義上是因?yàn)樗瑫r擁有了常規(guī)武器和偵察無人機(jī)的能力,降低了武器系統(tǒng)的研制和使用成本,但盡管如此,現(xiàn)在各國在研制炮射巡邏彈的過程中都尋求采用各種新型低成本材料。從現(xiàn)有報(bào)道資料能夠總結(jié)出,降低炮射巡邏彈成本的主要工作都集中在使用新型材料、小型低推力發(fā)動機(jī)設(shè)計(jì)和彈上傳感器等方面。 3　關(guān)鍵技術(shù)研究 炮射巡邏彈是建立在制導(dǎo)技術(shù)、空氣動力學(xué)、飛行力學(xué)、發(fā)動機(jī)技術(shù)、光電技術(shù)、機(jī)械制造工程、火炮發(fā)射技術(shù)、減速回收技術(shù)以及隱身技術(shù)上的一門綜合的工程技術(shù),涉及到的領(lǐng)域廣,關(guān)鍵技術(shù)多,本文僅簡要介紹炮射巡邏彈在總體設(shè)計(jì)研究領(lǐng)域內(nèi)的一些關(guān)鍵技術(shù)。 1)總體多學(xué)科設(shè)計(jì)優(yōu)化技術(shù) 由于巡邏彈的設(shè)計(jì)需要綜合考慮彈體外形結(jié)構(gòu)的優(yōu)化設(shè)計(jì),彈體功能模塊的優(yōu)化匹配,有效載荷質(zhì)量與燃料達(dá)到最佳配比,空氣動力學(xué)和隱身性能等一系列問題,所以這是一個涉及很多學(xué)科之間的優(yōu)化設(shè)計(jì)問題。學(xué)科之間的交叉耦合和相互影響,決定了巡邏彈的設(shè)計(jì)是一個復(fù)雜的系統(tǒng)科學(xué)問題。 目前,國外越來越多的科技人員將多學(xué)科設(shè)計(jì)優(yōu)化(MDO)技術(shù)應(yīng)用于飛行器設(shè)計(jì)之中,多學(xué)科設(shè)計(jì)優(yōu)化技術(shù)在提供變量、約束、性能間交互作用和耦合信息的基礎(chǔ)上實(shí)現(xiàn)了同時滿足各學(xué)科和系統(tǒng)約束的要求,具有對各種設(shè)計(jì)方案迅速進(jìn)行分析的能力,還可以大大縮短研發(fā)周期。 2)小型低推力長航時發(fā)動機(jī) 巡邏彈的主要工作任務(wù)就是在敵方陣地上進(jìn)行巡弋飛行,對陣地進(jìn)行偵察,對目標(biāo)進(jìn)行監(jiān)視和打擊,這就需要它擁有一個能提供長航時小推力的發(fā)動機(jī)。目前國內(nèi)外主要采用的是活塞式汽油發(fā)動機(jī)和鋰電發(fā)動機(jī),微小型渦噴發(fā)動機(jī)、渦扇發(fā)動機(jī)和脈沖發(fā)動機(jī)是目前研究的熱點(diǎn),勢必成為下一代巡邏彈發(fā)動機(jī)的主流。 由于炮射巡邏彈的初始段是炮射彈道,利用炮射將它在較短的時間內(nèi)送到所要求的射程,然后才轉(zhuǎn)入自主飛行的巡飛段。進(jìn)入巡飛段后才啟動巡航發(fā)動機(jī),發(fā)動機(jī)的空中自啟動成為發(fā)動機(jī)設(shè)計(jì)過程中需要特殊考慮的關(guān)鍵問題。 3)航跡規(guī)劃、協(xié)同編隊(duì)作戰(zhàn) 在前面的發(fā)展趨勢中提到過,巡邏彈的設(shè)計(jì)正朝著智能化方向發(fā)展,這就需要對它的巡飛航跡進(jìn)行規(guī)劃;同時能夠做到多枚巡邏彈之間的相互通信,保證協(xié)同作戰(zhàn),避免重復(fù)偵察和攻擊。另外還要求巡邏彈本身能根據(jù)戰(zhàn)場情況作出實(shí)時的規(guī)劃,有效地躲避威脅,增強(qiáng)巡邏彈的生存能力。 4)雙向遠(yuǎn)距離抗干擾信息數(shù)據(jù)鏈路 炮射巡邏彈的射程可達(dá)幾十公里,而彈體長度一般在1 m左右,這對信息傳輸裝置提出了相當(dāng)高的要求。為了獲得遠(yuǎn)距離、高數(shù)據(jù)率、高質(zhì)量的通信,必須采用高功率的數(shù)據(jù)發(fā)送機(jī),利用圖像壓縮技術(shù)以降低對帶寬的要求,要在信號處理過程中進(jìn)行加密,以實(shí)施保密通信。同時,實(shí)現(xiàn)巡邏彈與其它武器之間的配合使用、巡邏彈之間的配合使用,需要建立它們之間的信息交換。采用雙路通信鏈路傳遞和接收信息,必要時建立通信中繼站已成為解決炮射巡邏彈信息數(shù)據(jù)傳輸?shù)年P(guān)鍵問題。 以上四項(xiàng)關(guān)鍵技術(shù)是所有巡邏彈在發(fā)展過程中都要面對的,而對于炮射巡邏彈,它除了具有上述四項(xiàng)關(guān)鍵技術(shù)之外還有其自身的特殊性。 5)抗高過載技術(shù) 巡邏彈上的制導(dǎo)控制組件、發(fā)動機(jī)、彈翼折疊裝置、偵察設(shè)備等要抗住炮彈發(fā)射時的高過載是一項(xiàng)關(guān)鍵技術(shù)。目前一般都將彈上電子器件塑封固定,并通過一些軸套等機(jī)械構(gòu)件將重點(diǎn)器件上的過載轉(zhuǎn)移,從而解決抗過載問題。近年來飛速發(fā)展的MEMS技術(shù),不僅成本低、體積小,而且具有抗高過載的特點(diǎn),是解決抗高過載問題的一個途徑。對于電子器件抗高過載這類問題已在制導(dǎo)炮彈中解決了,針對炮射巡邏彈,抗高過載問題還會給小型發(fā)動機(jī)設(shè)計(jì)、機(jī)翼結(jié)構(gòu)設(shè)計(jì)帶來嚴(yán)峻的考驗(yàn)。 6)彈翼制造技術(shù) 為了減輕質(zhì)量,彈翼材料一般都采用復(fù)合材料,這對彈翼的制造提出了新的工藝要求。同時,為了能夠兼容炮彈發(fā)射平臺,從目前的資料可以看出,炮射巡邏彈的彈翼一般都采用折疊、充氣和收縮等技術(shù)。彈翼折疊機(jī)構(gòu)、充氣機(jī)構(gòu)和收縮機(jī)構(gòu)的設(shè)計(jì)以及新型彈翼的強(qiáng)度剛度等結(jié)構(gòu)問題的解決都是炮射巡邏彈設(shè)計(jì)所面臨的一項(xiàng)重大難題。 另外,由于采用了折疊、充氣和收縮等方式,在安排彈翼的副翼上存在問題。目前炮射巡邏彈開始考慮采用復(fù)合材料、記憶合金等材料,利用翹曲彈翼進(jìn)行控制,這給控制系統(tǒng)的設(shè)計(jì)也帶來了新的挑戰(zhàn)。 7)彈道減速減旋技術(shù) 正是因?yàn)椴捎没鹋谙到y(tǒng)作為發(fā)射平臺后,能給巡邏彈提供一個很高的初速,使得巡邏彈能在較短的時間內(nèi)到達(dá)較遠(yuǎn)的射程,為巡邏彈快速進(jìn)入作戰(zhàn)區(qū)域提供了保證。但是,巡邏彈在巡飛過程中為了便于偵察,飛行速度都很低,所以炮射巡邏彈面臨著一個彈道減速問題。 另外,為了保證彈丸的穩(wěn)定性,一般都采取旋轉(zhuǎn)穩(wěn)定,如果在彈丸出炮后迅速減旋,則必須展開尾翼進(jìn)行穩(wěn)定,這樣必然增加射彈的阻力,彈道的射程遠(yuǎn)小于旋轉(zhuǎn)彈,所以為了提高炮射巡邏彈的射程,一般在彈道前段都采用高速旋轉(zhuǎn)彈道,而轉(zhuǎn)入巡飛段前,就必須采取相應(yīng)的減旋措施。 目前,國外針對炮射巡邏彈的彈道減速一般都采用降落傘或充氣氣囊等機(jī)構(gòu),針對炮射巡邏彈的彈道減旋一般都采用穩(wěn)定尾翼或充氣氣囊等機(jī)構(gòu)。 在炮射巡邏彈彈道設(shè)計(jì)過程中必須充分考慮降落傘和充氣氣囊等的氣動特性,對其作出相應(yīng)的研究。 4　結(jié)束語 本文簡述了炮射巡邏彈的發(fā)展歷史,總結(jié)出炮射巡邏彈發(fā)展趨勢,并簡要介紹炮射巡邏彈總體設(shè)計(jì)研究領(lǐng)域的一些關(guān)鍵技術(shù)。對上述問題的深入研究將有利于炮射巡邏彈的進(jìn)一步發(fā)展。 JOURNAL OF CHINA ORDANCE SOCIETY Article ID:1673－002X(2005)01－0122－07 Artillery ammunition patrol trends and research directions ZHU Yong(朱　勇),LIU Li(劉　莉) Abstract：The use of various types of army artillery and naval guns of the artillery as a launch platform for patrol and ammunition, introduced the history and development of their development status, summed up in the continuous application of mature technologies related to the pursuit of intelligent, smart, and low cost has been artillery and ammunition to become the development trend of patrol. In addition, a brief introduction of artillery ammunition design patrolling some of the key areas of research techniques, such as higher than the set of anti-technology, manufacturing technology wing, ballistic spin speed by technology, the overall multi-disciplinary design optimization technology, small-scale low-thrust engine technology when the long voyage , two-way data link long-range anti-jamming technology and target detection and route planning technology, on these issues in-depth study will be beneficial to artillery shells the further development of patrol. Keywords: artillery shells patrols key technologies trends reviews Introduction： Ammunition is to patrol the use of existing weapons and delivery, to conduct patrols in target areas of flight, can afford surveillance, reconnaissance, battle damage assessment, airborne radio relay and target a single or a number of tasks, such as ammunition (or sub-munitions). Patrol artillery ammunition is compatible with all types of current Army artillery and naval gun systems, way of using artillery attacks launched munitions patrol. Artillery ammunition is a collection of routine patrol guided artillery shells and a UAV related technology products, has many advantages, compared with conventional ammunition, it more of a "ballistic patrol" blank time, the role range, can be found and hidden the attack time-sensitive targets; compared with the UAV, it can quickly enter the combat area, penetration ability, and tactical flexibility; compared with guided bombs, which according to the battlefield situation changes, autonomous or remote control to change the flight path and tasks, the target of the threat of the formation of a longer period of time, the implementation of "selective" of precision strike, and the bombs and shells in coordination between; patrol and other types of ammunition compared to its launch platform is simple, can be and with the use of artillery shells, artillery systems as a result of the use of the high muzzle velocity, can quickly enter the combat area, there is a strong time-sensitive. 1 Development history and current situation The United States is one of the first countries to develop missile patrol, the developed LOCAAS (Low Cost Autonomous Attack System, low-cost autonomous attack system) and the network of fire systems LAM (Loiter AttackMissile, patrol missile attack) can be said to be on patrol on behalf of ammunition. The United States is also compatible with the first patrol of ammunition and artillery guns fired into the State system, followed by the emergence of a world study of artillery ammunition wave patrol. Currently under study by the U.S. patrol artillery ammunition items: 127 mm gun-launched munitions forefront of air support (FASM), 155 mm howitzer fired to see the quick (Quicklook) reconnaissance patrol of ammunition, 155 mm or 127 mm howitzer gun ammunition delivery wide-area surveillance of artillery shells (WASP) and for 81 mm ~ 155 mm artillery corresponding one-time multi-purpose patrol artillery ammunition (GLUAV). Expect that these munitions will put into use around 2010. FASM is the U.S. Navy in fiscal year 1999 started to develop the 127 mm guns fired from the patrol ammunition. Reconnaissance of artillery ammunition was defense program, including financial support for FASM and Quicklook two projects to the end of 2002. FASM diameter of 127 mm, length 2.8 m, weight of 73 kg. To the range of 185 km far from the coast and sea surveillance, reconnaissance and battlefield assessment Loitering about 3 h [1]. Quicklook is the U.S. Army in fiscal year 1999 started to develop a kind of its own motion or by 155mm towed howitzers and ammunition to launch their patrols. Its diameter of 155 mm, length 99cm, weight of 36 kg ~ 41 kg. When the artillery shells fired ballistic flight to the highest point down to a height of 1 000 m, the speed of Ma = 0.85, by spinning on their balloon by parachute device to slow down to 60 m / s; and then started to control the tail, Inflatable wings and the propeller to start the engine, to 80 m / s speed to fly to the target over this paragraph the use of GPS positioning and the middle of guidance, with about 10min; over after reaching the goal (from the launch point 50 km), in order to 62 m / s speed to fly patrols, reconnaissance can detect the scope of 39 square kilometers of the region, visiting 30 min flying time of about [1]. WASP is a U.S. Army weapons research and development center (ARDEC) to track the development in 2000, the M483-style 155 mm ammunition to carry put a bomb on patrol. Length of 0.50 m, a wingspan of 1.22 m, weight of 3.9 kg. This cluster may be land-based firing howitzers or guns, the initial speed of 762 m / s ~ 975 m / s. When the projectile trajectory, after the highest point, the use of shell explosions ripped apart, inflatable balloons launched its speed to 60 m / s. Dropped to a certain height, the inner shell to protect the separation of aircraft out, started to slow down to about a 14m / s of the parachute, and then start folding wings and tail. Start by battery-powered electric engines, it can be maintained at about 28 m / s cruising speed of flight of about 30min, patrol flying height of 1 220 m [2-3]. Aviation environment GLUAV the United States with the U.S. Army and the Joint Defense Laboratories (United Defense) jointly developed in 2001 a patrol artillery ammunition. It can be manufactured into a diameter of 81 mm ~ 155 mm patrol bombs, artillery shells into the corresponding mainly used for reconnaissance, target detection, target identification and battle damage assessment (BDA). It can carry color television camera, thermal imager, biochemical warfare agent detection sensors, but also in the flight of the enemy's radar and communications network interference. In the receiving or the front-line reconnaissance scouts launch command, through the artillery will be fired GLUAV out and reach the goals adopted over the explosive device detonated outside the shell, patrol bombs and ammunition from the home release, and the use of parachutes to slow down its post - wings started to 20m / s ~ 60m / s speed in the Tour to fly over the battlefield reconnaissance, patrol flying hours 19min ~ 57min [4-5]. Besides the U.S., Russia, Israel, the United Kingdom, Germany, Italy, France and other developed countries also joined the ranks to patrol the development of ammunition, just ammunition for artillery patrol, the current model to see the relevant reports is relatively small. 2 Development Trend Artillery and ammunition from the patrol's history and current status of development can be seen, it is a kind of information-based product of war. Only when the army's request for information to the more important than ever today, there will be patrols of ammunition, and artillery as a repressive force, patrolling its development of the corresponding ammunition is essential. In the guided artillery shells, unmanned aerial vehicles, sensors, such as the progressive development and improvement of technology in the process of artillery ammunition on patrol in the early days of modern life is war. In general, as a new type of stand-off weapons, artillery ammunition, the development trend of patrols can be summarized as follows: in the continuous application of advanced technology based on the pursuit of intelligent, smart and low-cost. The so-called intelligence, referring to their own artillery ammunition patrol operations to complete multiple tasks, both targets of the battlefield reconnaissance, surveillance, but also the completion of battlefield damage assessment operations. From the development of artillery ammunition patrol the status quo can be seen that the function of artillery ammunition patrols mainly reconnaissance, surveillance, and assessment tasks. Patrol in the use of ammunition have been taken after the end of self-destruction, in order to enhance the effectiveness of, the future development of an essential requirement for the completion of their missions at the same time can be selective against the target. Synergies between the patrol and ammunition used to patrol with conventional weapons and ammunition of the match between the use of artillery ammunition intelligent patrol the hot topics. The so-called smart, and refers to the patrol artillery guns and ammunition to match a variety of delivery systems. The development of artillery ammunition patrol did not change in the existing artillery fired based on the platform, from the artillery and ammunition Research patrols can be seen that the requirements of its current artillery systems compatible at the same time, but also hope that it is able to meet Some variety of artillery systems, this can greatly reduce the use of artillery ammunition, the cost of patrols and the use of the scope of artillery weapons has greatly increased the flexibility of use. Such as the United States now developed into a great financial GLUAV a lot on the type of design to enable it to match the 81 mm ~ 155 mm artillery of all kinds. Of the so-called low-cost means to patrol the emergence of ammunition, in a sense, because it is both conventional weapons and reconnaissance UAV's ability to reduce the development of weapons systems and the use of the cost, but nevertheless, and now countries in the development of artillery radio patrol the course of ammunition are to seek the use of a variety of new low-cost materials. Information from existing reports can be summed up to reduce the cost of artillery ammunition, patrol the main work has focused on the use of new materials, small low-thrust engine design and shells on the sensor and so on. 3 The Key Technologies Patrol artillery ammunition is based on guidance technology, aerodynamics, flight dynamics, engine technology, photoelectric technology, mechanical manufacturing engineering, artillery firing technology, stealth technology, as well as slow down the recovery of a technically integrated engineering, involved in the area of Canton, key technologies, and this article only briefly artillery ammunition patrol the area of research in the design of a number of key technologies. 1) the overall multi-disciplinary design optimization techniques Ammunition as a result of patrols be considered in the design of body shape structural optimization design, the module body optimize the matching function, quality and fuel payload to achieve the best ratio, aerodynamics and stealth properties of a range of issues, so this is a between the many disciplines involved in the optimal design. Cross-coupling between the disciplines and the impact of the decision of the patrol ammunition is designed to be a problem of complex systems science. At present, an increasing number of foreign scientific and technical personnel will be multi-disciplinary design optimization (MDO) technology in aircraft design, multidisciplinary design optimization technology in the provision of variables, constraints, interaction and coupling between performance on the basis of information at the same time various disciplines and systems to meet the requirements of binding with a variety of design options for the rapid analysis of the ability, but also can significantly shorten the research and development cycle. 2) The small-scale low-thrust engine when Changhang Patrol of the main tasks of ammunition in the enemy's positions on cruise flight, the reconnaissance of the positions of targets to monitor and combat, which requires it to have a long voyage to provide the engine of small thrust. Used at home and abroad is the main piston gasoline engine and lithium electric motors, miniature turbojet engine, turbofan engine and pulse engine is hot, it is bound to become a next-generation engines to patrol the mainstream ammunition. Patrol as a result of artillery ammunition, artillery ballistic initial paragraph is the use of artillery will be in a short period of time to the required range, and then only into their own paragraph Loitering flight. Loitering paragraph into the cruise to start the engine after the engine air from the engine to start the design process as a special consideration the needs of the key issues. 3) track the planning, coordination combat formations In the previous mentioned trends, patrol ammunition intelligent design is moving in the direction of development, which requires it to fly round the track planning; At the same time able to do more than patrol to communicate with each other between rounds to ensure that work together to avoid duplication of reconnaissance and attack. Ammunition were also required to patrol their own situation based on real-time battlefield planning, to avoid the threat effectively, and enhance the viability of patrol ammunition. 4) long-range two-way data link interference information Artillery ammunition patrol a range of up to several tens of kilometers, while the body length of about 1 m in general, the information transmission device for a very high demands. In order to obtain long-range, high data rate, high-quality communications, the need for high-power transmitter of the data, the use of image compression technology to reduce the bandwidth requirements, it is necessary to signal processing in the encryption process for the implementation of secure communication. At the same time, the realization of ammunition and other weapons to patrol between the use of patrols between the use of ammunition, the need for exchange of information between them. Uses a two-way communication link transmit and receive information and, if necessary, establish a communications relay station has become a settlement of artillery ammunition, patrol information on key issues for data transmission. Key technology for more than four ammunition of all patrols in the development process have to face, and the ammunition for artillery patrol, it addition to the above-mentioned four key technologies in addition to its own particularity. 5) higher than the set of anti-technology Patrol-guided munitions on the control of components, engines, wings folded devices, surveillance equipment to anti-fired artillery shells at the time of living higher than the set is a key technology. At present, generally plastic shells fixed on electronic devices and machinery, such as through a number of sleeve device component will focus on the transfer of load in order to address the issue of anti-overload. In recent years the rapid development of MEMS technology, not only low-cost, small size, and with anti-high overload characteristics is to solve the problem of resistance higher than a way to set. Anti-electronic devices for high-overload problem has been resolved in the guided artillery shells, and ammunition for artillery patrol, anti-high-overload problem will be to small engine design, the design of the wing structure of a severe test. 6) wings Manufacturing Technology In order to reduce the quality of materials are generally used wings composite materials, which is the manufacture of wings made of the new technological requirements. At the same time, in order to be able to launch platform compatible shells, from the current data can be seen patrolling artillery ammunition is generally used folding wings, inflate and shrink technology. Wings folded institutions, agencies and contraction inflatable design agencies as well as the strength of the new wings and other structural stiffness problem is the design of artillery ammunition, patrol a major problem facing. In addition, due to the folding, inflatable and contraction, etc., in the arrangement on the wings of the aileron problem. At present, patrol artillery ammunition began to consider the use of composite materials, such as memory alloy material, the use of warping wings to control the design of the control system has also brought new challenges. 7) by rotating ballistic deceleration technology It is precisely because the use of artillery systems as a launching platform, the patrol will give ammunition to provide a high muzzle velocity, making patrols of ammunition in a short period of time to reach distant ranges, and ammunition for the patrol to provide rapid access to the region to ensure the combat. However, flying patrol rounds of ammunition in order to facilitate the process of reconnaissance, speed is very low, so artillery ammunition patrol faced with a problem of ballistic deceleration. In addition, in order to ensure the stability of projectile, rotation and stability are generally taken, if the artillery projectile by spinning quickly, it must be carried out for the stability of the tail, this is bound to increase the resistance to projectiles, the range ballistic missile is far less than the rotation, so In order to increase the range of artillery shells on patrol, usually in the preceding ballistic trajectory using high-speed rotation, and the paragraph before flying into the Tour, it is necessary to take corresponding measures to reduce the spin. At present, foreign patrols for artillery ammunition is generally slow down the use of ballistic parachute or inflatable balloon, such as institutions, for artillery ammunition ballistics patrols are generally used by rotating the tail or the stability of institutions such as inflatable airbags. Artillery ammunition ballistics patrol in the design process must be fully taken into account, such as parachutes and inflatable balloon of the aerodynamic characteristics of their research accordingly. 4 Conclusions This paper describes the development of artillery ammunition, patrol history, summed up patrols artillery ammunition development trends, and gave a briefing on the overall design artillery ammunition patrol some of the key areas of research technology. On these issues in-depth study will be beneficial to artillery ammunition, the further development of patrol. 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