船模型图纸

如何看懂造船图纸集团文件版本号：（M928-T898-M248-WU2669-I2896-DQ586-M1988）如何看懂造船图纸例如:HP球扁钢,pl8指8毫米的钢板,W,FL分别是Ｔ型材的复板和面板F B筋板B H D舱壁缩写A B平台缩写BL基线缩写在制作各种舰船模型时，一般都要接触到模型工作图纸。

模型工作图是制作船模的主要依据，它不仅告诉我们模型的种类、名称、几何形状和尺度，同时还使我们了解模型各个零部件的结构和安装部位等情况。

有些模型的图纸还简要地介绍了模型的内部结构、动力装置、部件装配、控制系统和制作方法等，使我们对船模有更多的了解。

因此，认真看图纸，搞清各种技术要求，这对制作材料和工具的准备、决定制作的方法和步骤，都是十分重要的。

为了把一艘舰船模型或一个零部件正确地表示出来，一般需要实际物体的三视图。

即正视图(从物体正前方看)、侧视图(从物体侧面看)、俯视图(从物体上面看)。

除三视图外，零件图是船模上层建筑和各个零部件的制作图纸，有的还绘出实际物体的立体图。

为了正确地看懂舰船模型的工作图纸，首先要熟悉图纸中各种线条和符号的意义。

图纸上常见的有粗实线、细实线、虚线、点划线、折断线和剖面线等等(图2—1)。

粗实线：一般表示物体外表一切可见的轮廓线。

虚线:一般表示物体被遮挡的轮廓线。

细实线:一般表示物体的尺寸线、尺寸界限、引线和剖面线。

点划线:一般表示物体的中心线、位置线和轴线。

折断线:折断线或波浪线一般表示物体断开的地方。

有些不必要全部画出的地方，就可以采用折断线或波浪线的办法省略掉。

剖面线：一般表示物体剖视的地方。

图纸上常用的符号有M、d、R等。

M 表示比例尺。

比如Ml:100，表示图纸的尺寸是实物的百分之一。

d表示圆形物体或圆孔的直径。

比如何 1.5，表示直径以毫米为单位，即4.5毫米。

R表示圆形物体或圆孔的半径。

比如R4.5，表示半径是4.5毫米。

舰船模型的工作图纸，一般包括总布置图、船体线型图和零件图。

最近许多船迷都在开工，或多或少对型线图感起了兴趣，就此随便谈谈。

型线图又称线型图，也就是表达船体的外表面几何形状的图纸。

a.设想用垂直于船体纵轴且垂直于底平面的剖切面将船体切开，该剖切面与与船体的交线就称为横剖线。

在船长１/2处得到的横剖线为中（舯）横剖面线，通常在左、右视图上绘出。

在生产图纸上经常将它绘在主视图的中段；b.设想用水平的剖切面去切船体得到的交线就称为水线，通常在主视图上绘出；c.设想用平行于船体纵轴且垂直于底平面的剖切面将船体切开，得到的交线被称为纵剖线，通常在俯视图上绘出。

参见下图：（请点击图片放大看）对于船模爱好者应注意如下几点：1.型线图的外形未减去船壳材料的厚度，在制造肋板时应将这一厚度减去，包括甲板的厚度也要减去；2.对应的剖面（肋板）在另外的视图上有固定的位置，不可改变，当位置改变时，形状就变了。

因此我们在固定肋板时，一定要准确；3.船体表面变化率大的位置上要多布置肋板。

同样，在船壳材料较软的情况下也应如此。

下图是港内“内河交通艇”的型线工作图，为了让大家看清楚，已作删除。

有兴趣的爱好者可以看看：-------------------------------------船模基础知识（一）补：型线图的补画法-------------------------------------在型线图的讨论中，大家希望了解在有了横断面的型线图的情况下，如何补出纵剖线和水平剖线。

由于没有找到适合的材料，就抽时间以港内的《内河交通艇》为例，画了一个步骤图：这里要说明的是我用来做依据的型线图是已经经过校准的，细心的朋友如果用它与图纸上提供的型线图对比，就会发现差别。

如果原图不太准，那么得到的纵剖线、水平剖线就不流畅，甚至明显的异常弯曲。

人工校准是一件非常繁复的事，因为在一个视图上移动一个点，另两个视图上的对应点也要相应移动，曲线也要变化。

因此过去在船厂里校准工作往往由对船型有研究的，并已积累较多经验的技术人员来进行。

Asse m bly inst ruct ions forT i tan icAbout R MS T i tan i cTi tanic i s p robably the bes t-known sh ip in modern hi s tory. S ince s ink ingin 1912 her s to ry has been re to ld many t imes in books and f i lm, and hasente red popula r cul tu re a s a t a le o f human pr ide and t r agedy.The Royal Mai l S teamer T i tan ic was the second o f th ree mass ive oceanl ine rs in tended by the White S ta r L ine to domina te the lucra t ive t ransa t lan t icpassenger t r ade. T i tan ic was s l ight ly heav ie r than her s i s te r-ship Olympic,making he r the la rges t sh ip in the wor ld a t 883f ee t long and over 46,000tons. The sh ips were a t the lead ing edge of engineer ing t echnology a t the t ime fea tur ing rec ip roca t ing and tu rbine s t eam engines develop ing 50,000 horsepower,a modern e lec t r i ca l sys tem power ing cargo c ra nes and passenger e l eva tors,and an ar rangement o f wate r t igh t compar tments and emergency doors tha t caused them to be dec la red“v i r tua l ly uns inkable”. Passenger ameni t i es were no l es s advanced. F i r s t-c la ss passengers enjoyed accom modat ions and mea ls equa l to the f ines t ho te l s,and a gymnasium,swim ming poo l and squash cour t fo r r ec rea t ion. Second c las s,though le ss lav ish, was the equiva len t o f f i r s t c l ass on many o ther l ine rs. By compar ison th i rd c l ass, o r s t ee rage, was ra ther spar t an but comfor tab le by the s tandards o f the day.After sea t r ia l s T i tan ic l e f t Southampton fo r he r f i r s t com merc ia l voyage on 10 Apri l 1912,s topping a t Cherbourg and Queens town be fore head ing across the At lant i c to New York. Shor t ly before midn igh t on 14 Apr i l an iceberg was seen in T i tanic’s pa th and before the sh ip could turn as ide the s ta rboard s ide g razed the ice, opening s ix o f the fo rward compartments be low the water l ine. When i t became apparen t tha t th e pumps could no t keep up wi th the incoming wa ter and tha t the sh ip would founder, Capta in Edward Smith o rdered the evacuat ion o f passengers by l i f eboat.Due to outda ted mar i t ime r egula t ions T i tan ic had l i feboa t capac i ty fo r fa r f ewer than the number o f people aboard.In sp i te o f th i s the f i r s t l i f eboat s were lowered only ha l f-ful l,the passengers be ing re luctan t to l eave the apparen t secur i ty o f the l iner. While f i r s t- and second-c l ass had easy access to the boat deck those in s t eerage,roused f rom thei r cabins deep in the sh ip,f aced de lays and obs t ruct ions. Most r eached t he deck too la te to f ind a p l ace in the boat s.By 2:00 a.m.the bows o f the ship were submerged and the c rowded s t e rn began to r i se above the wa ter. Twenty minutes l a te r the l ight s f ina l ly fa i l ed and the hul l,s t r essed beyond i t s l imi ts by the unsuppor ted weigh t p ro t ruding f rom the sea, b roke in two. The fo rward par t sank im media te ly whi le the s te rn hung ve r t i ca l ly fo r a shor t t ime before fo l lowing. The sea was f i l l ed with s t rugg l ing men, women and ch i l dren but in the f r eez ing wate r mos t would soon d ie o f exposure. Of the 2200 passenger s and c rew on ly 700 survived the n igh t.The loss o f th i s l a rges t and most modern ocean l ine r caused shock wor ldwide. Formal inqu i r ies were he ld in both Br i ta in and the USA, and sa fe ty regula t ions fo r passenger sh ips were im media te ly s t r eng thened.Improvements inc luded inc reased l i f eboat capac i ty, 24-hour r adio wat ches on sh ips,and the es t abl i shment o f an in te rnat ional i ce pa t ro l to warn of the presence o f i ce in the sea lanes.Ti tanic’s s i s t e r sh ip Olympic en joyed a long,success ful ca reer be fore f ina l ly be ing sc rapped in 1935. The th i rd sh ip in the c l ass, Br i tanni c, never ente red passenger se rv ice bu t was t aken in to use a s a hospi t a l sh ip dur ing the F i r s t Wor ld War,and sank in 1916 a f te r s t r ik ing a mine in the Aegean Sea.Long af t e r s inking T i tan ic again made newspaper head l ines in 1985 when a team led by Dr. Rober t Ba l la rd d i scovered the wreck. S i nce then severa l exped i t ions have v is i t ed the s i t e,in some cases recover ing a r t i f ac t s. Cur ren t ly T i tan ic r es t s a t a dep th o f 12,500fee t and i s s lowly decay ing. Some exper t s e s t imate the r emaining s t ruc tu re o f the once-grea t l ine r wi l l have co l lapsed by the middle o f the 21s t century.The ModelThis model i s a 1:1200sca le wa ter l ine r ep l ica o f T i tan ic, and i s approx imate ly 9inches long.M odel par t s a re con ta ined in the document t i tanic_parts.pdf. The op t iona l d i splay base i s in document t i tan ic_base.pdf. P r in t ou t t he par t s document on 8.5"x11" o r A4 s i ze whi t e paper card s tock su i tab le to your p r in te r. 67lb.cover s tock(approx. 8.5thousand ths o f an inch o r 0,2 m m th ick)i s r ecom mended.A word of cau t ion:th i s model i s not su i t able fo r assembly by young chi ld ren, due to the use of sharp too ls and the complexi ty o f some assembly s teps. Prev ious exper i ence wi th ca rd model ing i s s t rongly recom mended.I f you have any com ments o r sugges t ions regard ing th i s k i t,you can contac t me by emai l a t model s@curre l l.ne t.Too lsBefore beg inning, you wi l l need the fo l lowing too ls and mater ia l s:a) b) c) d) e) f)whi te g luea glue appl i ca tor such as a smal l pa in tbrush o r toothp ick, and wate r o r g lue so lvent on hand to r inse theb rush a sharp kni fe fo r cut t inga f la t cu t t ing su r facea rule r o r s t r a igh t edgea scor ing too l o rb lun t kn i fe forc reas ing the fo ld l inesa f la t p iece of wood or foam core fo r a bu i ld ing suppor t o r d i sp lay base(op t iona l)spray adhes ive fo r a t tach ing the d i sp lay su r face to the baseg)h)t i t an i c_i n s t r.pd f v1.0© Apr i l2007by Ra lph Cur r e l l h t tp://ww w.cur r e l l.ne t Page1o f6Hintsa) b) c) d) e)Selec t a we l l -l i t , comfor tab le work a rea tha t wi l l r emain und is tu rbed when you a re not the re . Keep your hands and too ls c lean when work ing , to avo id ge t t ing g lue on vi s ib le par t s o f the model . I t ’s ea s ie r to s tay organ ized i f you only cu t out those par t s you need for each s tep . M ake sure your kni fe i s sharp . When cu t t ing s t r a igh t l ines , u se a s t r a igh t -edge . Study the d iagrams ca refu l ly , and a lways te s t -f i t the pa r t s before apply ing g lue .Asse m blyPortAft (Stern)Forward(Bow)StarboardIn these ins t ruc t ions , the t e rms fo rward (bow) and a f t (s t e rn) r e fer to the f ron t and rear ends of the ship . Por t and s t a rboard r e fe r to the le f t and r ight s ides . Scor ing o f pa r t s i s ind ica ted by th in b lack l ines ou ts ide the pa r t ’s ou t l ine , and by dashed or shaded l ines on the par t ’s su r face . For smal l pa r t s such as the deckhouses and c ranes i t i s r ecom mended tha t ou ts ide corners (‘mounta in ’ fo lds ) a re scored b y gen t ly scr ib ing t he score l ine wi th a kn i fe re sul t ing in a sharp corner when fo lded . Score par t s be fore cu t t ing them out . In the d iagrams , subassembl ies a re ident i f i ed by a number wi th in a c i rc le (e .g . ), cor responding to the s tep in which i t was assembled . Step 1: Lamina te the la t e ra l fo rmers to heavy ca rd s tock , such tha t the combined th i ckness i s abou t 1m m or 0.04 inches . Cut ou t the formers af te r lamina t ing . Assemble the l eng thwise fo rmer (s tep 2) t aking ca re to on ly g lue the cent ra l (b lue shaded) a rea and a l lowing the f l a ps a t the bot tom to fo ld ou tward . Cu t the upper p rof i l e a f t e r g lu ing and fold as shown in the d iagrams . Assemble the in t e rna l s t ruc ture by g l uing the la t e ra l fo rmers in to s lo t s in the leng thwise fo rmer (s tep 3). Some p ieces must be o r ien ted such tha t the p r in ted s ide f aces a f t ; these a re l abe l led as such . At tach the we l l deck s t i f feners (s tep 4) in to the appropr ia t e s lo t s . At th i s s tage the model should be a t t ached to e i ther a temporary work base (s tep 5) o r to the opt ional d i sp lay base (s tep 6). Th is p revent s the f rame f rom warping dur ing subsequen t s teps . I f us ing a t emporary base , app ly on ly a smal l amount o f g lue so the sh ip may be la t e r d etached eas i ly . At tach the fo recas t l e and poop decks to the f r ame (s tep 7). The fo rward t ip o f the fo recas t l e wi l l p ro t rude s l ight ly beyond the f ron t o f the f rame.The shap ing and a t tach ing o f the hu l l su r faces a re some what cha l leng ing . Dry-f i t t ing and ca refu l a t t ent ion to the d rawings wi l l he lp . At t ach the connec t ing s t r ips to the main and s t e rn sec t ions o f the s t a rboard hul l sur face (s tep 8). To avo id gaps , bend the par t s as c lose ly as poss ib le to match the contour o f the f rame before g lu ing the s te rn sec t ion to the main sec t ion . Repea t for the por t hul l pa r t s and g lue por t and s t arboard toge ther a t the rudder on ly (s tep 9). S l ide the hul l p ieces a round the f rame f rom the s t e rn , such tha t the rudder i s pos i t ioned undernea th t he s te rn overhang (s tep 10). The rear edge of the hu l l p l a t ing shou ld a l ign wi th the cen t re o f the r earmost la t e ra l fo rmer . Beginn ing a t the s t ern and working fo rward , g lue the hul l sur face to the f r ame. The wel l deck cu tout s on the top o f the hu l l should match the fo re and a f t bulkheads o f the well decks . F inal ly , jo in the por t and s t a rboard su r faces where they meet a t the bow. Form the coun te r p la t ing in to shape (s tep 11) and a t t ach over the s t e rn f ramework . I f you a re us ing a temporary work base , the sh ip may be de tached now. Fold and a t tach the decks and bulkheads jus t beh ind the fo rward we l l deck (s tep 12) and in f ront o f the a f t wel l deck (s tep 13). The a f t promenade deck B48 has a somewhat complex shape and requi res p rec i se scor ing and ca re ful fo ld ing . At tach the boat deck (s tep 14) so tha t the top of the longi tud ina l fo rmers p rot rude th rough the ho les in the deck . Steps 15 through 20 show the as sembly o f the va r ious deckhouses to the boat deck , beg inn ing a f t and work ing fo rward . Severa l o f these requi re care fu l fo ld ing , so c lose a t ten t ion to the d rawings i s recom mended. Blue loca t ing marks a re pr in ted on the boa t deck indica t ing the pos i t ion o f the deckhouses .Bend the wheelhouse bu lwark B14 to shape (s tep 21) and a t t ach to the f ront o f the boa t deck , add ing the wing roofs B13. Bu i ld and a t tach the off ice rs quar te r s and whee lhouse to the boa t deck (s tep 22) such tha t the f ron t o f the wheelhouse abu ts the f ron t f ace of the bu lwark added in the p rev ious s t ep . I t may be necessa ry to t r im s l igh t ly the rea r edge o f pa r t B51 to ach ieve a snug f i t aga inst the deckhouse a f t . At t ach the promenade deck s ides (s tep 23), wi th the r a i sed bulwarks p rot rud ing above the boa t deck and the f ron t edge nes t ed beneath the br id ge wing overhangs a s shown in the d iagram. A typ ica l e l ec t r ic c rane as sembly i s shown in s tep 24. At t ach the c ranes and cargo ha tches as shown in the d iagram (s tep 25). Fold and a t t ach the dock ing b r idge to the s t e rn (s tep 26). The forward ca rgo ha tch , b reakwater and anchor c rane a re added in s tep 27. Step 28 shows a typica l funne l a ssembly . Note tha t the funnel s a re no t iden t ica l in s ize . A l e t t e r i s p r in ted on the connec t ing s t r ip , cor responding with the le t te r a t the funnel ’s loca t ion on the deckhouse roof . Also , the funne l cap for the a f t funne l i s d i f fe r en t f rom the o ther th ree f unnel s . Attach the funne ls (s tep 29) wi th the seam fac ing the s t e rn , so tha t the funne ls s lope af t s l ight ly . Build and a t t ach the compass p l a t form (s tep 30). For g rea ter r ea l i sm you may rep lace the bo t tom suppor t B42 with four l egs made f rom wire . A t emplate fo r shap ing the two mast s i s shown on the par t s shee t . Too thp icks whi t t l ed o r sanded to s i ze , o r s t re t ched p l as t i c sprue , a re recom mended fo r these par t s . Bu i ld and a t t ach the c row ’s nes t and inse r t the mast s in to the ho les in the deck (s tep 31). The base of th e mas ts shou ld res t in no tches cu t in to the in t e rna l fo rmer . I f des i r ed , shrouds (suppor t ing cab les fo r the mast s ) can be made f rom f ine wi re o r ny l on l ine . Attach the upper ends o f the shrouds to the mast and the lower ends to the ou ter edge o f the we l l deck . Const ruct the l i f eboa ts as shown (s tep 32). There a re th ree s izes o f l i feboa t , a t tached to the upper decks as indica ted in the d iagram.t i t an i c_i n s t r .pd f v1.0 © Apr i l 2007 by Ra lph Cur r e l l h t tp ://ww w.cur r e l l .ne t Page 2 o f 61La minate la tera l formers toheavycardstock2LengthwiseformerA20Glueonly inarea ind icatedbyblueshading(o ther areaswi l l fo ldou tward).C ut formerlayout f ro mpartssheet 'A '. C o m binedth icknessshouldbe approx imate ly1m m or0.04inches.C utupperpro f i leands lotsa f terglu ing.ABCNOPDEFGHIJKLMAft ForwardBo w a ndsternf lapsfo ldouthor izontal l y . C entref laps fo ld outwardasshown.3Latera l formers4W el ldeck st i f feners5O pt ional temporarybase(So me partso mit ted forc lar i ty .) 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如何看懂造船图纸例如:HP球扁钢,pl8指8毫米的钢板,W,FL分别是Ｔ型材的复板和面板FB筋板BHD舱壁缩写AB平台缩写BL基线缩写在制作各种舰船模型时，一般都要接触到模型工作图纸。

模型工作图是制作船模的主要依据，它不仅告诉我们模型的种类、名称、几何形状和尺度，同时还使我们了解模型各个零部件的结构和安装部位等情况。

有些模型的图纸还简要地介绍了模型的内部结构、动力装置、部件装配、控制系统和制作方法等，使我们对船模有更多的了解。

因此，认真看图纸，搞清各种技术要求，这对制作材料和工具的准备、决定制作的方法和步骤，都是十分重要的。

为了把一艘舰船模型或一个零部件正确地表示出来，一般需要实际物体的三视图。

即正视图(从物体正前方看)、侧视图(从物体侧面看)、俯视图(从物体上面看)。

除三视图外，零件图是船模上层建筑和各个零部件的制作图纸，有的还绘出实际物体的立体图。

为了正确地看懂舰船模型的工作图纸，首先要熟悉图纸中各种线条和符号的意义。

图纸上常见的有粗实线、细实线、虚线、点划线、折断线和剖面线等等(图2—1)。

粗实线：一般表示物体外表一切可见的轮廓线。

虚线:一般表示物体被遮挡的轮廓线。

细实线:一般表示物体的尺寸线、尺寸界限、引线和剖面线。

点划线:一般表示物体的中心线、位置线和轴线。

折断线:折断线或波浪线一般表示物体断开的地方。

有些不必要全部画出的地方，就可以采用折断线或波浪线的办法省略掉。

剖面线：一般表示物体剖视的地方。

图纸上常用的符号有M、d、R等。

M 表示比例尺。

比如Ml:100，表示图纸的尺寸是实物的百分之一。

d表示圆形物体或圆孔的直径。

比如何 1.5，表示直径以毫米为单位，即4.5毫米。

R表示圆形物体或圆孔的半径。

比如R4.5，表示半径是4.5毫米。

舰船模型的工作图纸，一般包括总布置图、船体线型图和零件图。

总布置图它是表示船舶总体情况的重要图纸，主要是根据三视图的投影原理绘制的。

在船舶的正视图(从船模正前方看)，俯视图(自上而下看)，侧视图(从船模侧面看)，包括前视图和后视图，表示出全船外形、尺寸及各部分的布置。

如何看懂造船图纸This model paper was revised by the Standardization Office on December 10, 2020如何看懂造船图纸例如:HP球扁钢,pl8指8毫米的钢板,W,FL分别是Ｔ型材的复板和面板FB筋板BHD舱壁缩写AB平台缩写BL基线缩写在制作各种舰船模型时，一般都要接触到模型工作图纸。

模型工作图是制作船模的主要依据，它不仅告诉我们模型的种类、名称、几何形状和尺度，同时还使我们了解模型各个零部件的结构和安装部位等情况。

有些模型的图纸还简要地介绍了模型的内部结构、动力装置、部件装配、控制系统和制作方法等，使我们对船模有更多的了解。

因此，认真看图纸，搞清各种技术要求，这对制作材料和工具的准备、决定制作的方法和步骤，都是十分重要的。

为了把一艘舰船模型或一个零部件正确地表示出来，一般需要实际物体的三视图。

即正视图(从物体正前方看)、侧视图(从物体侧面看)、俯视图(从物体上面看)。

除三视图外，零件图是船模上层建筑和各个零部件的制作图纸，有的还绘出实际物体的立体图。

为了正确地看懂舰船模型的工作图纸，首先要熟悉图纸中各种线条和符号的意义。

图纸上常见的有粗实线、细实线、虚线、点划线、折断线和剖面线等等(图2—1)。

粗实线：一般表示物体外表一切可见的轮廓线。

虚线:一般表示物体被遮挡的轮廓线。

细实线:一般表示物体的尺寸线、尺寸界限、引线和剖面线。

点划线:一般表示物体的中心线、位置线和轴线。

折断线:折断线或波浪线一般表示物体断开的地方。

有些不必要全部画出的地方，就可以采用折断线或波浪线的办法省略掉。

剖面线：一般表示物体剖视的地方。

图纸上常用的符号有M、d、R等。

M 表示比例尺。

比如Ml:100，表示图纸的尺寸是实物的百分之一。

d表示圆形物体或圆孔的直径。

比如何 1.5，表示直径以毫米为单位，即4.5毫米。

R表示圆形物体或圆孔的半径。

比如R4.5，表示半径是4.5毫米。