003b F.1 Brno Slatina lapanice zast. lapanice centrum
Transkript
003b F.1 Brno Slatina lapanice zast. lapanice centrum
8 13 A 24 26B 26A 4MS aq aq aq a 18 25 aq 137 300 11-26 1: K- n ez pe v. ce s ta qq . t be K L˝¨ AV O EB R VB V` 6 . k.s B. V. . 4 22 . k.s a dl rzv. r.b. 17 16 . dl a 20A 20 b 15 C 18 a a S2 18B H K` ES 16A ZEˇ 16 RN` 27 m O P KA:2 m L :7 D KA V ¨ 14 zv. k.r k.s. 10 8 11A 12 7 zv. k.r 9 2 13 4) 10 3. 35 11 / 00 20 . 0( k.s 30 91: ol Ob . k.s 8 5 5 1 0 64 9 0 24 00 0. 77m . 23 0 1 5 m 3 . 65 -2 5. 00 8 70 1 = 204 350 2. + 750 65m 3. 85. 47m1 . 248 = 7000 5 8 2 150 140 8 22 0 23 r.s. r.s . -10.110 +9.2 4 24.0 00 3m 1 55.2 1m = 65 00 6 27 22 7 10 5 = 65 00 -11.500 +9.00 0 265.69m 264.65 m r=1 00 00 m 110 r=1 00 00 m 0. 4 500 0 = 115 22 4 2L 1L 12 0 0.4 0.4 0.5 0.7 tr af o. 2 500 0 22 = 35 -2.6 4 50 +5.3 329 00 .37 m 35 0.00m 1 1 , 7 0, 5 209 -5. 300 +11.500 350. 00m 266.69m 0 .5 = 50 00 -5. 300 +10.110 300. 00m 424.03 m 22 3 94 3 R = 3 4 9 m +2 2 .55 83 0 .87 m V= 13 5 8 0k n m =8 /h ,0 ; 1V; D= 147 L k= n= m 9 10 m; 4 ,1 ,00 I 7 V; =7 4 0 m; L mm k ; A =1 =0 a l 8 , 1; 00 fa 0m; s m = = 36 1, 058 T=1 ,8 05 545 m ,87 ; g T= ; 3 14 m; do =1 9 ,37 5 4, 8 9 m 5 ; 2m k lot o i d a 11, 6 1, 2 0.7 i v. 0 .4 tr af o. tr af o. 12 5 i v. 1,8 dl a . = 50 00 -2. 550 283. +5. 300 87m 300 .00 m 22 2 35 3 k. o. 130 xk. s . potok at Zl Ing. BabiŁ v.r. v.r. Rev. Datum Popis SchvÆlil Jankovcova 1037/49, 170 00 Praha 7 5.8 6.5 i v. 0 20, 1, telefon: +420 255 733 111 fax: +420 255 733 605 2 5 9, 1 e-mail: [email protected] Projekt : ¨slo DopracovÆn variant łeen U Brno 0 9, 1 VP (HIP) : Stupe : Okres: Brno-msto, Brno-venkov Datum : Ing. Hartman Studie viz ve 31 Kraj: Jihomoravsk 1 1 2 8 5 3 5 ta es .c ev p z ne 2 53 a st .ce v e zp ne 3 53 4 3 5 8, 1 Obsah : ¨`ST F DOPLUJ˝C˝ DOKUMENTACE, Archiv : FormÆt : 6 A4 Młtko : 1 : 10 000 ¨Æst : Płloha: 5 3 5 5 6 53 3 4 5 . f as . f as . f as . f as f . as . dl 44 5 . l d a sf . k Kontroloval Souprava : Zhotovitel : IKP Consulting Engineers, s.r.o. 2 2 8 6 , 2 0 , 1 o l . Ł . 1 , 2 , 1 bu ka 2 bet. Vypracoval projektu: 5 0 3 5 a st .ce v e zp ne 0 , 21 5 20, . Ł l. ko 9 a st .ce v e zp ne 5 2 i v. 00 70 = 2 6 52 Ing. HamplovÆ v.r. 6 .5 0 30 . m -2 08 . 641 0 m 00 77 0. . 23 5 7 52 Ing. Hartman prvn vydÆn web: www.szdc.cz 0 20 0 18 4A 52 4 52 6 .4 S 3 2 5 0 o l . 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V k . 1 q q a q a 0 6 aq a S 2 S 1 q a q q a q a q a q a q a -2, 22 7, dl 2 03 60 .432 4 1 7 4, 75 4m60 0 dl .2 -8 79 ,36 ,3 1 = 3 5 7m tz 0 =6 00 1.8 1. 0 S e 5 b p, ,L, 190 ,6:6 -1 J49 k.s. a 0.4 8 10 ,8 1 4 3 , 1 0 0 9 , 0 7 6 7 k.s. o.v. aqaq L8 qqaqaq 5 16 km 10 ,78 14 4.2 1.1 km 10 10, ,772 10, 77 0 76 4 70B 0.5 0.4 0.7 0.3 60 0 a q a 9 m ,1 -8 ,00 02 70A 1.2 1.0 KP v. i 50 00 22 7 V k. 2 Se 6 = 9 m ,1 -8 ,00 02 2 km km km k. s . k. o. s v . . 1 0.3 4 1. 10 1.7 5 0. 1.5 0. 4 6 0. 1 1 , 75 0 1.1 z p ev . 2 m 3 ,1 00 2 + 0, 7 4 1 9 km 6 0. k l . 23 os t 0m ky 6 +6 a 4+ 63 6 a 9m 66 9m 70 M 0. 6 2 . 0 u 399 OS P O¨ TY TY E P T P E P N S O K :S L˝: U L. P 1 PL R A 30, OT E 4m N˝ N A O C E 82 LOB 1: 12E T 500 O NO -I 1 1 , 74 5 g ar . 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J6 l a k. 0. 1: 11 -3 d 00 8 l a ,P . ,p ,b 6 2 7 km ek m 76 5 o. v. 3 k. s. k . s. 9 0 3. 3 4 ,7 74 ,74 4, 7 6 a 2 0 0 20 0 19 L1qqaqaqaqaqa 0.6 4 sy dl a p . sy an Ø p b a e nØ nÆ t. s p nÆ t. a n. st 29 . 9 nÆ m 16 st 4 m . 16 7 m 19 90 ,2 19 65 6 0. 645 pa ne l . 10, 346 BA t ) ai r TAV skØt ES łer v o 0 7. 2.0 1.8 1.2 km 1 29 5 0. 4 5 0. k. s. 30 4 1.1 i v. 5 0. pa n e l . k m 9 2 ze k. z. 1.3 pa n e l . se p . 5 7 0 m 53 7m 6 15 m rn Æ UB k. z. km Se11 0 ba 11 aqa 10, 33 dl a 10, 30 3 0 ,1 0m -2 0 0, 47 m 3 ,0 00 , +9 5 15 kolMo st . 6 ,0 ev i d. 0 m km v ol . 10, v 2 . 73 4 ,0 0 m v. i sv . 0 2 ,5 3 50 8, 8 63 km 0 0 3 3. . km 10 10 ,2 56 ,2 46 12 47 KO 14 dl a KO op H U V P . B . k .s . a 10 ,3 i v. 0.7 km km d l . dl . d l . k o st k y a 28 m ,1 00 , -2 0 7 4 km 6 O 17 0m k . s . a O 10, 2 4 Z 10, 10, 199 189 27 62 9 6 km 6 a K k k. .rz rz v. v. 10, 2 2 8 15 3 ,0 00m , +9 155 km 10, 2 ZO km 3 ,0 0m -9 ,0 5 15 ,7 8 .4 0 km2m 72 km 10 ,1 89 33 9 . 3 1 k . z . k . z . 32 d l a 2.3 km 10, 10, 179 k. s. 170m 3.0 Z O km 0.6 5 3.6 1.0 10, 14 1.8 3 ,0 0m 9 ,0 5 15 k m ,41 0m 0 12 + 5, 14 15 0 10 ,1 45 k m ,01 m 8m 170 0 m , 3 dl . 7 0. 0 m ,1 3 00 +1 5, 14 k m km 5 0. 3 1. .7 0 aqa 1.2 10 ,00 9, 99 0 9 ,99 7 5 km km k m dl .43 2, 03 4, 75 4 4 m i v . 34 10 dl . 5 , 21 0. 0. 3 5 1.7 L2 qqaqaqaq 0 m ,1 13 ,00 5 14 10 ,0 9 0 ,99 0 9 ,99 7 5 km k m km 38 9 m 8 8 3 2 ,5 ,7 5 -1 193 . l d 9, km 92 KP 0 38 9, km 9 15 9, 92 K 0 P m 3 ,3 00 , 15 + 75 3 km 9 3 0 ,0 9 Rv =5 tz =1 0 yv 3,2 0 =0 88 0 m l a p a ni c e . o . v . 4 nÆ st up k. s . i t dl . nÆ st up i t y n ła u T o n r B t i t e l . t s a z 0 7 3 , 8 m1 k 1.5 8 km 9 ,8 7 k. z. nÆ st up i t 33 0. 6 0 00 0 10 P 9 ,92 6 km p a n e l . 22 8, 48 6 km 1 2, 01 1 0, 5 1L 1 7, 5 0 81 350 K 0, 046 m k 4 0. -7, dl 35 .1 67 0 ,30 6m d l a 0, 7 k. z. Vk . 3 3 5 60 0 50 00 st . d l . 0 3 0, , 4 11 k. dl s. . 22 8 = 1 1 , 2 0 .65 V S a 329ab 79 0, 04 4 9 ,8 P KO 9, k8 m1 19 , 8K 15O =8Z 8 9 H U P 0. 4 0. 4 1.4 7 ¨. ZA q Ob l j 1: 12500 ( 380 / 215 . 418 ) I km km 34 0 p a 3 n 6 6 el a . = 500 0 62 5 7, a Se302 0, 01 5 0 08 4 5 8 3 4 9, 3 9, k. z. k. s. 0 0m m k q 73 0, 00 2 9,610 m kkm PP ZZ 3 0 ,1 9 i v. 6 3 7 1 . 6 1 2, 01 1 0. 7 M 5 a 71A 0, 037 km 7 9 ,41 9 9 1. 2 00 0, 0 58 133 444 9,9, km .5 0 6 00 0, .1 2 kmm k ZO ZO 48 9, 3 94 km 0 48 9, 6 06 0, 9 05 0, .5 2 5 0 00 1 2, 1 01 K ,62 q 71 0, 05 8 9, 80 0 078 0, km 1.7 0 pł ejezd .=10,25m 1 0, km 9, 726 662 3 0. 20 6 43 9, ,42 9 3 0. 38 k. z. K O km u k e s eœ c a z i n CE r e VI d mo AO BL O BRN = 6 00 = 7 a a sep. km 0, 094 2 1. 29 1 0, km km .2 3 2 2 8 i v . 05 1m 43 7, q aq aqa 4 K O= ZP 0 .2 0, 1 28 0. 3 0, 1 41 0, 1 51 0.8 0 .4 64 1 0, 0, 1 77 56 1 0, 76 1 0, 0, 1 82 39 1 0, O 38 km 1 04 9, r= 3 5 0 0 m 7 0. 4 1 2, 05 0 0 07 9 0. 7 0.3 1.7 1.8 0.2 km 1.3 0.3 . Ł . 5 1. 1.4 9,658 sv.0,60m 0. 8 0.6 0. 1. 0 6 77 1 0, 1.2 63 1 0, 5 74 1 0, 0.5 47 9, 0.4 km Z ,30 90 0 6 1. km 5 0. .5 0 5 0. .5 0 km ,8 0 .25 .= Ł v ,v. 6 5 0. 3 1. m k 2 56 7, 0.3 7,255 7,210 1, 6 a 2 1 0 00 m -8, 654 6, .29 dl 200 180 ko l. Ł . L2 95 0 1.0 km km 0.5 O 17 ,2 10 a a bu. 1 7, 0 dl -7 .1 67 ,3 5 ,3 0 0 6 m 36 8m 39 50 00 +2,03 249 9 ZO = 320,00m 360,00m = 50 00 4 2 4 1 60 O .5 0 1.6 95 0.5 1 0.5 k.s. 0.3 KP=Z 7,16 0 7,127 P km km 0.3 a a r = 501 m 1.3 0.7 1L Se1 970 6 1. 2.5 a a 100 0.5 a a 0.8 O 7,0 69Z 0K k.s. 248 2.2 1.5 km 3 -3,81 7,260 2 Se2 k.s. 12 L1 22 9, 71 5 km 0. 8 km 0 64 9 24 km Tu ł an y 7,210 Br no 5 4 r=501m km 6 k. s. 7,04 47 00 m Le t it 01 m 8m R2 =3 49 5, 25 m r=R 31=3 5 50 0 0 0m m 1 1 85 90 r=498m 7,16 0 Vl eŁ ka km km 7,00 4 ZO 7,0 02 7 7,12 6 44 km ek m 24 7 75 0 1 , 46 + 3, 81 240, 00m 320, 00m +2,36 km 1 6 0. -3,44 320,00m 360,00m 248 850 km 6,8 65 8 1 14 7,4 2 2 = 50 00 KP= ZO 0 6,8 52 7,061 ekm 6,8 4 km 3 1 6 2. km a km aq 10 9 km aq ZP qq 4 Rv =5 tz 00 = yv 13, =0, 326 0 m V= 85 km /h ; D= n= 0mm 1 n= 0,0 ; I 10 0 = ,00 V; 25 Lk mm V ; = /h Lk 0, ; a ; l =0 00 fa D s= ,00 0m n= =0 1 m 0m ; T 1,0 n= 0,0 m =2 340 ; 10 0V; ; T= 8, g I ,0 = 28 384 ; d 0V; Lk 25m o= ,38 m = 56, Lk 0, m ; 4m ; 76 =0 00 I ; 1 8m ,00 0m 30 =2 0m ; 8m T = ; m T 28 =2 ,4 al 2 8 fa 3 ,4 s= m 2 ; 1, 3 03 m ; 4 40 0g; do =56 L4 ,8 u 4 . 5 d 8 m l . V 13 0= 90 km . t s za K 12 1S 2 1 11 -1 2, dl .2 680 5 8, 9 49 m /h ; P 2S 2 10 z b o ł. 0 00 V =8 5 km 10 K 1.7 0.5 0. 8 k. s.5 km 3 43 2 30 5 00 0 0 00 16 5m 13 .53 dl 4.7 14 13 50 00 = 0 00 m 0. 84 . 0 20 1 50 m . 69 -3 . 1 3 67 47 9 24 6 15 = z e 1 69 7, 1.7 Se L LV k. 1 1 6, 5 7 6 1. 0. 4 0. 1. 2 2 6,777 6,7 5 6,736 ekm 00 70 42 4 4 km 5 5 0. 16 4 iv. = .0 2 7 5 53 7, ek m a zk te s o l k cy ekm km 6 5 17 k q aqa q q q k m bu. k.s. 9 24 9 8 41 38 40 5 18 k.s. v. i 6,6 71 a tav vi 6,66 0 S 39 1 7A 6,840 St . 1 8 7 10 5 7, r . d. S2 qq aq aq aq a 19 00 m 1 . -2 . 77 64 0 m 6 00 84 0. 0. 71 2 6 1 km k. s. 9 1 3 a ba dl ekm 4 qq aq aq aq a k. s. 18A 2 S1 qq aq aq aq a 9 12 3 36 9, 24 a dl 00 70 O qq aq aq aq aq a S3 14 1.5 20 S4 10 . = .6 0 36 16 50 00 80 ,62 S a . s 7 Vl e Ł k a k. s. km K e 40 0 + 1 , 46 240, 00m 18 21 ekm S = 11 aqa K qq aq aq aq aq a m k a 00 m UVk1 Se 3 34 S7 evi d. km vo l 6, .v. 1,00m 874 q 2 +1 47 , 20 50 0, 37 23 20 P a 6,6 00 q qq aq aq aq a K km 3q K e d. r. S5 50 00 Pr op ust sv ek .0, 60m 20 A 4 13 6,82 iv. 22 11 Pł eje zd ev i Ł d. .P km 78 97 6,8 38 z. k. 32 35 1 , ekm 15 22 25 1 , 67 + 3, 44 240, 00m 320, 00m 24 7 75 0 km 17 6,775 19 21 30 6,75 2 6,742 24 24 .4 0 = i v. 27 ek m 33 ek m 26 31 23 26 28 .7 0 Si l ni Ł n m km ost 6,7 00 12 25 28 .6 0 6,600 6,40 0 t l fa s a s. k. S 15 0 14 0 29 29 82 7, km km 28 27 30 rn Æ k. s. d l a . 9 0. 27 29 32 31 km 0 1. P 30 1 3 5 2 3 0 o p 11 J6 01: 11 -30 0, P, 43 l ,b 3. 5 3. 0 E . 26 31 2 35 J60 -1 :1 130 0, P, p, b 50 0 0 C dl a 6,2 96 K =Z P 32 4 33 +3 247 , 70 20 50 0 0, 00 -1 m 50 20 , 0, 00 = m 50 00 5 7 = 50 +1 00 , 50 20 0, 00 + 1 , 67 m 240, 00m 24 7 35 0 m ,00 4 =1 . .2 Ł .v ,v k m te s 00 1, = ropu p .k. v s 33 34 46 7 14 10 8 6 9 0. be t . 0 3 6 , 7 KO km 6, 23 6 k. s. 37 38 14 = 5 9 9 7, 36 34 41 3 1. 39 40 35 4 5 k . s . 0 UK 00 R 0 ST 90 O N 7. K RE KM ¨. A Z 15 44 3 1. 43 37 6 1. km 6, 200 36 47 7 7 0. 6,4 00 km 42 46 3 57 3m 5 55 5m 12 11 km k. s. 38 1 50 4 6 15 5 0. 7 1. 8 49 45 6013 1: 12 -5 00 -I ,L ,l ,b L 2 70 V m k 4 2 39 24 8 +2 , 40 1 3 3 1 0 0 , 00 -3 m , 5 2 00 0 , 0 = 0 50 m 00 10 be t . km 53 1,2 6,2 95 6, 11 6 6 Pr opu st sv. 1,00mek e vi d. km vol .v. 6, 2,00m 469 48 . 52 r= 1 02 4, 75 m = +3 50 00 , 50 20 0, 00 -1 m 50 20 , 24 0, 7 00 65 m 0 12 km dl a 55 h / m k 0 h 10 / = 0 km 0 13 10 = 0 00 51 40 41 V 0 .90 . 5 7 ekm 6, 08 dl a 54 KP 6, 23 1,2 57 . Ł . l o k 7 i v. M K 1,2 k. s. be t . km 42 =Z P be t . 56 6, 20 0 ,06 6 6, 0 ek m KP= 70 ZO 6 L7 rz v. km km km 4, 4, 98 4 4 6, 03 6 43 WC 58 nÆ st .2 nÆ 40 st m .3 nÆ 45 st m .2 nÆ 65 st m .1 35 m 16 ,8 39 = 50 +1 00 , 1 30 54 , 00 m -3, 2 24 0 50 0, 8 0 0 35 m 0 i v. be t . k. s. 59 ruenØ œseky 0. 7 5 5 0. 1. r= 1 02 0m k. s. 44 L5 KO 61 5 7 4, ,67 78 4, 77 P 248 -2 , 00 70 1 0 50 , 00 m1 -2, 3 3 0 ,00 1 = 50 m 00 dl . 2x k. s. . 4, 84 4 Z ek m 6, 0 06 5 ,9 96 2 km ,98 45 a .s . 12 J 65 5 0. 5 ek m 0m 0. 4 5 ,99 . be t . dl a 60 0m 3 70 navazujc stavba RS Brno - Vranovice km 7 tr af o dl a 7m 1 m 177 63 Ar ea lS l at i n a ciz stavby m k be t . 6, 105 be t. ek m 6, 06 6 4 6 62 6 4 72 2 78 k. o. L3 17 V l eŁ k a , 1 0 10 KP 6,0 =Z 70 O Se 4 ( 25 0m) S1 km km 65 st . Br no -S l at i na km = 50 -1 00 , 00 1 50 , 00 m 1 -1 24 30 ,5 8 ,00 4 55 m 0 r. d. 48 I . dl .1 64 70 Vk 46A k.s. m .3 I Id 18. l .2 2 0m 47 25 ba 5 0 L2 6, 02 48 A 1 9a b L1 6, 0 6, 25 0 2 2 ,9 2 67 ek m 5 5, 89 5 km k m 1 6 , 1 0 4 1 5, 0 dl a 66 20 ek m ek m 49 6, 00 6 k. s. pa n. 69 24 8 -5 , 54 40 1 0 75 +2 , 00 00 m1 , 50 , 00 = m 50 00 km 68 2 1 km be t . 4 13 8 k . o . 4 2. P 5 0 2 2 ek m 5 10 0 10 71 3 dl k a 5.s. . 4 7 2m 8 02 m 20 6 3, 0 6 -2, 0 .53 1 dl 0 0 3m 0 8 m,92 55 2 . 4 -7 0. 2 =00=57 084m 0v tz =0, 3R 0 yv 30 8m 19 . 0 6 . +2 1 7 64 = 2 s. k. 70 1* 51 1 ek m st u ,00 1 rop = k. p 6 4 2 Z b. k. s. 1 2, 40 7 0. 5 0. 9 3 20 8, 5 2 2 3 S t. 2 s. k. 0 8 8 ,68 8m -0 28 , 0 2 .5 dl m 0. 1 . 4 5 0. 0 4 . 5 0. 0. 5 8 Rv =1 00 tz =3 00m 1, yv 8 =0, 12 186 8, 24 ,9 2 r. d. b a 10 72 a. s. 73 8 80 ra (t = 5 -5 00 , 54 0 1 75 , +1 00 , 00 m 2 1 4 50 8 , 00 m 40 0 km dl a 5 Z et or + 1 3 4, 23 7 93 1 5 8 ,00 0 0 m 1 14 2 = 5 ,4 5 00 ,00 1 0 m 5 0 00 92 0 V l eŁ ka km 53 24 um r nt e c l ap an i ce = 90 0 24 2 8, i v. 2 4 75 J60 -1 :1 14 S 2e 9 50 a q 0 1 a 6 -I S e8 ,L ,p a q ,b a km 54 25 1: 930 0 2 3 1 5 0 4 9 4 0. Se 5 dl .2 12 58 ,6 ,9 80 49 m K P J60 -1 :1 250 0I ,L ,p ,b 5 0. .7 0 5 si l n Ł km i n m 5 ,8 ost 8 5 5 ,74 26 O bl o1: 11 55 30 0( 76 60 0. 61 7/ 60 0) 5 2 14 0.6 0 4000m . -8 0. 30 5 7 2 48 2 3 0 ,2 8 5, 80 6 km 5 ,7 5, 0 70 8 5 56 22 dlaba 60 k . s . K P k . s . 23 2, 99 9 2 25 0 00 5 = 00 m 1 . 77 +2 4. 66 m k ek m ek ek m m 43 0 +5. 1 75 54 , 0 0 m 50 0 0 3 81 5, 24 0 4m 00 65 1 m -8, 6, 90 0 .29 0 0 0 dl m m 5 00 0 . 00,5617m . 1 -1 0 24 6 0 50 v=tz=36=0,0 55 0m R , yv 0 07 +7 0. 61 30 = 5 5 ZP k m 1 2, 1 2, 36 36 7 7 km 0. 8 .6 0 a = n od ch a PonÆvka k m u h c e tł s a n zd je Æ n q a ch od n k as fal ch t od n k AN qa as f ch al od t n k a ch od n k t r amv t r amv aj aj 6 0 5 4 0. 5 o pr P 20sv. ,5 8 q 24 7 -8 , 80 4 80 4 80 a L 1 km 5 q 23 77 17 , 0 ta s .ce n ev p ez n 0.9 p A B do V kou A T sts S E pł m .4 0 5 ,74 21 5 8 1: 12 50 0I 5 7 ra 6 6 11 8, km L220 ko l. Ł . 0, 8 1.2 ,70 5 a q a 03 5 2 47 Se6 2 7 k s. k. t al asf qq 1 4 3 , 0 3 8 1 , 7 7 1 53 km ek m 5, 56 5 60 5 00 0 +5 , 54 1 75 , 00 m 43 0 ,5 ,6 13 km = -8 , 80 2 k m 1 2, 47 4 1 2, 47 4 KO k 1 2, 24 1 2 1 3 1. 5 KO 62 61 59 k o 16 l.Ł , 0 . dn cho 1 4 3 , 3 0 6 56 55 0 1. km r. s. B U vu) 80 P 5 a 1 6 , 1 5 3 K 1. 2 5, 48 q a ezk ost kl cy k m . s d. k. r. 8 a/ b 5, 56 6 0. 6 km b m 0 1, t fal as 10 0 0 m 0 6 00 0. . - 00 5 5 0 5 40 0m . 7 0 +8 0. 30 5 4 2 9 km 0. 3 5, 43 9 q t fal as a aq q q 0 00 5 = 5 1. L3 L4 KO km 0.4 5, 41 3 L5 1 a s f a l t ZO 1 21 0. 6 ,52 L6 65 2 k. s. a a 2 1. km Se 8 Se 7 2 1 5, 5 a a 45 8 1.0 2c = 0. 4 g 5 4c 1.3 4. 1 00 + 8. 400 21 6. 85m 377. 01 m = 1 36 87 . 44 L7 k m 5, 48 a 6c a 1c 62 0 ce i n a ap l 3 7 61 0 4 ,a km 0. 8 0. 7 5,220 a a 24 4 = 5 46 3, 10m -1 , 9 9 43 . dl m 0 0 0 4m 10 ,88 04m v= =63 2 R tz yv=0, 00 m 1 . -9 . 00 00 1 0. 4 km=53 9 1.3 km ,v.v. =1,79 m 2S r . s. 1S r = 90 0m r = 90 0m ko l. Ł . m 8 8 8 8 ,6 0,2 -0 2 .5 dl 0 0 4 0 00 0m . 0 +1 0. 50 m k 5, 43 0.3 B1 5,26 6 5,197 m ost Ł .21 sv.k. =3,00m 35 = 35 00 1, Br no Sl at i na B2 1.0 9 1. km km 5,219 5,200 2.2 ZO km .3 2 732 km ZP 0 .6 km 243 -2.000 +4.000 2.6 250.00m 216.85m 1 34 5 24 zd m je 00 ł e 0, p 1 .= 24 4 5,3 60 0.5 310 18 km 1.8 + 0. 000 +2.000 276. 20m 250.00m propust ek Ł .21 sv.k. =1,80m ,v.v. =1,30m 5.2 1.0 17 5,272 5 1 : 1 4 7 6 0 I 1.0 232 =6 50 0 2. 500 +8.390 360. 63m 393.97m km 5,22 1. 1 0 1 : 1 2 5 0 0 I 1.5 0. 6 16 1 : 1 2 5 0 0 I 15 1 : 1 4 7 6 0 I 0.7 14 ZO ZP km 1 : 1 4 7 6 0 I 0.8 4 ,95 243 3.9 Rv= 500 0m t z=3 , 002 00 5m 4 4 4 4 0 0.6 1.7 0.4 E2 1.9 0.4 34 a /b 1.3 0.4 5.000 L8 0.9 1.0 1.1 2.0 km 1.5 L9 0.5 232 2.3 1.1 1.6 km = 97 84. 1 38 0.4 r.s. 232 + 0. 000 850 . 1 1 m276 01 . . 20m 685 243 1.7 0.7 13 1 : 1 4 7 6 0 I 0.2 0.5 1.9 20 12 0.2 0. 000 +2.500 326. 1 9m360.63m 1 L4 -7 19 6, 80 km 0. 4 Rv =5 tz = 00 yv 7, =0 145m 0 , m 0 60 3. m 1 69 6. 38 ,72 1.6 1.2 0.5 0.5 1 : 1 2 5 0 0 I 0. 4 4 ,674 0.8 0.8 km 4 ,674 q 2 be d. r. t. SeK . Ł l. ko 1.9 pan el . 1.8 1 : 1 4 7 6 0 I 10 1.1 8 1 : 1 2 5 0 0 I 1.7 1:9-190 11 1 : 1 2 5 0 0 I7 1. 5 9 1 : 1 1 3 0 0 0.4 25 0.9 1.0 1.9 6 1 : 1 4 7 6 0 I KO km 4 ,61 6 243 0.8 1.3 1 : 1 1 3 0 05 4 1 : 1 2 5 0 0 I m 0 00 00 00 5m = 7 =1 36 , Rv tz=4=0,001m 90 4 8 1 : 1 1 3 0 0 ZO km ko l. Ł . 4 24 00 1 . m +9 . 00 00 1 km 3 = 50 00 0.9 4b 2b 1b 6 90 80 0.5 4 1.6 1.4 4 ,67 1.6 6 7 11 4 ,674 30 1.1 KO km 4 ,61 6 V 6b r.s. km ZOkm 1.5 0.6 2.6 4 ,31 1 2,5 74 4,296 4 ,2 r = 400 0m r = 4004 , 1 0m 232 5 0. = 65 00 0.8 2.7 3.6 km KPkm KO 2 km 35 i at ce tr vi ce a o za Bl i n er na d o ati m Sl o n r B k o l . Ł . + 0. 000 890 . 1 1 32m326. 1 9m 598. 243 3 236 , 009 -1 4, 33 8 dl . 245 , 71 8m -1 5, 53 dl . 8 1 93 , 72 8m m yv= 0, 001 m 1 1. 3 00 9, 16 , 0 2,0 o l œ r = 355, 5m 25 .4 0 4 .4 0.8 t 5.2 i y n i 5 97 5 45 5, 24 0.5 5.4 0.7 4,280 4 ,31 7 4,29 9 KP km km KO km 6.5 a d. r. ul . St i nnÆ pn tu s 40 m e z 5 45 35 14 0 13 0 q a s. k. as fal t t o l p ł ep n 0.9 1 a 5 10 0 10 90 ,3 12 68 ,3 12 q 1 qqaq SeK ka tez os kl cy 1,0m . Ł l. ko 0 80 0m . 0 -9 . 00 1 45 2 = 35 00 km km q t fal as 10 0 90 I . d l . 1 7 0 m I I . d l . 2 5 0 m 7.4 km aqa q a 3 50 E POL 4b 1 b * 1b 7 1. bu. LN˝ R` EUT N 6. 0 0 .6 4, 092 I 0 0 5 2 1 : 1 2 0 5 t. be 5. 7 0 0. .4 5 0.0.0.4 0. 64 5 O 2 km 1,1m 2301 b 8 0 8 bu. 4, 10 1 KO 1 =Z k 1 0 8 b 4 0 8 b 6 0 8 r = 1 0 r = 85m 08 21 9, 1 0m 6b 2b 45 14 ,3 5 3 v. 23 . z r A 241 1 50 2 1.3 km 1.0 5 22 0.6 qqaqaqaqa KO= ZO 6 0. 7 3.8 5 0 8 7 22 5 6 29 92 22 k 235 S1 4, 07 0 .4 0. 5 3, 98 6 0.6 2.0 T 2302 237AT I 0 0 5 2 1 : 0 1 0 3 1 1 : 1 3 22 2 0 I8 0 1 0 5 . v 2 23 z 1 : r 1 k. s. . 238 237 1 22 4 c 4 0 8 c 6 0 8 km 6. 7 km 3, 98 6 1 a 2 tezk os kl cy m ch od n k as f ch al t od n k ZO 1 km 5 bet. 1 2 , 0 1 7 . 5 2 1 t al f as a dl 3, 98 3.9 2 a aq aq aq qq 3 0 8 236 800 k m t al f as km 7.3 5 S2 234 240 239 239A 1.8 2 4 0 8 232 242 241 6 22 4 22 c 8 0 8 8 22 0 0 3 1 1 : 1 0 23 24 4 24 3 k tr Æ ck u omo Ol . l u ZO 6 3 246 245 v a st t al f as 7. 7 ,92 5 24 7 7 21 9 21 qqaq t al f as 1 : 1 1 3 0 0 0 3 km 3 7 1, 2 Æe gar 1 1 8 50 1 2. 450 + 1 1 . 850 388. 57m 6 85. 01 m = 65 00 00 35 65 00 23 6 1 1 6 BS 1 4 k 4 m , 1 1 0 4 0 4 , 0 8 5 0 .7 9. 7 23 5 7 1, 2.1 4 bet. k.s. t al f as j a mv a r t j a mv a r t 2 4 8 o dl k m = -12.340 +11.890 473.90m 598.32m r =7 r 1=7 50 54 m , 1 0m 1.0 3 .3 0 70 2, 3.2 0 0.9 5 . pan . bet 44 2 0 60 0m , 0 +0 0. 50 km 1 4,81 3 km km 1: 18 , 512 00 I I I 0.8 2.6 0.4 km 8,2 73 2, 8. 2 2.1 km 1.1 2 . f as dl. asf. a. dl 2 49 bu. k m 0.9 P= ZP KO 3, 84 0 1,4 4 .9 3.1 1.7 1.2 3,178 1.8 ZP 1.3 5 2 5 0 T R A F O 0 0 0 5 = 0 50 m 3. 1 53 4. 0 37 80 0m . 5 0 +9 . 47 00 1 0 0 50 4 1. K 6. 7 1.1 89 3.1 4 3,22 1 2.5 8 21 0 22 2 22 na z Æ v o l ys røm p ce i an p a l 2 3,3 KO km 5 5 R=355m 309m 8334g; do=374, as=84, f =96mm; al 45mm; I 30=90km/h; D=1 V=85km/h; V1 da oi ot 652m; kl 5m; T=326, 01 , 82; m=1 000m; A=1 3V; Lk=93, 1 30=7, 55V; n1 n=7, da oi ot 052m; kl m; T=332, 281 , 93; m=1 500m; A=1 04, V; Lk=1 01 30=8, 48V; n1 n=8, 9 7 9 2 . st za 0. 5 3, 85 km 3,389 0.8 1 . 2 r=359m 356m = r 1 2, 38 4 1 2, 30 0 4 51 = 4a 2a 1a hranice pozemkø ZO 1 2, 40 7 km km KO= ZO 6 k.z. 450m 8334g; do=365, as=84, f =93mm; al 45mm; I 30=90km/h; D=1 V=85km/h; V1 da oi ot 830m; kl 5m; T=330, 01 , 83; m=1 522m; A=1 7V; Lk=93, 1 30=7, 59V; n1 n=7, da oi ot 906m; kl m; T=348, 031 8; m=2, 355m; A=21 32, 4V; Lk=1 1 0, 30=1 74V; n1 0, n=1 15 2 53 9, 23 338 31 4, 2 -1 8m 971 45, 23 2 . dl 465 3, -1 0m 91 9, +13.600 -14.500 43 . dl 386.69m 616.59m 4 1. 0. 8 km 3. 4 3,596 0 3,4 6 60 r = 359m yv ) ed l h KO 3. 1 km 3,635 m 1.8 m 1.0 0.9 1.2 km 14 3.6 3,165 3,081 3,053 2,8 1,1 4 0, 2 0, 1,5 km 1,9 .19 propustek Ł .v.=0,80m sv.k.=1,00m ,v ZO km km = 6500 2.2 734 0 20 9m . 227 3 2 . +1 8 0 2 0 0 m 2 . 1 40 -1 9. 500 68 =5 r = 604m r = 600m a a (v 03 ,1 9 km ZO k ZP k 2.0 2.1 0. 7 1. 0 0.3 km 1.9 ZP 4,2 ZO KP KO 230 278 0 45 2. m 1 + 57 0 8. 20 38 2. 1 m 39 8. 20 7 1. 7 5 R=359m m k 1.4 1 0.5 10 3,3 1.4 1.0 65 a a 1S o af tr 8 k.z. 9 o af r t 9 1. 0.9 0.4 2.7 0.5 KO r.s. 10 8 7 9 2S 20 m k8 .3 3 3,635 .9 2 1.2 2 3,46 90 75 a V h / m k 0 h 9 / = 0 13 5km 8 = V P,34 Z9 1.0 2.6 km 3,601 km 3,3 2 r.s. h / m k 0 h 10 / = m 0 k 0 13 10 = M 1.1 km 0.4 0.5 ZO 0. 8 1.9 a a KO KO a V V K 0.6 1.5 5 0. km km 17 3,3 KP km 3,225 2.1 85 70 4 80 2 .5 2.4 2.7 3,7 6,1 1,3 4 1, m 550 m = r 90 , 545 = r ZP .20 Ł m ek =1,00 pust ,v.v. pro 00m .=1, sv.k KO km 0.3 0.4 3,198 3,169 3,085 3,055 2,7 95 ,7 0 5 9 62 8 2, 62 2, 2 2 01 00 2 , m 1 4 +1 9, 68 = km ZO km 0.4 ZP km 0.4 2,979 4,2 1,2 1,3 3 1, km km 6 0 00 , 4 -1 0m 225 90 1 d 8 0 8 1 4, 0 22 KP km KO km 0,3 3,1 2 1VI 1,0 1,5 80 5 5 21 1.7 2 0 30 1- 1 : 3 1 80 2 30 6 21 s. k. 6 80 0.4 2 3 21 1 21 . t be . l ne pa . t be 4 2VI 2,6 3,5 0 0,5 1,2 72 2, 4 73 2, T 7 80 0 30 11 : 1 2 0 2,81 km km 9 62 2, 8 62 2, 6 0 30 11 1: 8 80 9 80 2,950 km ZP km km 5 1 0 0 85 80 4 21 . l ne pa 8 6 11 0 30 11 1: 9 6 11 d 4 0 8 d 6 0 8 5 20 . l ne pa . l ne pa 2 21 1 1,6 ZO 6 23 0m 1 499, = r 495m = r 442 270 9 41 140 130 0.4 7 1. .4 0 2 2. 230 -14.500 9 23 l.Ł . 4 z a 1 s 5 t . , 0 ¨e r n o v i c k Æ t e r a s a 3A 24 85 80 aj mv j ra t va m ra t km 1,6 0,3 2007 75 70 00 00 50 9 0, 64m +1 7, 47 0 90 , 3 09m -1 , 0 159 22 1.0 T = 1 4 4 , 3 1 0 130 120 / = 6500 0 96 m . 1 +1 70 3. 0 40 90 m 0. -1 64 7. 47 q q a q a q a q a q a Trubn propust ek evi d.km 75 70 aqa m 85 80 = 6500 0 34 2. 1 m + 90 3. 960 . 1 1 47 70m 3. 40 00 70 374.53m 530.34m 8 0. qaqaqa qaqa 14 aqa ccaqa 6.5 . l d q q a qa q a q a q a = +13.500 ko pł ej ez d . =2 , 90 m 0.4 0.3 qq zv. k.r 2x caq 0 , 13 va ko l stÆvajc stav 1.8 km m 1.4 17A qq .J ul f. as . sf a 1 0 0 2 .8 1 . 0 ZP k kol. Ł . 6 3 .0 O V 1.4 24 . k.s aqa ul .Æ ma l ov a 1 4 , 0 3 2. 2a aq . stÆvajc kolej A L 0. 9 5 0. 4 13 3 13 aq 1 2, 47 2 1.9 2S aq d l a dl a. mosty E R E km 9 . 0 B 17 cc as f . IC V P ZO 0 . 2 23 19 qq t l fa as t al f as B 1 . 1 qa va ko Ł n be Bu . ul j va am j tr va am tr 9 2. 0 76 14 : 51 13 I 050 12 1: 0 76 14 1: aqa O t l fa t as al f as t l fa as 4 1. 2 qaq 0 80 5, 14 koleje novÆ 9 0 2 1 ca LEGENDA k o l . Ł . 1a qq TN˝ ZARE LA . UL 3m , ES 15 P 1TY as ˝: dl fa POL M OS R`M a ET Bl t : . PO¨ NK TYP Doplujc œdaje : k o l . Ł . 21 . a dl 9 5 6 0 76 14 : 61 13 b. . r k e j Æ kh c i v o n r e o¨ n) n e Ł i n Br a t . s . t t s s a 3( 5 z 2 , 4 m k = ) D K SJ 8( 5 5 , m4 k F.1 003b