alumil s.a. - m9300 softline plus · 120,10 50,40 180,00 56,00 m 9339 1817 m 9359 2167 weight gr/m...
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120,10
50,40
180,00
56,00M 9339
1817
M 9359
2167
Weight gr/mPROFILE Profile NUMBER X mm
Y mmPROFILE Profile NUMBER
Weight gr/mX mmY mm
Profiles R = 1:21 M 9300 “Perfect plus”
54,00
75,50
45,00
50,5045,00
56,00
59,00
56,00
59,00
80,40
54,00
50,50
115,50
62,00
59,00
59,30
M 93211027
M 9350
785
M 9360
1140
M9130
1630
M 9300
705
M 9310
1010
M 9320
866
M9510
1007
72,40
59,00117,60
42,40
45,00
64,80
45,00
64,80
M 9380
1035
M 9379
1446
M 9372
917
M 9570
877
Weight gr/mPROFILE Profile NUMBER X mm
Y mmPROFILE Profile NUMBER
Weight gr/mX mmY mm
R = 1:2 2M 9300 “Perfect plus”Profiles
52,00
77,80
52,00
93,90
52,00
77,80
52,00
69,60
45,00
62,00
117,60
13,30
M 9502
1062
M 9503
1319
M 9505
1084
M 9501
965
M 9397
937
M 93811036
M9132
2549
M 9303
1756
Weight gr/mPROFILE Profile NUMBER X mm
Y mmPROFILE Profile NUMBER
Weight gr/mX mmY mm
Profiles R = 1:23 M 9300 “Perfect plus”
115,50
100,0045,00
147,00
M 9527
1241
M 9514
1041
M 9523
886
M 9515
1125
52,00
98,50
61,00
69,60
45,00
69,60
61,00
77,80
45,00
50,30
45,00
50,30M 9390
851
M 9571
889
M 9308
1165
M 9307
1264
M 9305
930
M 9504
930
M 9309
519
M 9506
641
M 9325
407
M 9398
603
Weight gr/mPROFILE Profile NUMBER X mm
Y mmPROFILE Profile NUMBER
Weight gr/mX mmY mm
ProfilesR = 1:2 4M 9300 “Perfect plus”
45,00
89,00
45,00
112,00
45,00
67,80
59,00
30,40
84,00
29,90
45,00
30,40
42,00
40,30
48,30
61,00
21,00
68,00M 9058
695
Weight gr/mPROFILE Profile NUMBER X mm
Y mmPROFILE Profile NUMBER
Weight gr/mX mmY mm
Profiles R = 1:25 M 9300 “Perfect plus”
M 9347
614M 9346
384
T 35
872
M 9427
428
M 9375
834
M 216
348
M 6000
523
M 9399
1118
M 9376
595
69,00
24,75
39,50
10,00
70,00
70,00
59,00
26,60
54,00
54,00
14,00
50,00
59,60
52,50
42,00
40,30
53,20
41,40
26,00
33,60
24,90
80,00
29,00
87,00
36,00
13,90
10,00
50,00
25,00
60,00
39,00
23,90
39,00
14,20
12,80
30,50
M 9029
421
M 9338
521
M 9341
677
M 9335
320
M 9336
349
M 9348
324
M 9331
367
M 9337
245
M 9332
221
Weight gr/mPROFILE Profile NUMBER X mm
Y mmPROFILE Profile NUMBER
Weight gr/mX mmY mm
ProfilesR = 1:2 6M 9300 “Perfect plus”
39,00
70,00M 9334
898
25,00
100,00
22,80
59,00
16,00
66,00
25,00
110,00
10,00
124,50
22,00
105,80
25,00
60,00
M 9342
565
M 9333
514
M 9343
520
M 9356
734
M 9358
800
M 6023
956
M 9357
385
Profiles R = 1:27 M 9300 “Perfect plus”
Weight gr/mProfile NUMBERWeight gr/m
PROFILE Profile NUMBER X mmY mm
PROFILE X mmY mm
M9322
478
45,00
30,80
41,30
27,00
23,00
33,50
21,00
16,00
16,20
20,70
19,30
4,30
16,90
4,60
19,00
26,50
19,35
26,60
29,50
26,60
14,00
16,30
M 9314
390
M 9319
329
M 9317
180
M 11116
183
M 9316
143
M 9351
70
M 9312
242
M 9311
304
M 9313
174
M 6001
148
ProfilesR = 1:2 8M 9300 “Perfect plus”
Weight gr/mProfile NUMBERWeight gr/m
PROFILE Profile NUMBER X mmY mm
PROFILE X mmY mm
Profiles R = 1:19 M 9300 “Perfect plus”
1
1
1
1
2
3
3
2
2
45
6
8 97
2
3 3
11
11
1111 11
12
13
2
1010a
10a 10
17
16
1415 15a
12
18 19
12
12
1
2
11
12
11
12
ProfilesR = 1:1 10M 9300 “Perfect plus”
22,0
0
59
,30
5,0
044,8
0
10
9,1
0
55
,80
31
,30
45,00
28,00 13,503,50
2
M 9510
M 9502
M 9317
M 9312
MS.08.02
M0.19.00
MO.93
MO.63
ÍÅÑÏ×ÕÔÇÓ
M0.68.03 MO.69
M0.19.00M0.19.00
M0.20
MO.74
MO.90
11.23.40ÃÙÍÉÁ ÓÕÍÄÅÓÇÓ
ÔÁÊÁÊÉ ÓÔÇÑÉÎÇÓ
ÃÙÍÉÁ ÓÕÍÄÅÓÇÓ
ÃÙÍÉÁ ÅÐÉÐÅÄÏÔÇÔÁÓ
ÃÙÍÉÁ ÅÐÉÐÅÄÏÔÇÔÁÓÃÙÍÉÁÅÐÉÐÅÄÏÔÇÔÁÓ
ÊÅÍÔÑÉÊÏ ËÁÓÔÉ×ÏÓÔÅÃÁÍÙÓÇÓ
11.23.40
M0.19.00
MO.42.01
MS.08.02
M0.68.03 MO.69
MO.90.02
M0.19.00
MO.42.01
MO.90.02MO.90.02
MO.42.01
MO.60MO.19.00
MS.08.02 MS.08.02
M0.68.03M0.68.03
M0.19.00
MO.69
MO.69
22
,00
28
,50
50
,50
50
,50
50
,50
45,00
12,00 29,503,50
54,00
28,00 13,5017,50
22
,00
75
,50
53
,50
22
,00
50
,50
50
,50
28
,50
54,00
28,00 13,5012,50
M 9320
M 9312
M 9321M 9300
M 9312M 9311
1.
1a. 1.
1
1
Section 1,1a R = 1:111 M 9300 “Perfect plus”
M0.20
MS.08.02
M0.68.03 MO.69
MO.93
M0.20
MO.63
MO.74
MO.42.01
MO.42.01
MO.90
MO.74
M0.68.03
MO.69
MO.93
ERT.500.401M0.20MO.63
MO
.42.0
1
MO
.42.0
1
50
,50
5,0
03
6,6
0
22
,00
92
,10
47
,60
22
,50
3,50
45,00
28,00 13,50
50,50 5,00 36,60
M 9300
M 9501M 9312
M 9501M 9300
M 9312
3.
2
3
2.
Section 2,3R = 1:1 12M 9300 “Perfect plus”
M0.20 97
,60
47
,60
28
,00
56,00 5,00 36,60
22
,00
56
,00
61,00
28,00 13,5019,50
M 9310
M 9310
M 9514
M 9514
M 9312
M 9312
M0.20
MO.19.00
MO.19.00
MO.19.00
MO.19.00
MO.19.00
MO.19.00
MO.42.01
AT 219
MO.42.01
AT 219
ERT.500.401
MO.74
MO.74
MO.93
MO.93
MO.62
MO.62
MS.08.02
MO.90
M0.68.03
M0.68.03
MO.69
MO.69
MO.63
MO.63
2
3
3.
2.
Section 2,3 R = 1:113 M 9300 “Perfect plus”
22,0
0
56,0
0
56,00 5,00 44,80
105,8
055,8
028,0
0
61,00
28,00 13,5019,50
M 9310
M 9515 M 9312
M 9310
M 9515
M 9312
AT 219
AT 219
11.23.40
ERT.500.401 11.23.40
M0.68.03
M0.68.03
MO.69
MO.69
MO.93
MO.93
M0.20
M0.20
MO.63
MO.63
MO.19.00
MO.19.00
MO.19.00
MO.19.00
MO.19.00
MO.19.00
MO.74
MO.74
MO.62
MO.62
MO.19.00
MO.90
MS.08.02
MO.19.00
2
3
3.
2.
Section 2,3R = 1:1 14M 9300 “Perfect plus”
22,0
022,0
0
89,0
044,8
05,0
05,0
036,6
0
180,4
0
47,6
033,0
055,8
0
45,00
28,00 13,503,50
44.
M 9312
M 9501M 9312
M 9317
M 9502
M 9308
MO.69M0.68.03
MS.08.02
11.23.40
MO.42.01
ERT.500.401
MO.90
MO.69M0.68.03
M0.20
MO.63
MO.63
MO.74
MO.74M0.20
MO.93
MO.93
Section 4 R = 1:115 M 9300 “Perfect plus”
22
,00
16
0,6
0
55
,80
5,0
05
5,8
02
2,0
0
45,00
28,00 13,503,50
22
,00
22
,00
13
0,6
0
47
,60
39
,00
13,50
89
,00
5,0
03
6,6
0
45,00
28,003,50
6.
55.
6
M 9308
M 9501
M 9312
M 9312
M 9312
M 9312
M 9504
M 9502
M 9502
MO.42.01
M0.68.03
M0.68.03
MO.69
MO.69
MO.93
MO.63
MO.74
11.23.40
11.23.40
M0.68.03
M0.68.03
MO.69
MO.69
M0.93
M0.63
M0.20
M0.20
MO.74
Section 5,6R = 1:1 16M 9300 “Perfect plus”
52,00
14
6,1
0
28,00
50
,50
5,0
0
47,6022,50
20,50
54
,00
3,50
36
,60
22,00
146,10
50,50 5,0054,00 36,60
M 9501
M 9320
M 9375
M 9501
M 9312
M 9312
M 9320
AT 219
AT 219
MO.42.01
M0.68.03
M0.68.03
MO.69
MO.69
MO.93
MO.93
M0.20
M0.20
MO.63
MO.63
MO.74
MO.74
MO.19.00
MO.19.00
MO.19.00
MO.42.01
7.7
90
M 9300 “Perfect plus” Section 7 R = 1:117
52,00
14
6,1
0
28,00
50
,50
5,0
0
47,60
22,50
20,50
22
,15
3,50
36
,60
22,00
146,10
50,50
5,00
22,15
36,60
M 9501
M 9320
M 9376
M 9501
M 9312
M 9312
M 9320
M0.68.03
M0.68.03
MO.69
MO.69
MO.93
MO.93
M0.20
M0.20
MO.63
MO.63
MO.74
MO.19.00
MO.19.00
MO.19.00
MO.74
AT 219
MO.42.01
MO.4
2.01
AT 219
8
135
8.
M 9300 “Perfect plus”Section 8R = 1:1 18
o
22
,00
47
,60
31
,30
3,50 28,00 20,50
52,00
7,0
0
22,00
37,30
22
,60
22,60
59
,30
59,30
12
3,5
0
81,90
5,0
03
6,6
0
3,5
0
28,0
0
13,5
0
52,0
0
7,00
70,00
O
M 9510
M 9510
M 9501 M 9312
M 9312T 35
M 9427
M 9427
11.23.40
11.23.40
MO.42.01
MO.69
MO.69
M0.19.00
M0.19.00 M0.19.00
M0.19.00
M0.19.00
M0.19.00
M0.68.03
M0.68.03
MO.93
MO.60
MO.60
M0.20
MO.63
MO.74
9.9
65 - 230
M 9300“Perfect plus” Section 9 R = 1:119
oo
ERT.500.401
59,30
59,30
5,00
5,00
22,0071,90
125,20
125,20
125,20
60,90
60,90
31,30
22,00 71,90
125,20
31,30
M 9510
M 9503
M 9312
M 9503
M 9312
M 9510
11.23.40
MO.69
M0.19.00
M0.19.00
M0.19.00
M0.68.03MO.93
M0.20
MO.63
MO.74
NF.7651/30
MO.69
11.23.40
11.38.40
M0.19.00
M0.19.00
M0.19.00
M0.68.03 MO.93
M0.20 MO.63
MO.74
10a.
10.
10
10a
M 9300 “Perfect plus”Section 10,10aR = 1:1 20
5,0
01
0,0
01
47
,00
12
5,0
01
5,0
02
2,0
0
3,50 28,00 13,50
45,00
45
,00
22
,00
22
,00
3,50
3,50
28,00
28,00
13,50
13,50
45,00
45,00
89
,00
M 9303
M 9346
M 9312
M 9308
M 9312
M 9312
MO.02
MO.02
MS.08.02
MS.08.02
MO.69
MO.69
MO.69
M0.68.03
M0.68.03
M0.68.03
MS.18.03
11.
12.
11
12
M 9300 “Perfect plus” Section 11,12 R = 1:121
MO.60
22
,00
47
,60
19
6,5
0
33
,00
22
,00
71
,90
3,50
3,50
28,00
28,00
20,50
20,50
52,00
52,00
M 9317
M 9501
M 9308
M 9503
M 9312
M 9312
MS.08.02
MO.90
MO.69
MO.69
M0.68.03
M0.68.03
MO.93
MO.93
M0.20
M0.20
MO.63
MO.63
MO.74
MO.74
MO.42.01
11.38.40
ERT.500.401
13
13.
M 9300 “Perfect plus”Section 13R = 1:1 22
52,00
52,00
3,50
3,50
28,00
28,00
20,50
20,50
71
,90
39
,00
22
,00
22
,00
15
4,0
0
M 9303
M 9308
M 9312
M 9312
MO.69
MO.69
M0.68.03
M0.68.03
MO.93
M0.20
MO.63
MO.74
NF.7651/35
14.
14
M 9300 “Perfect plus” Section 14 R = 1:123
28,00
28,00
98,50
98,50
13
,50
13
,50
28
,00
28
,00
45
,00
45
,00
3,5
0
3,5
0
56,00
56,00
5,00
5,00
43,50 22,00
43,5022,00
126,50
126,50
M 9350
M 9350
M 9527
M 9527
M 9312
M 9312
MO.69
MO.69
M0.68.03
M0.68.03
MO.93
MO.93
MO.19.00
MO.19.00
Silicone
Silicone
M0.20
M0.20
MO.63
MO.63
MO.74
MO.74
AT 219
AT 219
NF.7651/35
ERT.500.40111.43.40
15a15
15.
15a.
M 9300 “Perfect plus”Section 15 , 15aR = 1:1 24
92,10
50,50
22,50
19,60
69,60
22,00
13
,50
50
,50
28
,00
19
,60
69
,60
45
,00
92
,10
3,5
0
22
,00
22
,50
45,00
3,50 28,00 13,50
M 9312
M 9312
M 9300
M 9300
M 9523
M 9523MS.08.02
MO.69
MO.69
M0.68.03
MO.93
M0.20
M0.20
MO.63
MO.74
MO.42.01
MO.42.01
MO.69
M0.68.03
MO.93
MO.63
MO.74M
O.4
2.0
1
MO
.42.0
1
ERT.500.401
16.
17. 16
17
M 9300 “Perfect plus” Section 16 , 17 R = 1:125
43
,50
5,0
05
1,0
02
8,0
02
2,0
0
36
,60
47
,60
5,0
0
21
9,1
0
22
,00
98
,50
28
,00
51
,00
45,00
45,00
3,50
3,50
28,00
28,00
13,50
13,50
M 9501
M 9350
M 9350
M 9527
M 9312
M 9312
MO.69
MO.69
M0.68.03
M0.68.03
MO.93
MO.93
MO.19.00MO.19.00
M0.20
M0.20
MO.63
MO.63
MO.74
MO.74
AT 219
AT 219
MO.42.01
NF.7651/35
18
18.
M 9300 “Perfect plus”Section 18R = 1:1 26
43
,50
5,0
06
1,0
05
,00
22
,00
98
,50
43
,50
5,0
0
20
2,0
0
22
,00
98
,50
45,00
45,00
3,50
3,50
28,00
28,00
13,50
13,50
M 9504
M 9527
M 9527
M 9312
M 9312
MO.69
MO.69
M0.68.03
M0.68.03
MO.93
M0.20
MO.63
MO.74
NF.7651/35
11.43.40
19
19.
M 9300 “Perfect plus” Section 19 R = 1:127
CUTTING ANALYSISCUTTING ANALYSIS
M 9300CUTTING ANALYSIS
M 9510
M 9501
M 9504
M 9510
M 9501
31,30 31,305,00
M
A A
Y
31,30 31,30
M
AA
Y
YM
ÄÉÖÕËËÏ ÁÍÏÉÃÏÌÅÍÏ - ÐÑÏÂÁËËÏÌÅÍÏ
DOUBLE LEAF CASEMENT WINDOW/ TILT-N-TURN
M 9300 “Perfect plus” R : free29
MOÍÏÖÕËËÏ ÁÍÏÉÃÏÌÅÍÏ - ÐÑÏÂÁËËÏÌÅÍÏ
SINGLE LEAF CASEMENT/ TILT-N-TURN WINDOW
ÕØÏÓ Þ ÐËÁÔÏÓ ÖÕËËÏÕ
ÕØÏÓ ÖÕËËÏÕ
ÐËÁÔÏÓ ÖÕËËÏÕ
2
A =Y-62,6
A= M +12
A = Y - 62,6 A=M+12
AY - 67,6
mm
mm
(or)ç
(or)ç
(or)çmm
mm
(HEIGHT OR WIDTH OF SASH)
(HEIGHT OF SASH)
(WIDTH OF SASH)A ==
M+7
2mm
mm
Cutting analysis
M 9310
M 9310
M 9501
M 9501
M 9504
28,00 28,005,00
M
A A
Y
28,00 28,00
M
AA
Y
YM
M 9300 “Perfect plus”R : free 30
MOÍÏÖÕËËÏ ÁÍÏÉÃÏÌÅÍÏ - ÐÑÏÂÁËËÏÌÅÍÏ
ÄÉÖÕËËÏ ÁÍÏÉÃÏÌÅÍÏ - ÐÑÏÂÁËËÏÌÅÍÏ
SINGLE LEAF CASEMENT/ TILT-N-TURN WINDOW
DOUBLE LEAF CASEMENT WINDOW/ TILT-N-TURN
ÕØÏÓ Þ ÐËÁÔÏÓ ÖÕËËÏÕ
ÕØÏÓ ÖÕËËÏÕ
ÐËÁÔÏÓ ÖÕËËÏÕ
2
A = Y -56,0
A=M+12
A = Y - 56,0 A=M+12
AY - 61,0
mm
mm
(or)ç
(or)ç
(or)çmm
mm
(HEIGHT OR WIDTH OF SASH)
(HEIGHT OF SASH)
(WIDTH OF SASH)A ==
M+7
2mm
mm
Cutting analysis
M 9310
M 9310
M 9501
M 9501
M 9504
28,00 28,005,00
M
A A
Y
28,00 28,00
M
AA
Y
YM
MOÍÏÖÕËËÏ ÁÍÏÉÃÏÌÅÍÏ - ÐÑÏÂÁËËÏÌÅÍÏ
ÄÉÖÕËËÏ ÁÍÏÉÃÏÌÅÍÏ - ÐÑÏÂÁËËÏÌÅÍÏ
SINGLE LEAF CASEMENT/ TILT-N-TURN WINDOW
DOUBLE LEAF CASEMENT WINDOW/ TILT-N-TURN
Cutting analysis R : free31
ÕØÏÓ Þ ÐËÁÔÏÓ ÖÕËËÏÕ
ÕØÏÓ ÖÕËËÏÕ
ÐËÁÔÏÓ ÖÕËËÏÕ
2
A = Y -56,0
A=M+12
A = Y - 56,0 A=M+12
AY - 61,0
mm
mm
(or)ç
(or)ç
(or)çmm
mm
(HEIGHT OR WIDTH OF SASH)
(HEIGHT OF SASH)
(WIDTH OF SASH)A ==
M+7
2mm
mm
M 9300 “Perfect plus”
M 9501
M 9501
M 9397 M 9397
M 9397
M 9380
M 9381
M 9501
Cutting analysisR : free 32
MOÍÏÖÕËËÏ ÁÍÏÉÃÏÌÅÍÏ - ÐÑÏÂÁËËÏÌÅÍÏ ÌÅ ÐÁÍÔÆÏÕÑÉ
SINGLE LEAF CASEMENT/ TILT-N-TURN WINDOW WITH SHUTTER
28,00
28,00 28,00
28,00
M
N1
N
M
A
B1B
A
X
Y1Y
X
ÐËÁÔÏÓ ÖÕËËÏÕ ÊÁÉ ÖÕËËÏÕ ÐÁÍÔÆÏÕÑÉÏÕ
ÕØÏÓ ÖÕËËÏÕ
ÕØÏÓ ÖÕËËÏÕ ÐÁÍÔÆÏÕÑÉÏÕ
A =X - 56,00mm
B =Y - 56,00mm
B =Y - 35,30mm1 1
A=M+12,00 mm
B= N + 12 mm
B = N + 12,0 mm1 1
(or)ç
(or)ç
(or)ç
(WIDTH OF SASH AND SHUTTER)
(HEIGHT OF SASH)
(HEIGHT OF SHUTTER)
M 9300 “Perfect plus”
M 9380
M 9380
M 9380
M 9381
M 9501
M 9501
M 9504
M 9398 M 9397
M 9397
M 9397
ÄÉÖÕËËÏ ÁÍÏÉÃÏÌÅÍÏ - ÐÑÏÂÁËËÏÌÅÍÏ ÌÅ ÐÁÍÔÆÏÕÑÉ
DOUBLE LEAF CASEMENT WINDOW WITH SHUTTER/ TILT-N-TURN
Cutting analysis R : free33
28,00
28,00 28,00
28,00
M
N
N
M
A A
B1B
A A
X
Y1Y
X
ÐËÁÔÏÓ ÖÕËËÏÕ ÊÁÉ ÖÕËËÏÕ ÐÁÍÔÆÏÕÑÉÏÕ
ÕØÏÓ ÖÕËËÏÕ
ÕØÏÓ ÖÕËËÏÕ ÐÁÍÔÆÏÕÑÉÏÕ
A = mm A = mmX - 61,00 M + 7,00
2 2
B =Y - 56,00mm
B =Y - 35,30mm1 1
B= N + 12 mm
B = N + 12,0 mm1 1
(or)ç
(or)ç
(or)ç
(WIDTH OF SASH AND SHUTTER)
(HEIGHT OF SASH)
(HEIGHT OF SHUTTER)
M 9300 “Perfect plus”
M 9380
M 9380
M 9380
M 9381
M 9501 M 9501
M 9501
M 9571
M 9571
M 9571
M 9571
Cutting analysisR : free 34
28,00
3,50
34,00 34,00
3,50
28,00
M
N1
N
M1
A
B1B
A1
X
Y1Y
X1
ÐËÁÔÏÓ ÖÕËËÏÕ
ÐËÁÔÏÓ ÖÕËËÏÕ ÐÁÍÔÆÏÕÑÉÏÕ
ÕØÏÓ ÖÕËËÏÕ
ÕØÏÓ ÖÕËËÏÕ ÐÁÍÔÆÏÕÑÉÏÕ
A =X - 56,00mm
A =X - 75,00mm1 1
B =Y - 56,00mm
B =Y - 54,30mm1 1
A=M+12,00 mm
A = M - 7,00 mm1 1
B= N + 12 mm
B = N - 7,00 mm1 1
(or)ç
(or)ç
(or)ç
(or)ç
(WIDTH OF SASH)
(WIDTH OF SHUTTER)
(HEIGHT OF SASH)
(HEIGHT OF SHUTTER)
MOÍÏÖÕËËÏ ÁÍÏÉÃÏÌÅÍÏ - ÐÑÏÂÁËËÏÌÅÍÏ ÌÅ ÐÁÍÔÆÏÕÑÉ
SINGLE LEAF CASEMENT/ TILT-N-TURN WINDOW WITH SHUTTER
M 9300 “Perfect plus”
ÄÉÖÕËËÏ ÁÍÏÉÃÏÌÅÍÏ - ÐÑÏÂÁËËÏÌÅÍÏ ÌÅ ÐÁÍÔÆÏÕÑÉ
DOUBLE LEAF CASEMENT WINDOW WITH SHUTTER/ TILT-N-TURN
Cutting analysis R : free35
28,00
3,50
3,50
34,00 34,00
3,50
28,00
M
N1
N
M1
A A
B1B
A1 A1
X
Y1Y
X1
ÐËÁÔÏÓ ÖÕËËÏÕ
ÐËÁÔÏÓ ÖÕËËÏÕ ÐÁÍÔÆÏÕÑÉÏÕ
ÕØÏÓ ÖÕËËÏÕ
ÕØÏÓ ÖÕËËÏÕ ÐÁÍÔÆÏÕÑÉÏÕ
A = mm1
A = mm
A = mm1
A = mm
X - 78,501
X - 61,00
M - 10,501
M + 7,00
2
2
2
2
B =Y - 56,00mm
B =Y - 54,30mm1 1
B= N + 12 mm
B = N - 7,00 mm1 1
(or)ç
(or)ç
(or)ç
(or)ç
(WIDTH OF SASH)
(WIDTH OF SHUTTER)
(HEIGHT OF SASH)
(HEIGHT OF SHUTTER)
M 9571
M 9571
M 9571
M 9392
M 9571
M 9380
M 9379
M 9501
M 9380
M 9380
M 9380
M 9381
M 9501
M 9501
M 9501
M 9504
M 9300 “Perfect plus”
Cutting analysisR : free 36
ÔÑÉÖÕËËÏ ÁÍÏÉÃÏÌÅÍÏ - ÐÑÏÂÁËËÏÌÅÍÏ ÌÅ ÐÁÍÔÆÏÕÑÉ
THREE- LEAF CASEMENT WINDOW WITH SHUTTER/ TILT-N-TURN
M 9571
M 9571
M 9380
M 9380
M 9501
M 9504
M 9504
M 9300 “Perfect plus”
MM
AA
A
AA
A
XX
ÐËÁÔÏÓ ÖÕËËÏÕ
ÐËÁÔÏÓ ÖÕËËÏÕ ÐÁÍÔÆÏÕÑÉÏÕ
ÕØÏÓ ÖÕËËÏÕ
ÕØÏÓ ÖÕËËÏÕ ÐÁÍÔÆÏÕÑÉÏÕ
A = mm1
A = mm
A = mm1
A = mm
X - 82,001
X - 66,00
M - 14,001
M + 2,00
3
3
3
3
B =Y - 56,00mm
B =Y - 54,30mm1 1
B= N + 12 mm
B = N - 7,00 mm1 1
(or)ç
(or)ç
(or)ç
(or)ç
(WIDTH OF SASH)
(WIDTH OF SHUTTER)
(HEIGHT OF SASH)
(HEIGHT OF SHUTTER)
ÔÅÔÑÁÖÕËËÏ ÁÍÏÉÃÏÌÅÍÏ - ÐÑÏÂÁËËÏÌÅÍÏ ÌÅ ÐÁÍÔÆÏÕÑÉ
FOUR- LEAF CASEMENT WINDOW WITH SHUTTER/ TILT-N-TURN
Cutting analysis R : free37
M 9571
M 9571
M 9380
M 9380
M 9501
M 9504
M 9300 “Perfect plus”
MM
AA
AA
AA
AA
XX
ÐËÁÔÏÓ ÖÕËËÏÕ
ÐËÁÔÏÓ ÖÕËËÏÕ ÐÁÍÔÆÏÕÑÉÏÕ
ÕØÏÓ ÖÕËËÏÕ
ÕØÏÓ ÖÕËËÏÕ ÐÁÍÔÆÏÕÑÉÏÕ
A = mm1
A = mm
A = mm1
A = mm
X - 85,501
X - 71,00
M - 17,501
M - 3,00
4
4
4
4
B =Y - 56,00mm
B =Y - 54,30mm1 1
B= N + 12 mm
B = N - 7,00 mm1 1
(or)ç
(or)ç
(or)ç
(or)ç
(WIDTH OF SASH)
(WIDTH OF SHUTTER)
(HEIGHT OF SASH)
(HEIGHT OF SHUTTER)
Cutting analysisR : free 38
ÔÑÉÖÕËËÏ ÁÍÏÉÃÏÌÅÍÏ - ÐÑÏÂÁËËÏÌÅÍÏ ÌÅ ÐÁÍÔÆÏÕÑÉ
THREE- LEAF CASEMENT WINDOW WITH SHUTTER/ TILT-N-TURN
M 9300 “Perfect plus”
MM
AA
A
AA
A
XX
ÐËÁÔÏÓ ÖÕËËÏÕ ÊÁÉ ÖÕËËÏÕ ÐÁÍÔÆÏÕÑÉÏÕ
ÕØÏÓ ÖÕËËÏÕ
ÕØÏÓ ÖÕËËÏÕ ÐÁÍÔÆÏÕÑÉÏÕ
A = mm A = mmX - 66,00 M + 2,00
3 3
B =Y - 56,00mm
B =Y - 35,30mm1 1
B= N + 12 mm
B = N + 12,0 mm1 1
(or)ç
(or)ç
(or)ç
(WIDTH OF SASH AND SHUTTER)
(HEIGHT OF SASH)
(HEIGHT OF SHUTTER)
M 9397
M 9397
M 9397
M 9501
M 9501
M 9380
M 9380
M 9504
M 9504
M 9398
M 9398
ÔÅÔÑÁÖÕËËÏ ÁÍÏÉÃÏÌÅÍÏ - ÐÑÏÂÁËËÏÌÅÍÏ ÌÅ ÐÁÍÔÆÏÕÑÉ
FOUR- LEAF CASEMENT WINDOW WITH SHUTTER/ TILT-N-TURN
Cutting analysis R : free39 M 9300 “Perfect plus”
MM
AA
AA
AA
AA
XX
ÐËÁÔÏÓ ÖÕËËÏÕ ÊÁÉ ÖÕËËÏÕ ÐÁÍÔÆÏÕÑÉÏÕ
ÕØÏÓ ÖÕËËÏÕ
ÕØÏÓ ÖÕËËÏÕ ÐÁÍÔÆÏÕÑÉÏÕ
A = mm A = mmX - 71,00 M - 3,00
4 4
B=Y - 56,00mm
B =Y - 35,30mm1 1
B= N + 12 mm
B = N + 12,0 mm1 1
(or)ç
(or)ç
(or)ç
(WIDTH OF SASH AND SHUTTER)
(HEIGHT OF SASH)
(HEIGHT OF SHUTTER)
M 9397
M 9397
M 9380
M 9501
M 9501
M 9504
M 9504
M 9504
M 9380
M 9398
M 9398
M 9398
ACCESSORIESACCESSORIES
M 9300ACCESSORIES
E Î Á Ñ Ô Ç Ì Á Ô Á - A C C E S S O R I E S
Ð Å Ñ É Ã ÑÁ Ö Ç :ÃÙÍÉÁ ÓÕÍÄÅÓÇÓ MHXANIKH“OLYMPOS”
DIE-CAST ALUMINIUM JOINT CORNER
×ÕÔÇ ÁËÏÕÌÉÍÉÏÕÕË É ÊÏ :
× Ñ Ù Ì Á :
Ó Õ Ó Ê Å ÕÁ Ó É Á :
MO.42.01
Ð Å Ñ É Ã ÑÁ Ö Ç :ÃÙÍÉÁ ÓÕÍÄÅÓÇÓ MHXANIKH
ÌÅÔÁËËÉÊÇÕË É ÊÏ :
× Ñ Ù Ì Á :
Ó Õ Ó Ê Å ÕÁ Ó É Á :
AT.219
STEEL JOINT CORNER
Ð Å Ñ É Ã ÑÁ Ö Ç :Ð Å Ñ É Ã ÑÁ Ö Ç :ÃÙÍÉÁ ÓÕÍÄÅÓÇÓ ÐÑÅÓÓÁÑÉÓÔÇ ÃÙÍÉÁ ÓÕÍÄÅÓÇÓ ÐÑÅÓÓÁÑÉÓÔÇ
ÁËÏÕÌÉÍÉÏ ÁËÏÕÌÉÍÉÏÕ
ØÏ
ÓÈ
ÁË
ÁÌ
ÏÕ
ÕØ
ÏÓ
ÈÁ
ËÁ
ÌÏ
Õ
ÐË
ÁÔ
ÏÓ
ÈÁ
ËÁ
ÌÏ
Õ
ÐË
ÁÔ
ÏÓ
ÈÁ
ËÁ
ÌÏ
Õ
ÕË É ÊÏ :ÕË É ÊÏ :
× Ñ Ù Ì Á :
Ó Õ Ó Ê Å ÕÁ Ó É Á :
× Ñ Ù Ì Á :
Ó Õ Ó Ê Å ÕÁ Ó É Á :
11.38-4011.23-40
EXTRUDED ALUMINIUM JOINT CORNEREXTRUDED ALUMINIUM JOINT CORNER
Ð Å Ñ É Ã ÑÁ Ö Ç : Ð Å Ñ É Ã ÑÁ Ö Ç :ÃÙÍÉÁ ÅÐÉÐÅÄÏÔÇÔÁÓ ÁÔÓÁËÉÍÇ ÃÙÍÉÁ ÅÐÉÐÅÄÏÔÇÔÁÓ ÁÍÏÉÃÏÌÅÍÏÕÈÅÓÇ ÌÅÍÔÅÓÅ
STEEL
ALIGNMENT SQUARE
ALIGNMENT SQUARE
POLYAMIDE 6.6ÕË É ÊÏ :
× Ñ Ù Ì Á :
ÕË É ÊÏ
× Ñ Ù Ì Á
Ó Õ Ó Ê Å ÕÁ Ó É Á : Ó Õ Ó Ê Å ÕÁ Ó É Á ::
MO.19.00 MO.20
M 9 3 0 0 “ P e r f e c t P l u s ”
E Î Á Ñ Ô Ç Ì Á Ô Á - A C C E S S O R I E S
Ð Å Ñ É Ã ÑÁ Ö Ç :ÄÉÐËÏ ×ÅÑÏÕËÉ ÐËÁÊÁÓ ÃÉÁ ÅÉÓÏÄÏ
ALUMINIUM DOUBLE FRENCH DOOR HANDLE
ÕË É ÊÏ :
× Ñ Ù Ì Á :
Ó Õ Ó Ê Å ÕÁ Ó É Á :
X-103
Ð Å Ñ É Ã ÑÁ Ö Ç :ÓÐÁÍÉÏËÅÔÁ ÁÍÏÉÃÏÌÅÍÏÕ ÅËËÇÍÉÊÇ
CREMONE BOLT FOR SINGLE WING
ÕË É ÊÏ :
× Ñ Ù Ì Á :
Ó Õ Ó Ê Å ÕÁ Ó É Á :
SX-100
Ð Å Ñ É Ã ÑÁ Ö Ç :ÊÉÔ ÃÉÁ ÓÐÁÍÉÏËÅÔÁ ÁÍÏÉÃÏÌÅÍÏÕSX-100
LOCKING KIT FOR CREMONE BOLT SX-100
× Ñ Ù Ì Á :
Ó Õ Ó Ê Å ÕÁ Ó É Á :
KIT-AL
Ð Å Ñ É Ã ÑÁ Ö Ç :ÌÇ×ÁÍÉÓÌÏÓ ÄÉÖÕËËÏÕ, ÔÕÐÏÕ ROTO
CENTRAL LATCH KIT FOR THE COUPLEDWING
ÕË É ÊÏ :
× Ñ Ù Ì Á :
Ó Õ Ó Ê Å ÕÁ Ó É Á :
MO.22.01
M0.22.02
Ð Å Ñ É Ã ÑÁ Ö Ç :ÓÕÍÄÅÓÌÏÓ ÃÉÁ “ÔÁÕ”(áíèñùðÜêé)
ÁËÏÕÌÉÍÉÏ
EXTRUDED ALUMINIUM “T” JOINT
ÕË É ÊÏ :
× Ñ Ù Ì Á :
Ó Õ Ó Ê Å ÕÁ Ó É Á :
MO.33.01
M 9 3 0 0 “ P e r f e c t P l u s ”
Ð Å Ñ É Ã ÑÁ Ö Ç :ÊËÅÉÄÁÑÉÁ ÌÅ ÃËÙÓÓÁ 35mm
SAFETY LOCK 35mm WITH REVERSIBLESPRING LATCH
ÕË É ÊÏ :
× Ñ Ù Ì Á :
Ó Õ Ó Ê Å ÕÁ Ó É Á :
NF.7651/35
Ð Å Ñ É Ã ÑÁ Ö Ç :
Ð Å Ñ É Ã ÑÁ Ö Ç :
Ð Å Ñ É Ã ÑÁ Ö Ç :
Ð Å Ñ É Ã ÑÁ Ö Ç :
Ð Å Ñ É Ã ÑÁ Ö Ç :
Ð Å Ñ É Ã ÑÁ Ö Ç :
ÓÐÁÍÉÏËÅÔÁ ÌÇ×ÁÍÉÓÌÏÕ “GLOBO”
ÌÐÑÁÔÓÏ Íï1 300 ÷éë.
ÓÅÔ ÌÅÍÔÅÓÅ ÌÇ×ÁÍÉÓÌÏÕ 70 Êgr.
ÂÁÓÉÊÏ ÓÅÔ ÌÇ×ÁÍÉÓÌÏÕ
ÌÐÑÁÔÓÏ Íï2 600 ÷éë.
ÓÅÔ ÌÅÍÔÅÓÅ ÌÇ×ÁÍÉÓÌÏÕ 150 Kgr.
ÁËÏÕÌÉÍÉÏ
CREMONE BOLT “ GLOBO” FOR TILT ANDTURN
ARM 300mm UNIVERSAL FOR TILT AND TURN
KIT PAIR OF HINGE 70KG OPEN JOINTSPACE WIDTH STANDARD
KIT PAIR OF HINGE 70-150 KG OPEN JOINTSPACE WIDTH STANDARD
ARM 460mm UNIVERSAL FOR TILT AND TURN
KIT BASIC HARDWARE FOR OPEN JOINTSPACE WIDTH STANDARD
ËÅÕÊÇ
ÁËÏÕÌÉÍÉÏÕË É ÊÏ :
ÕË É ÊÏ :
ÕË É ÊÏ :
ÕË É ÊÏ :
ÕË É ÊÏ :
ÕË É ÊÏ :
× Ñ Ù Ì Á :
× Ñ Ù Ì Á :
× Ñ Ù Ì Á :
× Ñ Ù Ì Á :
× Ñ Ù Ì Á :
Ó Õ Ó Ê Å ÕÁ Ó É Á :
Ó Õ Ó Ê Å ÕÁ Ó É Á :
Ó Õ Ó Ê Å ÕÁ Ó É Á :
Ó Õ Ó Ê Å ÕÁ Ó É Á :
Ó Õ Ó Ê Å ÕÁ Ó É Á :
Ó Õ Ó Ê Å ÕÁ Ó É Á :
× Ñ Ù Ì Á :
ERT.500.101
ERT.500.301
ERT.500.401
ERT.500.200 (ZC.1800)
(ZC.1806)
(ZC.1802)
(ZC.1805)
(ZC.1801)
ERT.500.302
ERT.500.501
E Î Á Ñ Ô Ç Ì Á Ô Á - A C C E S S O R I E S M 9 3 0 0 “ P e r f e c t P l u s ”
ERRETI
ERT.500.200
ERT.501.000
ERT.500.302
ERT.500.401
ERT.500.401
ERT.500.101
ERT.501.100
ERT.501.100
ERT.500.301
E Î Á Ñ Ô Ç Ì Á Ô Á - A C C E S S O R I E SM 9 3 0 0 “ P e r f e c t P l u s ”
Ð Å Ñ É Ã ÑÁ Ö Ç :
Ð Å Ñ É Ã ÑÁ Ö Ç :
Ð Å Ñ É Ã ÑÁ Ö Ç :
ÕË É ÊÏ :
ÕË É ÊÏ :
ÕË É ÊÏ :
 Á Ñ Ï Ó :
 Á Ñ Ï Ó :
 Á Ñ Ï Ó :
Ì Å Ô ÑÁ :
Ì Å Ô ÑÁ :
Ì Å Ô ÑÁ :
MO.60
MO.63
MO.93
ËÁÓÔÉ×Ï ÖÏÕÓÊÁ
ËÁÓÔÉ×Ï �ÍÕ×ÁÊÉ�
�ËÁÓÔÉ×Ï ÍÕ×ÁÊÉ�
Ð Å Ñ É Ã ÑÁ Ö Ç :
ÕË É ÊÏ :
 Á Ñ Ï Ó :
Ì Å Ô ÑÁ :
MO.74
ËÁÓÔÉ×Ï ÓÔÅÃÁÍÙÓÇÓ ÁÍÏÉÃÏÌÅÍÙÍ�ALUSEAL�
Ð Å Ñ É Ã ÑÁ Ö Ç :
Ð Å Ñ É Ã ÑÁ Ö Ç :
Ð Å Ñ É Ã ÑÁ Ö Ç :
ÕË É ÊÏ :
ÕË É ÊÏ :
ÕË É ÊÏ :
 Á Ñ Ï Ó :
 Á Ñ Ï Ó :
 Á Ñ Ï Ó :
Ì Å Ô ÑÁ :
Ì Å Ô ÑÁ :
Ì Å Ô ÑÁ :
MO.68.03
MO.69
MO.62
ËÁÓÔÉ×Ï ÔÆÁÌÉÏÕ 3 ÷éë.
ËÁÓÔÉ×Ï ÔÆÁÌÉÏÕ 5 ÷éë.
ÓÔÅÃÁÍÙÔÉÊÏ ËÁÓÔÉ×Ï ÊÁÓÁÓÁÍÏÉÃÏÌÅÍÙÍ
E Î Á Ñ Ô Ç Ì Á Ô Á - A C C E S S O R I E SM 9 3 0 0 “ P e r f e c t P l u s ”
STATICSSTATICS
M 9300STATICS
Mom
en
tofIn
erti
a
abou
tN
eu
tralA
xis
Mom
en
tof
Resis
tan
ce
Dis
tan
ce
from
Cen
troid
Dis
tan
ce
from
Cen
troid
Mom
en
tofIn
erti
a
abou
tN
eu
tralA
xis
Mom
en
tof
Resis
tan
ce
Dis
tan
ce
from
Cen
troid
Dis
tan
ce
from
Cen
troid
Area
Profile Ix Wx ey1 ex2 Jy Wy ex1 ey2 A
(cm4) (cm3) (cm) (cm) (cm4) (cm3) (cm) (cm) (cm2)
M 216 3,84 7,53 2,29 0,51 0,26 0,1 0,89 2,71 1,29
M 6000 7,38 1,77 2,99 4,18 5,18 2,29 1,77 2,26 1,86
M 6001 0,17 0,21 0,75 0,82 0,1 0,11 0,57 0,88 0,55
M 6023 35,46 32,24 5,34 1,1 3,05 0,58 1,1 5,23 3,29
M 9029 1,51 1,16 1,51 1,3 1,51 0,82 1,3 1,85 1,56
M 9058 10,91 10,7 3,08 1,02 1,69 0,46 1,01 3,7 2,57
M 9130 26,77 4,56 2,94 5,87 88,42 27,12 5,67 3,26 6,04
M 9132 118,92 22,48 5,00 5,29 146,19 29,24 6,26 5,00 9,44
M 9300 4,16 2,16 1,91 1,93 7,72 2,46 2,58 3,14 2,77
M 9303 142,73 65,47 6,64 2,18 23,14 2,87 2,32 8,06 6,82
M 9305 6,25 3,63 3,39 1,72 8,13 2,40 2,78 3,39 3,48
M 9307 41,8 22,47 5,6 1,86 14,27 2,55 2,64 5,6 4,68
M 9308 18,36 9,23 4,44 1,99 12,39 2,79 2,51 4,44 4,32
M 9309 1,48 0,72 0,96 2,06 5,35 2,57 3,34 2,08 1,79
M 9310 9,16 3,59 2,25 2,55 15,74 4,70 3,35 3,35 3,74
M 9311 0,88 0,53 1,63 1,67 1,19 1,23 1,27 0,97 1,28
M 9312 0,65 0,55 1,43 1,18 0,33 0,29 0,74 1,15 0,96
M 9313 0,42 0,55 0,96 0,76 0,23 0,14 0,49 1,68 0,65
Ñï
ðÞ
ÁäñÜ
íåéá
òù
òð
ñï
òê
.â.
Üîï
íáx
Ñï
ðÞ
áíô
ßóôá
óç
ò
Áð
üó
ôáó
çá
ðï
ôïí
ê.â
.Ü
îïíá
y
Áð
üó
ôáó
çá
ðï
ôïí
ê.â
.Ü
îïíá
x
Ñï
ðÞ
áíô
ßóôá
óç
ò
Áð
üó
ôáó
çá
ðï
ôïí
ê.â
.Ü
îïíá
y
Åð
éöÜ
íåéá
Áð
üó
ôáó
çá
ðï
ôïí
ê.â
.Ü
îïíá
x
Ñï
ðÞ
ÁäñÜ
íåéá
òù
òð
ñï
òê
.â.
Üîï
íáx
Table 1.1 Statical Information
Ðßíáêáò 1.1 ÓôáôéêÝò Ðëçñïöïñßåò
ey1
ex1ex2
ey2
Jy
Ix
ÄéáôïìÞ
STATICS49 M 9300 “Perfect plus”
Mom
en
tofIn
ert
ia
abou
tN
eu
tralA
xis
Mom
en
tof
Resi
stan
ce
Dis
tan
cefr
om
Cen
troid
Dis
tan
cefr
om
Cen
troid
Mom
en
tofIn
ert
ia
abou
tN
eu
tralA
xis
Mom
en
tof
Resi
stan
ce
Dis
tan
cefr
om
Cen
troid
Dis
tan
cefr
om
Cen
troid
Are
a
Profile Ix Wx ey1 ex2 Jy Wy ex1 ey2 A
(cm4) (cm3) (cm) (cm) (cm4) (cm3) (cm) (cm) (cm2)
M 9314 1,17 0,44 1,78 2,64 2,16 2,35 1,56 0,92 1,44
M 9316 0,07 0,07 0,19 0,97 0,18 0,75 0,97 0,24 0,54
M 9317 0,11 0,09 0,82 1,17 0,3 0,41 0,93 0,74 0,67
M 9319 0,9 0,66 1,78 1,36 0,55 0,35 0,93 1,57 1,22
M 9320 5,74 2,48 2,05 2,31 11,93 9,62 3,01 1,24 3,21
M 9321 11,76 4,37 4,07 2,69 15,56 4,48 2,70 3,47 3,8
M 9322 1,62 0,59 2,03 2,76 3,28 3,15 1,74 1,04 1,77
M 9325 0,91 0,55 0,83 1,66 3,39 1,53 2,84 2,21 1,48
M 9331 0,53 0,33 1,09 1,61 1,4 1,08 2,28 1,3 1,36
M 9332 0,68 1,26 1,65 0,54 0,12 0,09 0,74 1,4 0,82
M 9333 5,28 4,67 3,02 1,13 0,51 0,18 1,15 2,87 1,91
M 9334 13,57 6,72 3,5 2,02 8,26 2,36 1,9 3,5 3,33
M 9335 0,28 0,16 0,78 1,8 1,49 2,44 1,8 0,61 1,19
M 9336 2,69 2,34 2,35 1,15 0,55 0,23 1,15 2,35 1,29
M 9337 0,26 0,13 0,65 1,95 1,49 1,94 1,95 0,77 0,91
M 9338 9,68 7,81 3,39 1,24 1,6 0,35 1,24 4,61 1,93
M 9339 12,64 2,29 2,22 5,52 103,54 36,85 6,49 2,81 6,73
M 9341 25,52 17,6 4,11 1,45 2,13 0,46 1,45 4,59 3,39
Table 1.1 Statical Information
Ðßíáêáò 1.1 ÓôáôéêÝò Ðëçñïöïñßåò
Ñï
ðÞ
Áäñ
Üíå
éáò
ùò
ðñï
òê
.â.
Üîï
íáx
Ñï
ðÞ
áíô
ßóôá
óç
ò
Áð
üó
ôáó
çá
ðï
ôïí
ê.â
.Ü
îïíá
y
Áð
üó
ôáó
çá
ðï
ôïí
ê.â
.Ü
îïíá
x
Ñï
ðÞ
áíô
ßóôá
óç
ò
Áð
üó
ôáó
çá
ðï
ôïí
ê.â
.Ü
îïíá
y
Åð
éöÜ
íåéá
Áð
üó
ôáó
çá
ðï
ôïí
ê.â
.Ü
îïíá
x
Ñï
ðÞ
Áäñ
Üíå
éáò
ùò
ðñï
òê
.â.
Üîï
íáx
ÄéáôïìÞ
ey1
ex1ex2
ey2
Jy
Ix
STATICS 50M 9300 “Perfect plus”
Table 1.1 Statical Information
Ðßíáêáò 1.1 ÓôáôéêÝò Ðëçñïöïñßåò
ey1
ex1ex2
ey2
Jy
Ix
STATICS51 M 9300 “Perfect plus”
Mom
en
tofIn
ert
ia
abou
tN
eu
tralA
xis
Mom
en
tof
Resi
stan
ce
Dis
tan
cefr
om
Cen
troid
Dis
tan
cefr
om
Cen
troid
Mom
en
tofIn
ert
ia
abou
tN
eu
tralA
xis
Mom
en
tof
Resi
stan
ce
Dis
tan
cefr
om
Cen
troid
Dis
tan
cefr
om
Cen
troid
Are
a
Profile Ix Wx ey1 ex2 Jy Wy ex1 ey2 A
(cm4) (cm3) (cm) (cm) (cm4) (cm3) (cm) (cm) (cm2)
M 9342 15,45 19,31 4,17 0,8 1,19 0,21 1,67 5,78 2,09
M 9343 8,06 8,48 3,05 0,95 0,47 0,13 0,64 3,53 1,92
M 9347 0,64 0,19 8,94 3,35 9,71 6,15 3,55 1,58 2,27
M 9346 0,08 0,05 0,63 1,46 1,93 5,22 2,48 0,37 1,42
M 9348 5,01 4,86 3,5 1,03 0,64 0,27 1,39 2,36 1,2
M 9350 5,92 3,04 2,18 1,95 8,26 2,42 2,55 3,41 2,91
M 9351 0,03 0,04 0,34 0,84 0,68 5,67 0,84 0,12 0,26
M 9356 25,79 20,80 4,67 1,24 1,25 0,20 1,24 6,32 2,72
M 9357 4,10 3,31 2,21 1,24 0,63 0,17 1,24 3,76 1,42
M 9358 39,48 78,96 6,10 0,50 0,53 0,08 0,50 6,34 2,96
M 9359 17,62 1,89 2,34 9,30 281,87 86,73 8,70 3,25 8,03
M 9360 15,65 5,25 4,25 2,98 20,13 5,31 2,92 3,79 4,21
M 9372 9,87 3,89 3,69 2,54 10,38 3,69 1,96 2,81 3,49
M 9375 14,48 5,17 2,80 2,80 14,48 4,99 2,90 2,90 3,09
M 9376 3,56 1,53 2,57 2,33 6,29 4,03 2,98 1,56 2,2
M 9379 11,21 2,10 1,88 5,33 78,36 33,20 6,43 2,36 5,35
M 9380 7,62 1,92 1,87 3,96 16,1 4,33 3,28 3,72 3,83
M 9381 0,88 0,15 7,59 5,88 50,38 8,82 5,88 5,71 3,83
M 9390 7,38 3,31 2,13 2,23 8,73 3,01 2,23 2,9 3,12
Ñï
ðÞ
ÁäñÜ
íåéá
òù
òð
ñï
òê
.â.
Üîï
íáx
Ñï
ðÞ
áíô
ßóôá
óç
ò
Áð
üó
ôáó
çá
ðï
ôïí
ê.â
.Ü
îïíá
y
Áð
üó
ôáó
çá
ðï
ôïí
ê.â
.Ü
îïíá
x
Ñï
ðÞ
áíô
ßóôá
óç
ò
Áð
üó
ôáó
çá
ðï
ôïí
ê.â
.Ü
îïíá
y
Åð
éöÜ
íåéá
Áð
üó
ôáó
çá
ðï
ôïí
ê.â
.Ü
îïíá
x
Ñï
ðÞ
ÁäñÜ
íåéá
òù
òð
ñï
òê
.â.
Üîï
íáx
ÄéáôïìÞ
Table 1.1 Statical Information
Ðßíáêáò 1.1 ÓôáôéêÝò Ðëçñïöïñßåò
ey1
ex1ex2
ey2
Jy
Ix
STATICS 52M 9300 “Perfect plus”
Mom
en
tofIn
erti
a
abou
tN
eu
tralA
xis
Mom
en
tof
Resis
tan
ce
Dis
tan
ce
from
Cen
troid
Dis
tan
ce
from
Cen
troid
Mom
en
tofIn
erti
a
abou
tN
eu
tralA
xis
Mom
en
tof
Resis
tan
ce
Dis
tan
ce
from
Cen
troid
Dis
tan
ce
from
Cen
troid
Area
Profile Ix Wx ey1 ex2 Jy Wy ex1 ey2 A
(cm4) (cm3) (cm) (cm) (cm4) (cm3) (cm) (cm) (cm2)
M 9397 9,64 4,68 3,39 2,06 10,52 3,74 2,44 2,81 3,47
M 9398 1,61 0,85 2,12 1,9 4,77 2,51 2,3 1,9 2,23
M 9399 46,83 24,39 5 1,92 11,58 2,32 1,98 5 4,59
M 9427 0,57 0,16 1,73 2,26 6,48 6,42 3,64 1,01 1,64
M 9501 7,36 2,72 3,43 2,71 12,63 3,58 2,49 3,53 3,57
M 9502 11,51 4,36 3,85 2,64 14,65 3,73 2,56 3,93 3,93
M 9503 24,31 9,69 4,69 2,51 19,31 4,12 2,69 4,69 4,88
M 9504 6,51 3,60 3,49 1,81 9,18 2,63 3,01 3,49 3,44
M 9505 13,29 5,11 3,94 2,6 15,05 3,92 2,6 3,84 3,98
M 9506 0,86 0,20 1,03 4,23 17,32 11,78 4,17 1,47 2,37
M 9510 10,4 4,02 2,48 2,59 16,4 4,75 3,3 3,45 3,73
M 9514 7,72 2,26 3,48 3,41 14,75 4,24 2,69 3,48 3,85
M 9515 14,67 4,46 4,06 3,29 17,52 4,71 2,78 3,72 4,16
M 9523 7,16 2,55 3,36 2,81 8,4 2,33 1,69 3,6 3,28
M 9527 28,6 9,17 4,88 3,12 17,53 3,53 2,08 4,97 4,59
M 9570 8,52 3,33 3,53 2,56 9,66 3,27 1,94 2,95 3,25
M 9571 8,86 3,99 2,27 2,22 9,57 3,47 2,23 2,76 3,45
M 11116 0,28 0,38 0,99 0,74 0,14 0,13 0,76 1,07 0,68
T 35 18,94 5,41 3,5 3,5 18,94 5,41 3,5 3,5 3,24
Ñï
ðÞ
Áäñ
Üíå
éáò
ùò
ðñï
òê
.â.
Üîï
íáx
Ñï
ðÞ
áíô
ßóôá
óç
ò
Áð
üó
ôáó
çá
ðï
ôïí
ê.â
.Ü
îïíá
y
Áð
üó
ôáó
çá
ðï
ôïí
ê.â
.Ü
îïíá
x
Ñï
ðÞ
áíô
ßóôá
óç
ò
Áð
üó
ôáó
çá
ðï
ôïí
ê.â
.Ü
îïíá
y
Åð
éöÜ
íåéá
Áð
üó
ôáó
çá
ðï
ôïí
ê.â
.Ü
îïíá
x
Ñï
ðÞ
Áäñ
Üíå
éáò
ùò
ðñï
òê
.â.
Üîï
íáx