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- , , . - , - . . - .
RUS
. - . .
. . . .
-, . . .
RUS
, .
. 8 . K art EXTeRUS / K2O SwingLife wood
RUS
, , . .
, , - .
, .
, .
, , - , .
www.k-group.com
RUS
EXTeRUS -
PAT-PENDING
7
LAPI.............................................................................................8
IFT................................................................................................9
UL ..............................................................................................10
KRONA KOBLENZ CUAP 04.05/12 (EN 1935). - - CE.
770
1540
463
,
,
KUBICA K6300 - K6700
8
KUBICA K6300 K6700 . , , K6300 K6700 UNIEN 1634-2, , , . K6300 K6700 , , , -, . LAPI WARRINGTON FIRE, , - . 3 :: . : : .
KUBI7 K7080 - K7120
9
# K7080 K7120 KUBI7 . % EN1935:2002 CUAP 04.05/12v. 2006. # , .& IFT Rosenheim. , . ?1) * :
a) * : , ( K7080 160 .) + 2 20 93 .b) * : ( K7080 240 .) % 2 20 93 .
2) * : , , 200.000 -.
3) * : & .
?
EN 1935:2002 e CUAP 04.05/12 2006 : K7080; : : , - .!: 200.000 .# : 80 .: 30.&: . : + , - : & 240 .& .': .
KUBICA K6200KUBI7 K7000 - K7080 - K7120
10
11
PAT-PENDING
13
K Art 40-80 / 120 .............................................................15
K Art 80 / 120 + 1760* ...........................................................27
K Art 40-80 / 120 + 0600* ...........................................................37
K Art 40-80 / 120
15
K Art 40-80 / 120
!
K Art 40/80
K Art 40/80 ABS
K Art 40/80 ABS
K Art 40/80 ABS
K Art 120
1-2
1-2
1-2
1-2
1-2
16
18
20
22
24
40/80
40/80
40/80
40/80
120
K Art 40/80
K Art 40/80 ABS
KART 1
K Art 40/80 ABS KART 1 ABS
K Art 40/80 ABS
K Art 40/80 ABS
KART 3 256
K Art 120KART 2
= , .> K art ? ?: - . K art, : , .#: K art 3- , 40 , 80 120 .40/80 : = 40 80 : 40 80 . 2- - Derlin, .120 : + 120 , 4- , 4 - .% . .> 2- (+/-2 ). + .ABS: > K art ABS: ? ?. , , ABS , -.K art : ( . 1760), 0600; - ABS.
. KART 51% K Art 40 . 2
. KART 55> M8x35 . 2
. 7550 13 NS. 2
= . 1
K Art (40 ) . KART 1 . 6. KART 1 300 . 3% K Art 40/80
. 0500/4?
16
40/80
. KART 40
K Art (80 )
. KART 80. KART 52% K Art 80 . 2
. KART 55> M8x35 . 2
. 7550 13 NS. 2
= . 1
K Art 40/80
+2 -2
+5-5
7
20
Hup
= Hp
+ 3
7
4.5
32
HS =
Hp
+ 66
.5
Sp
= =
29.5
10Hp
27
+5-5
+2 -2
Hup
= Hp
+ 3
713
Sp
10
32
7
20
HF =
Hp
+ 79
.5
= =
Hp23
29.5
27
53
Hp
3000 (6000)
MAX 400
5
5
3
102 (MIN.)
21.5
4
Lp
HF =
Hp
+ 79
.5
29.5
145 92
93 306
22
;
Lp= W Hp= + Sp= % HF = + HS = Hup= & P.S. : 35 , .
;
17
Pat-Pending
40/80
18
. KART 51% K Art 40 . 2
. KART 55> M8x35 . 2
. 7550 13 NS. 2
. 0860 7ABS 40 . 2
. 0860 9. 1
= . 1
K Art (40 ) . KART 1 ABS . 6. KART 1 300 ABS . 3% K Art 40/80 ABS
. KART 8? 40/80
. KART 6 . 3 ()
. KART 40 ABS
K Art (80 )
. KART 80 ABS. KART 52% K Art 80 . 2
. KART 55> M8x35 . 2
. 7550 13 NS. 2
. 0860 8ABS 80 . 2
. 0860 9. 1
= . 1
K Art 40/80 ABSPat-Pending
53139
4
21.5
30
3000 (6000)
HF2
= H
p +
83.5
Hp Lp
102 (MIN.) 6
92
D1 = (Lp/2) -139 224
= =
93 306
22
HS2
= H
p +
67
51
4.5
7
Hup
= Hp
+ 3
7
204 31
3010
Hp27
35 16
+5-5
-2 +2
20
7
Sp
35
51
HF2
= H
p +
83.5
Hup
= Hp
+ 3
7
3010
Hp27
30
45
= =
4 31
> ABS: ?
> ABS: ?
Lp= W Hp= + Sp= % D1= = ABS ( , )HF2= + HS2= + Hup= & P.S. : 35 , .
19
40/80
20
. KART 51% K Art 40 . 2
. KART 55> M8x35 . 2
. 7550 13 NS. 2
. 0860 7ABS 40 . 2
. 0860 9. 1
= . 1
K Art (40 ) . KART 3 256 . 2,56. KART 3 300 . 3 40/80
. KART 5 . 3&
. KART 6 . 3 ()
. KART 9 . 3&
. KART 40 ABS
K Art (80 )
. KART 80 ABS. KART 52% K Art 80 . 2
. KART 55> M8x35 . 2
. 7550 13 NS. 2
. 0860 8ABS 80 . 2
. 0860 9. 1
= . 1
K Art 40/80 ABSPat-Pending
615
139
53
92
8
4
21.5
52
Hp
HF1
= Hp
+ 7
5.5
Lp
109 (MIN.) 6
52316 (307)
= =
33 2000 (2560)
D1 = (Lp/2) -139 224 8 8
22
87
6
8
61
24.6
59
3.452
27
HS1=
Hp
+ 89
7
Hup
= Hp
+ 3
72
2011.5 314
5210
Hp27
2 261
2635
-2 +2
+5-5
50
20
8
HF1
= Hp
+ 7
5.5
7
Sp
63
35
Hup
= Hp
+ 3
7
8
4 31
= =
5210
Hp27
51 210
C ABS
C ABS
= 8, >= 50
C ABS
Lp= W Hp= + Sp= % D1= = ABS ( , )HF1= + HS1= + Hup= & P.S. : 35 , .
21
40/80
22
. 2& > ABS 40
. KART 51% K Art 40 . 2
. KART 55> M8x35 . 2
. 7550 13 NS ABS 80
. KART 52% K Art 80 . 2
. KART 55> M8x35 . 2
. 7550 13 NS. 2
. 0860 7ABS 40 . 2
. 0860 9. 1
= . 1
. KART 14>. 2
. 0860 8ABS 80 . 2
. 0860 9. 1
= . 1
K Art 40/80 ABSPat-Pending
615
13953
92
8
4
21.5
52
Hp
HF1
= Hp
+ 7
5.5
Lp
109 (MIN.) 6
52316 (307)
= =
33 2000 (2560)
D1 = (Lp/2) -139 224 8 8
22
87
6
8
61
24.6
59
3.452
27
HS1=
Hp
+ 89
7
Hup
= Hp
+ 3
72
2011.5 314
5210
Hp27
2 261
2635
-2 +2
+5-5
50
20
8
HF1
= Hp
+ 7
5.5
7
Sp
63
35
Hup
= Hp
+ 3
7
8
4 31
= =
5210
Hp27
51 210
C ABS C ABS
C ABS
= 8, >= 50
Lp= W Hp= + Sp= % D1= = ABS ( , )HF1= + HS1= + Hup= & P.S. : 35 , .
23
120
24
. KART 53% K Art 120 . 2
. KART 55 NR> M8x40 . 2
. 7550 13 NS. 2
= . 1
K Art (120 )
. KART 120
. KART 2 . 6. KART 2 300 . 3% K Art 120
. KART 4? 120
K Art 120
119 (MIN.)
4
21.5
100
3000 (6000)
HF =
Hp
+ 10
0.5
Lp
Hp
43
93 306
3 166
22
66
+2 -2
+5-5
HF =
Hp
+ 10
0.5
10 (max)
16
20
7
43
Sp
Hup
= Hp
+ 3
7
= =
1036
4327
Hp
+5-5
+2 -2
Sp
20
7
43
HS =
Hp
+ 80
Hup
= Hp
+ 3
74.5
= =
4310
Hp27
;
Lp= W Hp= + Sp= % HF = + HS = Hup= & P.S. : 40 , .
;
Pat-Pending
25
K Art 80 / 120 + 1760
27
K Art 80 / 120 + 1760
!
K Art 80 + Sys 1760
K Art 80 ABS + Sys 1760
K Art 80 ABS + Sys 1760
K Art 120 + Sys 1760
1-2
1-2
1-2
1-2
28
30
32
34
80
80
80
120
K Art 80 + Sys 1760KART 1
K Art 80 ABS + Sys 1760 KART 1 ABS
K Art 80 ABS + Sys 1760
KART 3 256
K Art 120 + Sys 1760KART 2
= , .> K art ? ?: - . K art, : , .#: K art 3- , 40 , 80 120 .40/80 : = 40 80 : 40 80 . 2- - Derlin, .120 : + 120 , 4- , 4 - .% . .> 2- (+/-2 ). + .ABS: > K art ABS: ? ?. , , ABS , -.K art : ( . 1760), 0600; - ABS.
80
28
. 1760 54 B . 2
. 1760 3 . 4
. KART 52% K Art 80 . 2
. 7550 12 NS. 2
= . 1
K Art (80 )&
. KART 1 . 6. KART 1 300 . 3% K Art 40/80
. 0500/4?
. 7550 32 NS
K Art 80 + 1760
+3-3
32
7
30
10
Hup
= Hp
+ 2
2
Spv+17
HS =
Hp
+ 51
.5
50
Hp
Spv
1229
.5
29
+3-3
32
50
7
Spv + 17
Hup
= Hp
+ 2
2
Spv
HF =
Hp
+ 64
.5
30
1023
29.5
12Hp
29
50
200
53
92
40
21
LB = 3000 (6000)
5
130Hp
v=Hp
-22.
5
20.5
35
Hp
HF =
Hp
+ 64
.5
21
93 306
30500.1
20.2 +0.1 020.2 +0.1 0
10+0.5 0
95
30
3.5
4
20.5
35
K
Lp= W Hp= + ( )Hpv= + ( )Spv= % 8/10/12 LB= HF= + HS= + Hup= & P.S. : 40 , .
K
Pat-Pending
29
80
30
. 1760 52 B& . 1760 54 B . 4
. 1760 3 . 4
. KART 52% K Art 80 . 2
K Art (80 )&
. KART 1760 80 ABS BR
K Art (80 ).
. KART 1760 80 ABS NS. 1760 52 N& . 1760 54 N . 4
. 1760 3 . 4
. KART 52% K Art 80 . 2
. 7550 12 NS . 2
. 0860 8ABS 80 . 2
. 0860 5. 1
= . 1
. 7550 12 NS . 2
. 0860 8ABS 80 . 2
. 0860 5. 1
= . 1
. KART 1 ABS . 6. KART 1 300 ABS . 3% K Art 40/80 ABS
. KART 6 . 3 ()
. 7550 32 NS
K Art 80 ABS + 1760Pat-Pending
+2-2
Spv+17
HF2
= Hp
+ 6
7.5
10
35
57.5
35
Hup
= Hp
+ 2
1
30
7
30-(Spv/2)
5145
10
Hp11
3030
29
Spv+17 16-(Spv/2)-8.5
16
30
7
16-(Spv/2)Spv
3010
Hp11
30
29HS
2 =
Hp +
51
4.5
51
Hup
= Hp
+ 2
1
30
7
3010
Hp11
35 16
29
5321
130
5
D4 = Lp - 341D3 = 66.5
HF2
= Hp
+ 6
7.5
40
Hp
Lp
LB = 3000 (6000)
35
21
20.5
92
D1 = 64 Hp
v=Hp
-22.
5
93 306 341 D2 = Lp - 338.5LB/2 LB/2
30500.1
10+0.5 0
20.2 +0.1 020.2 +0.1 0
30
95
35
20.5
4
3.5
ABS o :
ABS :
> ABS:
Lp= W Hp= + ( )Hpv= + ( )Spv= % 8/10/12 LB= D1, D2, D3, D4= = ABS ( / )HF2= + HS2= + = Hp+51Hup= & P.S. : 40 , .
31
80
32
. 1760 52 B& . 1760 54 B . 4
. 1760 3 . 4
. KART 52% K Art 80 . 2
K Art (80 )&
. KART 1760 80 ABS BR
K Art (80 ).
. KART 1760 80 ABS NS. 1760 52 N& . 1760 54 N . 4
. 1760 3 . 4
. KART 52% K Art 80 . 2
. 7550 12 NS . 2
. 0860 8ABS 80 . 2
. 0860 5. 1
= . 1
. 7550 12 NS . 2
. 0860 8ABS 80 . 2
. 0860 5. 1
= . 1
. KART 3 256 . 2,56. KART 3 300 . 3 40/80
. KART 5 . 3&
. KART 6 . 3 ()
. 7550 32 NS
K Art 80 ABS + 1760Pat-Pending
HF1
= Hp
+ 6
0.5
26
63
8
Spv+17
30
7
5210
Hp11
26-(Spv/2)Spv
422 19
14.7
7
29
HS1
= Hp
+ 7
3
211.5Hu
p =
Hp +
21
7
30
5210
Hp11
2 2612635
29
61
71
8
5211
24.6
433.
4
87
24
+2-2
Spv+17
63
8
35-(Spv/2)
35
Spv
HF1
= Hp
+ 6
0.5
Hup
= Hp
+ 2
1
30
7
5210
Hp11
51 210
14.7
718
.7
29
35
D4 = Lp - 341D3 = 66.5
5
3
20.5
53
92
Lp
Hpv =
Hp-
22.5
Hp
52
52
3
130
21
40
HF1
= Hp
+ 6
0.5
341 D2 = Lp - 338.5
D1 = 64 224
224
200 350
316 (307)
LT = 2000 (2560)
30500.1
LT/2 LT/2
8 8
10+0.5 0
20.2 +0.1 0
20.2 +0.1 0
30
95
35
20.5
4
3.5
ABS o
= 8, >= 50
C ABS
ABS
= 8, >= 42
C ABS
&
Lp= W Hp= + ( )Hpv= + ( )Spv= % 8/10/12 LT= D1, D2, D3, D4= = ABS ( / )HF1= + HS1= + Hup= & P.S. : 40 , .
33
120
34
. 1760 54 B . 2
. 1760 3 . 4
. KART 53% K Art 120 . 2
. 7550 12 NS. 2
= . 1
K Art (120 )&
. KART 1760 120 BR
K Art (120 ).
. KART 1760 120 NS. 1760 54 N . 2
. 1760 3 . 4
. KART 53% K Art 120 . 2
. 7550 12 NS. 2
= . 1
. KART 2 . 6. KART 2 300 . 3% K Art 120
. KART 4? 120
. 7550 32 NS
K Art 120 + 1760
+3-3
HS =
Hp
+ 65
Hup
= Hp
+ 2
2
50
Spv+17
10
30
7
1243
Spv
Hp
29
+3-3
30
7
Spv + 17
Spv HF
= Hp
+ 8
5.5
Hup
= Hp
+ 2
2
10 (max) 43
50
20.5
1036
4312
Hp
29
Hp
Hpv=
Hp-2
2.5
LB =3000 (6000)
130
5
21
40
HF =
Hp
+ 85
.5
21 20.
5
100
66200 200
50
93 306
30500.1
10+0.5 0
20.2 +0.1 020.2 +0.1 0
30
95
35
20.5
4
3.5
?
Lp= W Hp= + ( )Hpv= + ( )Spv= % 8/10/12 LB= HF= + HS= + Hup= & P.S. : 40 , .
?
Pat-Pending
35
K Art 40-80 / 120 + 0600
37
K Art 40-80 / 120 + 0600
!
K Art 40/80 + Sys 0600
K Art 40/80 ABS + Sys 0600
K Art 40/80 ABS + Sys 0600
K Art 120 + Sys 0600
1-2
1-2
1-2
1-2
38
40
42
44
40/80
40/80
40/80
120
K Art 40/80 + Sys 0600KART 1
K Art 40/80 ABS + Sys 0600 KART 1 ABS
K Art 40/80 ABS + Sys 0600
KART 3 256
K Art 120 + Sys 0600KART 2
= , .> K art ? ?: - . K art, : , .#: K art 3- , 40 , 80 120 .40/80 : = 40 80 : 40 80 . 2- - Derlin, .120 : + 120 , 4- , 4 - .% . .> 2- (+/-2 ). + .ABS: > K art ABS: ? ?. , , ABS , -.K art : ( . 1760), 0600; - ABS.
40/80
38
. 0600/51+ . 2
. 0600/52? . 2
. 0600/54 . 2
. KART 51% K Art 40 . 2
. 7550 13 NS . 2
= . 1
K Art (40 ) . KART 1 . 6. KART 1 300 . 3% K Art 40/80
. 0500/4?
. KART 0600 40
K Art (80 )
. KART 0600 80. 0600/51+ . 2
. 0600/52? . 2
. 0600/54 . 2
. KART 52% K Art 80 . 2
. 7550 13 NS . 2
= . 1
K Art 40/80 + 0600
HF
3000 (6000)
55
3
Hp Lp
21.5
93 306
23 79
22+3.5-3.5
26
34
20
7
HS =
Hp
+ 44
32
4.5
Hup
= Hp
+ 1
4.5
Sp
= =
29.5
8Hp
6.5
= =
+3.5-3.5
26
34
7
20
Sp
HF =
Hp
+ 57
32
13Hu
p =
Hp +
14.
5= =
823
29.5
6.5
Hp
?
Lp= W Hp= + Sp= % HF = + HS = Hup= & P.S. : 40 , .
?
Pat-Pending
39
40/80
40
. 0600/51+ . 2
. 0600/52? . 2
. 0600/54 . 2
. KART 51% K Art 40 . 2
K Art (40 )
. KART 0600 40 ABS
K Art (80 )
. KART 0600 80 ABS. 0600/51+ . 2
. 0600/52? . 2
. 0600/54 . 2
. KART 52% K Art 80 . 2
. 7550 13 NS. 2
. 0860 7ABS 40 . 2
. 0860 5. 1
= . 1
. 7550 13 NS. 2
. 0860 8ABS 80 . 2
. 0860 5. 1
= . 1
. KART 1 ABS . 6. KART 1 300 ABS . 3% K Art 40/80 ABS
. KART 6 . 3 ()
. KART 8? 40/80
K Art 40/80 ABS + 0600Pat-Pending
D2 = (Lp/2) - 139 + Db2
HF2
= Hp
+ 6
5.5
3000 (6000)
30
Lp
Hp
21.5
4
139
92
53
Db2 = 23 (min.)
79= =
93 306
22
+4-4
HF2
= Hp
+ 6
5.5
5145
7
20
Sp
26
34
Hup
= Hp
+ 1
9
3010
Hp9
30
= =
4 31
51
4.5
HS2
= Hp
+ 4
9
Hup
= Hp
+ 1
934
26
20
7
3010
Hp9
35 16
4 31
> ABS:
> ABS:
Lp= W Hp= + Sp= % D2= = ABS ( )Db2= = HF2= + HS2= Hup= & P.S. : 40 , .
41
40/80
42
. 0600/51+ . 2
. 0600/52? . 2
. 0600/54 . 2
. KART 51% K Art 40 . 2
K Art (40 )
. KART 0600 40 ABS
K Art (80 )
. KART 0600 80 ABS. 0600/51+ . 2
. 0600/52? . 2
. 0600/54 . 2
. KART 52% K Art 80 . 2
. 7550 13 NS. 2
. 0860 7ABS 40 . 2
. 0860 5. 1
= . 1
. 7550 13 NS. 2
. 0860 8ABS 80 . 2
. 0860 5. 1
= . 1
. KART 3 256 . 2,56. KART 3 300 . 3 40/80
. KART 5 . 3&
. KART 6 . 3 ()
. KART 9 . 3&
K Art 40/80 ABS + 0600Pat-Pending
139
53
92
3
Lp
Hp
4
3
HF1
= Hp
+ 5
8.5
52316 (307)
Db1 = 30 (min.)
79
2000 (2560)
52
D1 = (Lp/2) - 139 + Db1 224
= =
8 8
7
2026
34Hu
p =
Hp +
19
HS1
= Hp
+ 7
152
2
11.5 314
910
Hp2635
2 261
+4-4
18.7
20
Sp
7
34
HF1
= Hp
+ 5
8.5
26
8673,4
24,6
Hup
= Hp
+ 1
9
= =
51 10 6
5210
Hp9
4 31
> ABS
= 8, >= 50
C ABS
&
Lp= W Hp= + Sp= % D1= = ABS ( )Db1= = HF1= + HS1= Hup= & P.S. : 40 , .
43
120
44
. 0600/51+ . 2
. 0600/52? . 2
. 0600/54 . 2
. KART 53% K Art 120 . 2
. 7550 13 NS . 2
= . 1
K Art (120 )
. KART 0600 120
. KART 2 . 6. KART 2 300 . 3% K Art 120
. KART 4? 120
K Art 120 + 0600
26
34
Sp
20
7
43
HS =
Hp
+ 59
.5
Hup
= Hp
+ 1
6.5
4.5
= =
= =43
10Hp
6.5+3.5
-3.5+3.5-3.5
26
10 (max)
Sp
Hup
= Hp
+ 1
6.5
43
HF =
Hp
+ 80
7
20
34
1036
436.
5Hp
= =
66
HF =
Hp
+ 80
3000 (6000)
79 Lp
Hp
21.5
100
93 306
22
?
Lp= W Hp= + Sp= % HF = + HS = Hup= & P.S. : 40 , .
?
Pat-Pending
45
47
.....................................49
..........................................87
......101
49
!
#
0400/40/80
0450/40/80
0500/50/80/120
NEW 0500/50/80 ABS
0500/20/21/30/31
0550/50/80/120
0560/50/80/120
0600/50/80/120
NEW 0600/50/80 ABS
0600/100
0800/60
0810/100
0830/175
0850/250
2000
0880 1 New Kit Klose
0880 2 New Kit Klose
ABS/40/80
1
1
1
1
1
2
2
1
1
1
1
1
1
1
-
1
1
1/2
50
52
54
56
58
60
62
64
66
68
70
72
74
76
78
80
82
84
40/80
40/80
50/80/120
50/80
50/80
50/80/120
50/80/120
50/80/120
50/80
100
60
100
175
250
-
-
-
40/80
-
0400/400450/400400/1
0400/800450/800400/2
0500/50/80NEW 0500/50/80 ABS0550/50/800560/500600/50/80NEW 0600/50/80 ABS
0500/1
0500/1200550/1200560/800560/1200600/120
0500/10
NEW 0500/50/80 ABSNEW 0600/50/80 ABS0500 0860 600
0830/1750830/1
0850/2500850/1
0810/1000600/1000810/80x400
40/80
50
D .
. 0400/54% . 2
. 0400/53? . 2
. 0400/51 . 2
. 0810/80x800. 2
. 0400/1 . 6. 0400/6 . 3& , 40
. 0400/1G . 6. 0400/6G . 3& , 40
. 0400/5?
0400/40/80
51
GH 0400/40 , Delrin Delrin.
0400/80 , Delrin . !D=OJ .
115
SYS 0400 40 Kg
28
20
23,5
7
-1 +1
SYS 0400 80 Kg
28
20
23,5
B
A
7
-1 +1
28
-1 +1
+2,5
23,5
20
-2,5
7
SYS 0400 ECO 40 Kg
A25,7526,75
B48
49,25
SYSTEM0400/400400/80
. 0450/3. 0450/51= . 2
. 0810/80x800. 2
0450/40 (40 )
. 0450/4. 0450/52= . 2
. 0810/80x800. 2
0450/80 (80 )
. 0400/1 . 6. 0400/6 . 3& , 40
. 0400/1G . 6. 0400/6G . 3& , 40
. 0400/2 . 6. 0400/7 . 3& , 80
. 0400/2G . 6. 0400/7G . 3& , 80
. 0400/5?
. 0400/5?
= . 1 = . 1
D 40/80
52
D .
0450/40/80
53
120
28
21
10
7 20
7
A
2,5 mm
+
-
B
25
A25,7526,75
B48
49,25
SYSTEM0450/400450/80
GH . OD' + 40/80 .
P 50/80/120
54
D .
. 0500/2. 0500/51% . 2
. 0500/55? . 2
. 0500/54 . 2
. 0810/80x800. 2
W . 1
= . 1
0500/50 (50 )
. 0500/3. 0500/52% . 2
. 0500/55? . 2
. 0500/54 . 2
. 0810/80x800. 2
W . 1
0500/80/120 (80/120 ) 0500/120 (120 )
= . 1
. 0500/1. 0500/140. 0500/160. 0500/180. 0500/200. 0500/220. 0500/240. 0500/300. 0500/400&
. 6. 1,4. 1,6. 1,8. 2. 2,2. 2,4. 3. 4
. 0500/4?
. 0500/10 . 6. 0500/10/300 . 3&
. 0500/5?
0500/50/80 (50/80 )
. 0500 2 0860&
. 0500 3 0860&
05
00/
50/8
0/12
0
0500/50/80/120
55
7
A
24
C
D
B
20
3 mm
+
-
A3232
B25,525,5
SYSTEM0500/500500/80
C29,529,5
D52,552,5
33 280500/120 32 56
GH + , . !D=OJ .
P 50/80
56
. 0500/51% . 2
. 0500/55? . 2
. 0810/80x800. 2
. 0860 7ABS 40 . 2
. 0860 9. 1
= . 1
NEW 0500/50 ABS (50 ) . 0500 0860 600 . 6. 0500 0860 300 . 3. 0500 0860 200 . 2& ABS, 50/80
. KART 8? 40/80
. KART 6 . 3> ABS
. 0500 50 0860
NEW 0500/80 ABS (80 )
. 0500 80 0860. 0500/52% . 2
. 0500/55? . 2
. 0810/80x800. 2
. 0860 8ABS 80 . 2
. 0860 9. 1
= . 1
NEW 0500/50/80 ABS
57
51
720
35
40
4.5
Hup
= Hp
+ 3
3
HS =
Hp
+ 63
8
35 16
30Hp
25
= =
4 31
7
35
40
20
Hup
= Hp
+ 3
3 HF =
Hp
+ 79
.5
308
Hp25
30
= =
4 31+4-4
16.5
35
45
Sp
51
7
20
Hup
= Hp
+ 3
3
HF =
Hp
+ 79
.5
= =
308
Hp25
30
4 31
70
50
13993 (MIN.)
Lp
Hp
4
HF =
Hp
+ 79
.5
40
2 56
D1 = (Lp/2) - 139 224
3000 (6000)
= =
93 306
24
GH + , . !D=OJ . &, .
50/80
58
. 0500/21 50
. 0500/55? . 2
W . 1
= . 1
. 0500/20 50
. 0500 20 0880 50
. 0500/51% . 2
& Klose
. 0500/20 + . 0880 1
. 0500 21 0880 50 & Klose
. 0500/21 + . 0880 1
. 0500 20 0860&
. 0500 21 0860&
. 0500 30 0880 80 & Klose
. 0500/30 + . 0880 1
. 0500 31 0880 80 & Klose
. 0500/31 + . 0880 1
. 0500/55? . 2
. 0500/54 . 2
. 0810/80x800 . 2
W . 1
= . 1
. 0500/40 &
. 0500/41 &
, . 2 > , . 2
. 0500/8 . 1&
. 0500/200N . 2]
. 0500/6 . 2& ,
. 0500/54 . 2
. 0810/80x800 . 2
. 0500/7.1 . 2,25
. 0500/8 . 1&
. 0500/200N . 2]
. 0500/6 . 2& ,
. 0500/31 80
. 0500/52% . 2
. 0500/55? . 2
W . 1
= . 1
. 0500/30 80
. 0500/51% . 2
. 0500/55? . 2
. 0500/54 . 2
. 0810/80x800 . 2
W . 1
= . 1
, . 2 > , . 2
. 0500/8 . 1&
. 0500/200N . 2]
. 0500/6 . 2& ,
. 0500/54 . 2
. 0810/80x800 . 2
. 0500/7.1 . 2,25
. 0500/8 . 1&
. 0500/200N . 2]
. 0500/6 . 2& ,
. 0500/52% . 2
05
00/
20/2
1/30
/31
0500/20/21/30/31
59
70
90
10 40
H
53
20
7
20
3 mm +
-
GH
D
50/80/120
60
. 0500/51% . 4
. 0500/55? . 4
. 0500/54 . 4
. 0810/80x800. 2
W . 1
= . 1
0550/50 (50 )
. 0550/53& . 2
. 0550/51? . 2
. 0550/52% . 1
m 8
. 0500/1. 0500/300& , 50/80
. 6. 3
. 0500/4? 50/80
. 0550/1. 0500/52% . 4
. 0500/55? . 4
. 0500/54 . 4
. 0810/80x800. 2
0550/80/120 (80/120 )
. 0550/53& . 2
. 0550/51? . 2
. 0550/52% . 1
m 8
. 0500/10. 0500/10/300& , 120
. 6. 3
. 0500/5? 120
. 0550/2
W . 1
= . 1
0550/50/80 (50/80 ) 0550/120 (120 )
05
50/5
0/80
/120
0550/50/80/120
61
244
5840
Hp
Lp
56 70102
32
20
12.5
6 3
64 MIN. 200 - MAX. 350
MIN. 100MIN. 150
+2-2
= =25
16.5
203
Hup
Sp
*7*
20
7
Hp*2
3*32
24
33
14
+2-2
== 25
16
2329
.53
*23*
32
*7*
Hp
Hup
Sp
13
4
14
5.5
2440M5
21.5
8 16.5
35.
5
1323
21.5
M540
168
GH
D 50/80/120
62
D .
. 0500/51% . 4
. 0500/55? . 4
. 0560/1 . 4
. 7550/13 NS. 2
0560/50 (50 )
. 0560/2? . 1
. 0560/3; . 1
. 0560/4& . 1
. 0560/20
. 0560/5? . 1
. 2000/51
05
60/5
0/80
/120
0560/50/80/120
63
GH . OD' 50/80/120 . !D> 40 50 . JQ> + , . !D=OJ .
D 50/80/120
64
D .
. 0500/51% . 2
. 0600/51+ . 2
. 0600/52? . 2
. 0810/80x800. 2
0600/50 (50 )
0600/50/80 (50/80 )
. 0600/54 . 2
. 0500/1. 0500/300& , 50/80
. 6. 3
. 0600/50
= profili . 1
. 0500/52% . 2
. 0600/51+ . 2
. 0600/52? . 2
. 0810/80x800. 2
0600/80/120 (80/120 )
0600/120 (120 )
. 0600/54 . 2
. 0500/10. 0500/10/300& , 120
. 6. 3
. 0600/80
= profili . 1
W . 1 W . 1
06
00/
50/8
0/12
0
0600/50/80/120
65
34
6,5
B
20
7
26
A
3,5 mm
+
-
A3232
B29,529,5
SYSTEM0600/400600/80
33 320600/120
GH . OD' 50/80/120 . !D> . JQ> + , . !D=OJ .
D 50/80
66
. 0500/51% . 2
. 0600/51+ . 2
. 0600/53? . 2
. 0810/80x800. 2
NEW 0600/50 ABS (50 )
. 0600/54 . 2
. 0860 7ABS 40 . 2
. 0860 5. 1
. 0600 50 0860
= profili . 1
. 0500/52% . 2
. 0600/51+ . 2
. 0600/53? . 2
. 0810/80x800. 2
NEW 0600/80 ABS (80 )
. 0600/54 . 2
. 0600 80 0860
= profili . 1
W . 1 W . 1
. 0860 8ABS 80 . 2
. 0860 5. 1
. 0500 0860 600 . 6. 0500 0860 300 . 3. 0500 0860 200 . 2& ABS, 50/80
. KART 8? 40/80
. KART 6 . 3> ABS
NEW 0600/50/80 ABS
67
+4-4
20
Sp
26
34
35
51
HF =
Hp
+ 63
.5
7 Hup
= H
p +
17= =
830
309
Hp
Hup
= Hp
+ 1
7
34
26
HF =
Hp
+ 63
.5
3551
20
7
Sp
= =
830
309
Hp
Sp
Hs =
Hp
+ 47
Hup
= Hp
+ 1
7
51
34
26
20
7
35 16
830
9Hp
21
N.6 4x35 TSP
56
70
Lp
Hp HF =
Hp
+ 63
.5
79
DB =
min
. 14
24
4
40
153306
LB = 6000 (3000)
D1 = (Lp/2) - 139 + DB 224
Lp/2 Lp/2
GH . OD' 50/80 . !D> . JQ> + , . !D=OJ . &, .
D 100
68
D .
. 0810/53% . 2
. 0600/51+ . 2
. 0600/53? . 2
. 0810/80x800. 1
. 0600/54 . 2
. 0810/52. 2
. 0810/80X200. 0810/80X400. 0810/80X900& , 100
. 2. 6. 3
. 0600/500
W . 1
= profili . 1
. 0810/53% . 2
. 0600/51+ . 2
. 0600/53? . 2
. 0810/80x800. 2
. 0600/54 . 2
. 0810/80X200. 0810/80X400. 0810/80X900& , 100
. 2. 6. 3
. 0600/500.1
W . 1
= profili . 1
06
00/
100
0600/100
69
40
34
26
34
20
7
6,53,5 mm
+
-
GH . OD' 100 . !D> . JQ> + , . >DQ>Z % Delrin
. !D=OJ .
D 60
70
D .
. 0800/3. 0800/51% . 2
. 0500/55? . 2
. 0500/54 . 2
. 0810/80x800. 2
W . 1
= . 1
. 0800/1. 0800/2& , 60
. 6. 3
. 0800/5? 60
08
00/
60
0800/60
71
30.5
265
32
7
20
+-
GH + .
= Delrin , .
!D=OJ .
D 100
72
D .
. 0810/80x500. 0810/53% . 2
. 0810/52 . 1
. 0500/55? . 2
. 0810/51 . 2
. 0810/80x800. 1
= . 1
. 0810/80x300. 0810/53% . 2
. 0500/55? . 2
. 0810/51 . 2
. 0810/80x800. 2
= . 1
08
10/1
00
0810/100
73
34
7
34
20
40
min. 26 5 mm
+
-
GH + , . >DQ>Z % Delrin
. !D=OJ .
D 175
74
D .
. 0830/3. 0830/53% . 2
. 0830/52? . 2
. 0830/51 . 2
. 0810/80x800. 2
W . 1
. 0830/1. 0830/2& , 175
. 6. 3
. 0850/5? 175
10x55
08
30/1
75
0830/175
75
53
26
7
40
36
20
45
5 mm
+
-
GH + . >DQ>Z = Delrin ,
. !D=OJ .
D 250
76
D .
. 0850/3. 0850/53% . 2
. 0850/52? . 2
. 0850/51 . 2
. 0810/80x800. 1
W . 1
. 0850/1. 0850/2 , 250
. 6. 3
. 0850/5? 250
14
D
78
. 2000. 2000/51
20
00
2000
79
50
50
7
20
9
7
20
GH 40/45/50 . D>OJ>D + .
80
AB - C
. 0880 1
D
SY
S 0
880
1 N
ew K
it K
lose
82
. 0880 2
2312
SY
S 0
880
2 N
ew K
it K
lose
0880 2 New Kit KlosePatented
83
84
,
40/80 80
40
. 0860 7
ABS (40 )
. 0860 1. 0860 8
ABS (80 )
. 0860 80
. 0860 5. 1
. 0860 6. 1
. 0860 2 . 0860 2
. 0860 1
. 0860 80 + . 0860 6
ABS 40/80
237 mm
265 mm
196 mm
130 mm
min. 60 mm
+/- 4 mm
85
'
'
87
!
0260/50
0290/25
0200/50
0200-5/50
0710/12,5/20/30
0250/50
2
2
2
2
1
2
88
90
92
94
96
98
50
25
50
50
12,5/20/30
50
/
/
/
/
-
/
0200/500200-5/500250/50
0200/2
0710/25/400500/1
0710/600500/10
0260/500290/250260/3
0700/25/40/600710/25/40/600720/25/40/60
0700/13
50
88
. 0260/100& , . 1( 0260/1)
. 0260/56>. 1
. 0260/53 Dx? . 2
. 0260/51+ . 1
. 0260/52. 1
. 0260/53 Sx? . 2
. 0260/51+ . 1
. 0260/52. 1
. 0260/53 Dx? . 2
. 0260/51+ . 1
. 0260/52. 1
. 0260/53 Sx? . 2
. 0260/51+ . 1
. 0260/52
0260/50
89
Patented
GHD & , . =D_= *>D . DJ= & . GHV= > . *&= .
& _+`
90
2/3, 25
. 0260/100& , . 1( 0260/1)
. 0700/17? . 2
. 0290/51
0290/25
91
9
14,5
14,510
86
10
10
6
27
40
204
3
3
14
9
30
14,5
14,510
86
9
3
27
6
204
3
14
30
10
10
40
9
GH . OD' 25 .
, 50
92
. 0200/100& , . 1( 0200/1)
. 0700/17? . 2
. 0200/57 . 1
. 0200/58 . 1
. 0200/59& . 1
. 0250/55>. 1
. 0200/56% . 1
. 0200/1 (. 0200/4 + 0200/100)
0200/50
. 0700/17? . 2
. 0200/57 . 1
. 0200/58 . 1
. 0200/59& . 1
. 0250/55>. 1
. 0200/56% . 1
. 0200/4
& ,
. 0200/100. 0200/2. 0200/3
. 1. 3. 6
0200/50
93
Patented
10 12
68
13
27
10
50 2
47 25
44
40
20
14
14
155
12
47
21,8
2240
13
8
20,5
3
6
27
13
8
10 12
6
10
47
21,8
2240
13
7
20,5
3
50
4725 20
200
2
44 14
1414
40
12
2/3, 50
, 50
GH JQ> & Delrin. !D=
94
. 0200/100& , . 1( 0200/1)
. 0200/57 . 1
. 0200/58 . 1
. 0200/59& . 1
. 0250/55>. 1
. 0200/56% . 1
. 0205/1 (. 0200/5 + 0200/100)
0200-5/50
. 0260/53 DX? . 2
. 0200/57 . 1
. 0200/58 . 1
. 0200/59& . 1
. 0250/55>. 1
. 0200/56% . 1
. 0200/5. 0260/53 DX? . 2
50 .
& ,
. 0200/100. 0200/2. 0200/3
. 1. 3. 6
0200-5/50
95
Patented
10
13
27
86
10
12
47
21,8
2240
13
7
20,5
3
47
14
4,5
50
25
440
20
2155
12
47
21,8
2240
13
20,5
8
27
13
10
106
12
47
440
2520
50 2200
14
4,5
2/3 50
50 .
GH JQ> & Delrin. !D=
, 12,5/20/30
96
. 0700/20. 0700/15
0710/12,5/20/30
97
A-40
30
A
35 S
30 L
3x45
40 40
5 5
1039
26
10
25 13
10
25 8
14
77,5
28
X K
Z Y
J
S
70
13
18 6
2 S B
+4 2 S
S
n3 4.5x20 TSPn16 4x25 TSP
4x20 TSP
X 52,5 52,5 56
J 25,5 25,5 28
Y 32 32 33
K 29,5 29,5 32
Z 32 32 33
SYSTEM 0710/12,5 0710/20 0710/30
A = L - (B x n)
(n + 1)
3
Q min 19,5 max 24 min 24 max 32 min 24 max 32
max Qmin Q
GH . OD' 12,5/20/30 .
50
98
. 0250/51. 0250/52+ . 1
. 0250/56% . 2
. 0250/54+ . 2
. 0250/55>. 1
. 0250/53 . 2
. 0200/100. 0200/2. 0200/3& ,
. 1. 3. 6
0250/50
99
18
20
404/3542
20
20
404/354
14 5 39
46,5
110
6
22
1221,5
2095 40
100 10
870/770
27
10 2072
10
GH . OD' 50 .
101
!
0700/25/40/60
0720/25/40/60
1
1
102
104
25/40/60
25/40/60
-
0700/25/40/600710/25/40/600720/25/40/60
0700/25/40/600710/25/40/600720/25/40/60
0700/13
0500/1
0700/25/40/600720/25/40/600500/10
25/40/60
102
. 0700/20. 0700/15
0700/25/40/60
103
L5
26
39
3
9
B=2
7 18
25
78
70
13
K
ZX
Y
J
102S +4
4x20 TSP
n24 4x25 TSP
n36 4x20 TCn3 4.5x20 TSP
2A
30
S
A
1319
125
20
35
3x45
25
Qmin 19,5 max 24min 24 max 32min 24 max 32
max Q
min Q
8
14X
52,552,556
J323233
Y25,525,528
K323233
Z29,529,532
SYSTEM0700/250700/400700/60
A = L - (B x n) - 44
(n + 0,5)
GH & . !D=
25/40/60
104
. 0700/20. 0700/15
0720/25/40/60
105
9L
5
10
70
7
26
39
3
GH & . !D=
107
D .............................................................109
D .................................129
Darwin,D ABS ...................................................................137
109
0350/15
0310/23/43
0320/25/40/55
0105/60
1010/20 - 1011/20
1010/35 - 1011/40
1030/35 - 1031/40
1040/50/80
1050/50/80
/
/
. 1
. 1
. 1
. 1
. 1
. 1
. 1
. 1
. 1
110
112
114
116
118
120
126
128
130
15
23/43
25/40/60
60
20
35/40
35/40
50/80
50/80
16
16
16
18
20/25
20 25
1932
1932
1932
0105/600110/600120/120
0100/1
0105/600110/600120/120
0100/4
0310/230310/431200/25/40
0310/1
0320/250320/400320/551200/25/501300/25
0320/1
0350/150290/250350/1
1040/50/801050/50/800500/1
0920/501031/20/401040/50/80
0920/1
1010/20/351011/20/401031/20/40
1010/1
1010/20/351011/20/401010/3
1040/50/801050/50/801040/1
D 15
110
* , .
. 0350/4. 0350/51= . 4
. 0350/52 . 4
. 0350/1. 0350/2. 0350/3. 0350/6. 0350/7. 0350/8+
. 2. 3. 4
. 2. 3. 4
. 2. 1000/5
111
0350/15
48 358.5
8
516-20
11
14.5
12
2
2
1+-
GH = , ,
. D>OJ
D , 23/43
112
. 0310/7. 0310/5
113
0310/23/43
53
53
9
8
7
5
13
9
11
5 2+-
GH > 0310/23 , Delrin, .
> 0310/43 , Derlin, . !D=OJ 0310/23= DELRIN
# 43
> 0310/43W
D , 25/40/55
114
. 0320/8. 0320/5+ . 2
. 0320/6 . 1
. 2. 3. 2. 3
. 0320/1. 0320/2. 0320/3. 0320/4
115
0320/25/40/55
30
x 10 mm 8
min.60min.28
10
5
5 3+-
GH > 0320/25 , Derlin .
> 0320/40 0320/55 , Derlin . *&= & + . D>OJ 0320/25= DELRIN
# 40
> 0320/40W
# 55
> 0320/55W
D , 60
116
. 0105/1. 0100/13+ . 2
. 0105/2 . 2
. 0105/3. 0100/8+ . 2
. 0105/2 . 2
. 0100/1A (B). 0100/2A (B). 0100/3A (B)
117
0105/60
53
11
min 44
13
6
20
7
16
2
min 44
5 30
7,5 1+-
GHOJ
D ,
20
118
. 1011/5% 20
. 1011/1= 1 . 4
. 1010/13. 1010/13 . 4
. 1010/1 . 1010/2+
. 6. 3
. 1010/3. 1010/4+
. 6. 3
. 1000/5
. 1010/5. 1010/6+
. 6. 3
. 1010/7. 1010/8+
. 6. 3
. 1020/9
. 3 . 1020/10A(O) ,
. 3 . 1000/5
KIT Art. 0860 11 40KIT Art. 0860 11 80? ABS 40/80
119
1010/20 - 1011/20
24
10
20
11
417
15
10
16
10
16
17 4
11
25 7
12.5 12.532
10
1615 27 10
5
17
11
4
20 7
10 10
7070
24
24
3
==
+-min. 63
32 2+- 32 2+- 32 2+-
GH & , Delrin . 1010/20
Delrin . 1011/20. D>OJ 25
>qw# >+w=_w
D ,
35/40
120
. 1010/1 . 1010/2+
. 6. 3
. 1010/3. 1010/4+
. 6. 3
. 1000/5
121
1010/35 - 1011/40
10 10 10
16 16
5 25
17
12.5 32 12.5
7
17
15 27 10
4
11
4
11
20 7
16
20
17 4
15
11
24
10
45
10 10
24
3
==
7070
24
+-
32 2+- 32 2+- 32 2+-
min. 63
GH & , Delrin . 1010/35
Delrin . 1011/40. D>OJ+w=_w 20
> 25
D , 35/40
122
123
1030/35 - 1031/40
10
24
==
24 24
88
2011
24.5
44
7
25
63.5
100
24.5
9
44
23
63.5
100
24.5
8
44
19
63.5
GH
D ,
50/80
124
. 1040/3+
. 1040/51+ , 50 . 2
. 0920/51(DX). 0920/52(SX) . 2
. 0920/7
125
1040/50/80
8512
7
314
32 7
778
3
314
28 7
715
314
25 7107
681
314
22
20
100
35 358
61
L
42.5
19
3
19
67
7 74 7 74 7 74 7 74 7 74
14
3 3 3 3520
13 3
G=H & ,
. !D=OJ
D ,
50/80
126
. 1050/1. 1040/51+ , 50 . 2
. 1010/13. 1010/13 . 2
1050/50 (50 )
. 1050/2. 1040/52+ , 80 . 2
. 1010/13. 1010/13 . 2
1050/80 (80 ) 1050/50/80
. 1040/1. 1040/2+ 19
. 6. 3
. 0500/1. 0500/300 , 50/80, 22 32
. 6. 3
. 1000/5
127
1050/50/80
11
29.5
532
3
719
39.5
17
512.5
3 14
8.53
8.5
14
34.4
16
5
5
53 53 8
GH & ,
, Delrin. D>OJ
129
!
0910/9
0920/50
2200/40
-
/
/
. 1
. 1
. 2
130
132
134
-
50
40
0920/500910/1
0920/501030/20/351031/20/401040/50/80
0920/1
2200/402200/1
2200/402200/3
2200/402200/5
130
. 0910/9. 0910/91DX (SX)> (). 1+1
. 0910/92= . 1
. 0910/95& . 6
. 0910/93 . 2
. 0910/94y . 1
D A
131
0910/9
35
35
11
Max 2320
Max 2320
12
11
45
45
GH
D ,
50
132
. 0920/5. 0920/53(DX). 0920/54(SX)+ . 1+1
. 0920/6. 0920/57(DX). 0920/58(SX)+ . 1+1
. 0910/1. 0910/10+
. 0920/7
133
0920/50
19-22-25-28-32
71-74-77-80-84
73.5+S+M
75.5+S 75.5+S
73.5+S+M96
96
96
96
63.5
100
7
7
7
17.6
34
34
x 4
8 x 4
8
GH & ,
, Delrin. D>OJ+w=_w
D
40
134
. 2200/12 . 2200/7+ . 1
. 2200/8
135
2200/40
36
190
071831 36
144
3612
7
160
128128
20
6
22.5
35
A
48
36
3.2
7.5
3
D
52
A
22.5 19 15.5
34
12019 / 25
10
B
C
8090
B
C D19
26,5
GH .
Patented
Darwin, ,ABS
137
Darwin, D ,ABS
9500 New Darwin
2300/10
ABS/40/80
138
152
154
ABS
138
New DARWIN ! ! ? . % : 18 30 . + , :
, .
> c . . & : (2 ),
(2 ), (2 ) . + . > .
. 9500 1 560k 560 + 1990-2200 n 3
. 9500 2 560k 560 + 2200-2700 n 5
. 9500 1 665k 665 + 1990-2200 n 3
. 9500 1 700k 700 + 1990-2200 n 3
. 9500 1 765k 765 + 1990-2200 n 3
. 9500 2 665k 665 + 2200-2700 n 5
. 9500 6?+ /
9500 NEW DARWIN. 9500 1 560
Pb 560, Hp 1990-2200 (n 3 )
+2-2
==
1581
8.5136 136 136 136
8.5136 136 136 136
==
6742
0.75
549
420.
7567
19.3522.4
19.3522.4=
=94
094
0
A
A
52
9.5
22.5
35
14
max 30 Kg
55 (Lb) 600
(Pb)
560
2(Lp) 6503
216
126
Sp
Hp3
=67
67=
-3+2
+2-2
55
3
Sp2
=67
67=
Sp33
Hp
+2-2
-3+23
Sp2
55
139
Hp= + (1990-2200)Sp= % (18-30)Lp= W Pb= k Lb= W - # 30 - >
=
+
TSPIC 4x20DIN 7505-A
TSPIC 4x20DIN 7505-A
>
9500 NEW DARWIN. 9500 2 560Pb 560, Hp 2200-2700 (n 5 )
+2-2
==
1781
19.3522.4
19.3522.4
==
8.5136 136 136 136
8.5136 136 136 136
6767
470.
7564
947
0.75
14
==
100
940
100
940
A
A
9.5
52
22.5
35
55 (Lb) 600
(Pb)
560
2(Lp) 6503
126
216
Sp
3Hp
3
=67
67=
+2-2
-3+23
Sp2
55
Sp
=67
=67
33
Hp
+2-2
-3+2
2Sp
3
55
max 50 Kg
Hp= + (2200-2700)Sp= % (18-30)Lp= W Pb= k Lb= W - # 50 - >
=
+
TSPIC 4x20DIN 7505-A
TSPIC 4x20DIN 7505-A
>
140
9500 NEW DARWIN. 9500 1 665
Pb 665, Hp 1990-2200 (n 3 )
+2-21
581
==
19.3627.4
627.4 19.3
8.5162.25 162.25 162.25 162.25
==
6742
0.75
549
420.
7567
8.5162.25 162.25 162.25 162.25
14
A
A
9.5
52
22.5
35
==
940
940
111
126
(Pb)
665
3 (Lp) 6502
(Lb) 60055
==
3Hp
3
Sp
6767
+2-2
+2 -3
2Sp
3
55
Sp
=67
67=
33
Hp
+2 -3
+2-2
55
3
2Sp
max 30 Kg
Hp= + (1990-2200)Sp= % (18-30)Lp= W Pb= k Lb= W - # 30 - >
=
+
TSPIC 4x20DIN 7505-A
TSPIC 4x20DIN 7505-A
>
141
9500 NEW DARWIN. 9500 2 665Pb 665, Hp 2200-2700 (n 5 )
max 50 Kg
+2-2
==
1781
==
19.3627.4
19.3627.4
6767
470.
7564
947
0.75
8.5162.25 162.25 162.25 162.25
8.5162.25 162.25 162.25 162.25
14
A
A
52
9.5
22.5
35
==
100
940
100
940
126
111
(Pb)
665
3 (Lp) 6502
(Lb) 60055
=67
67=
3Hp
3
Sp
+2-2
+2 -3
55
3
Sp2
=
Sp
67=
67
33
Hp
-3+2
+2-2
55
2Sp
3
Hp= + (2200-2700)Sp= % (18-30)Lp= W Pb= k Lb= W - # 50 - >
=
+
TSPIC 4x20DIN 7505-A
TSPIC 4x20DIN 7505-A
>
142
9500 NEW DARWIN. 9500 1 700
Pb 700, Hp 1990-2200 (n 3 )
+2-2
==
1581
8.5171 171 171 171
8.5171 171 171 171
19.3
19.3662.4
==
6742
0.75
549
420.
7567
662.4
max 30 Kg
14
A
A22.5
52
9.5 3
5
940
940
==
3
55
(Lp) 650 2
(Lb) 600
(Pb)
700
76
126
6767
Sp
3Hp
3
==
+2 -3
+2-2
55
3
Sp2
+2-2
+2 -3
Sp2
3
55
Sp
=67
67=
33
Hp
Hp= + (1990-2200)Sp= % (18-30)Lp= W Pb= k Lb= W - # 30 - >
=
+
TSPIC 4x20DIN 7505-A
TSPIC 4x20DIN 7505-A
>
143
9500 NEW DARWIN. 9500 1 765Pb 765, Hp 1990-2200 (n 3 )
max 30 Kg
+2-2
==
1581
727.4
6742
0.75
549
420.
7567
==
727.4 19.3
19.3
187.25187.25187.25187.25 8.5
187.25187.25187.25187.25 8.5
==
940
940
14
A
A
359.5
52
22.5
(Pb)
765
3
55
(Lp) 6502
(Lb) 600
126
11
6767
==
3Hp
3
Sp
+2-2
+2 -3
55
3
Sp 2
Hp3
3
=67
67=
Sp
+2 -3
+2-2
Sp 2
3
55
Hp= + (1990-2200)Sp= % (18-30)Lp= W Pb= k Lb= W - # 30 - >
=
+
TSPIC 4x20DIN 7505-A
TSPIC 4x20DIN 7505-A
>
144
SYSTEM 9500 NEW DARWIN
+2 -3
+2-2
55
2Sp
3
1010
3Hp
3
Sp
=67
67=
183010
64
min. 671
18 3010 64
* 100+0.5 0100
+0.5 0
R6
R6
R6
3
50+0
.5 0
5060
.5+0
.5 0
+2-2
-3 +2 +2 -3
+2-2
107
3
Sp 2
Sp 2
SpSp
12.81
0
12.8
103Hp
3
Sp=25Sp=22
Sp=20
Sp=18
+ ()
cod. 9500 6
(* )
+ ()cod. 9500 6 2S
Sp= . 25
?
&
?
?
&
TSPIC 4x20DIN 7505-A
145
Richiamo anta automatico(optional)
cod. 9500 16
Cod. A
9500 1 560 531
9500 1 665 636
9500 2 560 732
9500 2 665 837
146
New DARWIN ! ! ? . % : 18 30 . + , :
, .
> c . . & : (2 ),
(2 ), (2 ) . + . > . K6100 .
. 9500 1 805k 805 + 1990-2200 n 5
. 9500 2 805k 805 + 2200-2700 n 5
. 9500 1 905k 905 + 1990-2200 n 5
. 9500 2 905k 905 + 2200-2700 n 5
. 9500 1 3 R# + 1990-2200
. 9500 2 3 R# + 2200-2700
. 9500 4+
. 9500 5~
. 9500 5 R~
. 9500 6 D?+ /
9500 NEW DARWIN. 9500 1 805
Pb 805, Hp 1990-2200 (n 5 )
+2-21
581
==
8.5197 197 197 197
8.5197 197 197 197
==
6742
0.75
549
420.
7567
19.3766.4
19.3766.4
90=
==
90
9090
==
=
C
C
A=9 / Sp=18 mmA=10 / Sp>20 mm A 0-1
45+0
.2 0
550
.1
14 +0.2 0
R7
R 5
R 5
R 7
72+0
.2 0
16 +0.2 0
5.5 0-0.2
9090
==
=
==
100
840
840
100
B
B
A=9 / Sp=18 mmA=10 / Sp>20 mm
14 +0.2 0
A 0-1
550
.1
45+0
.2 0
R 5
R 5
R 7
R7
72+0
.2 0
A
A22.5
52
9.535
16 +0.2 0
5.5 0-0.2
14
Lb
3 2.5 2.5Lp Lp
Pb
114
Kubikina K6100
198
1920
SpSp
67=
67=
33
Hp
+2-2
+2 -3
Sp 3
3147
3m
in.18
36114min.18
max 60 Kg
+1.5-1.5
+1 -1
+1.5-1.5
147
Hp= + (1990-2200)Sp= % (18-30)Lp= W Pb= k Lb= W ( 2- )- # 60 - >
= +
>
TSPIC 4x20DIN 7505-A
>
>
> >
>
K6100+
K6100+
K6100+
,
K6100 : 10 .(4 . ,
6 . )
9500 NEW DARWIN. 9500 2 805Pb 805, Hp 2200-2700 (n 5 )
90=
==
90
A
A
52
9.535
16 +0.2 0
5.5 0-0.2B
B
A=9 / Sp=18 mmA=10 / Sp>20 mm
14 +0.2 0
A 0-1
45+0
.2 0
550
.1
R 5
R 5 R 7
R 7
72+0
.2 0=
==
=90
90 ==
100
940
940
100
14
==
==
9090
C
C
A=9 / Sp=18 mmA=10 / Sp>20 mm
550
.1
45+0
.2 0
14 +0.2 0
R7 R5
R5
R7
72+0
.2 016 +0.2 0
5.5 0-0.2
max 60 Kg
+1.5-1.5
+1 -1
+1.5-1.5
+2-2
1781
==
8.5
19.3766.4
19.3766.4
197197 197 197
8.5197 197 197 197
==
6747
0.75
649
470.
7567
+2 -3
+2-2
Sp 3
3147
3m
in. 1
8
36114min. 18
1920
==
6767
Sp Sp
Hp3
3
Kubikina K6100
198
Lb
3 2.5 2.5Lp Lp
Pb
114
Hp= + (2200-2700)Sp= % (18-30)Lp= W Pb= k Lb= W ( 2- )- # 60 - >
= +
>
TSPIC 4x20DIN 7505-A
>
>
> >
>
K6100+
K6100+
K6100+
,
K6100 : 10 .(4 . ,
6 . )
148
9500 NEW DARWIN. 9500 1 905
Pb 905, Hp 1990-2200 (n 5 )
90=
==
90
9090
==
=
C
C
A=9 / Sp=18 mmA=10 / Sp>20 mm
A 0-1
45+0
.2 0
550
.1
14 +0.2 0
R7
R 5
R 5
R 7
72+0
.2 0
16 +0.2 0
5.5 0-0.2
9090
==
=
==
100
840
840
100
B
B
A=9 / Sp=18 mmA=10 / Sp>20 mm
14 +0.2 0
A 0-1
550
.1
45+0
.2 0
R 5
R 5
R 7
R7
72+0
.2 0
A
A22.5
52
9.535
16 +0.2 0
5.5 0-0.2
14
max 60 Kg
+1.5-1.5
+1 -1
+1.5-1.5
+2-21
581
==
19.3866.4
19.3866.4
8.5222 222 222 222
8.5222 222 222 222
==
6742
0.75
549
420.
7567
3 2.5 2.5Lp Lp
Lb
Pb
114
Kubikina K6100
198
1920
SpSp
67=
67=
33
Hp
+2-2
+2 -3
Sp 3
3147
3m
in.18
36114min.18
Hp= + (1990-2200)Sp= % (18-30)Lp= W Pb= k Lb= W ( 2- )- # 60 - >
= +
>
TSPIC 4x20DIN 7505-A
>
>
> >
>
K6100+K6100
+
K6100+
,
K6100 : 10 .(4 . ,
6 . )
149
9500 NEW DARWIN. 9500 2 905Pb 905, Hp 2200-2700 (n 5 )
90=
==
90
A
A
52
9.535
16 +0.2 0
5.5 0-0.2B
B
A=9 / Sp=18 mmA=10 / Sp>20 mm
14 +0.2 0
A 0-1
45+0
.2 0
550
.1
R5
R5
R7
R7
72+0
.2 0=
==
=90
90 ==
100
940
940
100
14
==
==
9090
C
C
A=9 / Sp=18 mmA=10 / Sp>20 mm
550
.1
45+0
.2 0
14 +0.2 0
R7R5
R5
R7
72+0
.2 016 +0.2 0
5.5 0-0.2
max 60 Kg
+1.5-1.5
+1 -1
+1.5-1.5
+2-21
781
==
8.5
8.5222 222 222 222
19.3866.4
19.3866.4
==
6747
0.75
649
470.
7567
222222 222 222
Kubikina K6100
198
114
Pb
LpLp 2.52.53
Lb
1920
==
6767
Sp Sp
Hp3
3
+2 -3
+2-2
Sp 3
3147
3m
in. 1
8
36114min. 18
Hp= + (2200-2700)Sp= % (18-30)Lp= W Pb= k Lb= W ( 2- )- # 60 - >
= +
>
TSPIC 4x20DIN 7505-A
>
>
> >
>
K6100+
K6100+
K6100+
,
K6100 : 10 .(4 . ,
6 . )
150
SYSTEM 9500 NEW DARWIN
35
25
26
==
R4
9
8
15
25
7.5
+2.5-2.5
TSPIC 3.5 DIN 7505-A
+2.5
-2.5
TCIC 3.5 DIN 7505-B
15
4.5
118
19
14R4 R4
54
33.5
23
* 100 +0.5 0 100+0.5 0
64
1030
18
R6
350
+0.5
050
+0.5
0 +0.5 0
60.5
2182
12
10
3
20
~ ()cod. 9500 5 R
# ()
cod. 9500 1 3 R / 9500 2 3 R
~ ()
cod. 9500 5
+ ()
cod. 9500 4
& ()
cod. 9500 6 D
TCIC 4x16>
(* )
=
>
?
&
>
151
D
152
153
32
35
2440
max. 40min. 30
1
3
24
GHOJJ . 2300 10N ( 5 .
2300/10
ABS ,
40/80
154
KIT Art. 0860 11 40? ABS 40
SYSTEM 0860 ABS (40 kg)
KIT Art. 0860 11 80? ABS 80
SYSTEM 0860 ABS (80 kg)
80 kg
40 kg
Art. 0860 7 Art. 0860 8
Art. 0860 11 40
Art. 0860 11 80
SYSTEM ABS 40/80
D
237
min.
30
- MAX
50
9.5
min.
30
- MAX
50
min.
30
- MAX
50
9.5
min.
30
- MAX
50
237
D
TSPIC 4X30 DIN7505-A
TCIC 3.5X20 DIN7505-B
TBIC FLANG. 3.5X10 PLAST.
TBIC FLANG. 3.5X10 PLAST.
+
+
+
+
+
+
+
+ +
+
TBIC FLANG. 3.5X16 PLAST.
#
#
? :TSPIC 4X min.30 DIN7505-ATSPIC 4X min.30 DIN7982-CTSPIT 4X min.30 DIN7972-BTSPIC M4X min.30 DIN965TSPIT M4X min.30 DIN963TSPEI M4X min.30 DIN7991TSPIC M4X min.30 DIN7500-M
? :TCIC 3.5X min.20 DIN7505-BTCIC 3.5X min.20 DIN7981-CTCIT 3.5X min.20 DIN7971-BTCIC M3X min.20 DIN7985TCIT M4X min.20 DIN84-ATCEI M4X min.20 DIN912TCIC M4X min.30 DIN7500-C
155
157
.............159
D ..............163
159
!
1500/15
2
160
15
5/6
1500/151500/1
1500/151500/4
1500/151500/7
,
15
160
. 1500/13. 1500/52= . 4
. 1500/51; . 2
. 1500/1A (O). 1500/2A (O). 1500/3A (O) ()
. 2. 3. 4
. 1500/4A (O). 1500/5A (O). 1500/6A (O) , ()
. 2. 3. 4
. 1500/7A (O). 1500/8A (O). 1500/9A (O)
1500/15
161
19
8.5 55
23.5
4
23.5
4
7.5 66
H
H1
8
1.5 1.5
15
12
7
27.5
15
12
7
27.5
13.5 13.5
13.5 13.5
H1 = H - 27
GH
163
!
1700/50/80/120
1730/50/80/120/175
1730/40/41
1730
1750/50/80/120
1760
1760
NEW 1760/50/80 ABS
. 1
. 1
. 1
. 1
2
. 1
2
. 1
164
166
168
170
172
174
176
178
50/80/120
50/80/120/175
50/80/120
50/80
50/80/120
50/80/120
50/80/120
50/80
1700/50/801730/50/801750/50/80NEW 1760/50/80 ABS
0500/1
1700/1201730/1201730/40/411750/120
0500/10
1730/1000810/80x400
1730/1750830/1
NEW 1760/50/80 ABS0500 0860 600
D
50/80/120
164
. 1700/1. 0500/51% . 2
. 1700/51 . 2
. 7550/12 CP. 2
1700/50
? . 1
& . 1
W . 8-10-12. 2x3
. 1700/2. 0500/52% . 2
. 1700/51 . 2
. 7550/12 CP. 2
1700/80/120
? . 1
& . 1
W . 8-10-12. 2x3
1700/50/80
. 0500/1. 0500/300&
. 6. 3
. 0500/4?
1700/120
. 0500/10. 0500/10/300&
. 6. 3
. 0500/5?
1700/50/80/120
165
Patented
200
84.5
10
20
28 30
8 10 12
35
5,8
35
5,3
33 3
GH ? . !D= , . DJ= = 8 12 . &>'!= . D>OJ , Krona.
D 50/80/120/175
166
. 1730 880
. 7550/12 CP. 2
80-120
. 0500/52% . 2
. 0500/12>. 2
100
. 0810/53% . 2
. 0810/80x600>. 2
175
. 0830/53% . 2
. 0830/4>. 2
. 0500/1. 0500/300& , 50/80
. 6. 3
. 0500/10. 0500/10/300& , 120
. 6. 3
. 0810/80x400. 0810/80x900& , 100
. 6. 3
. 0830/1. 0830/2& , 175
. 6. 3
. 0500/4? 50/80
. 0500/5? 120
. 0810/80x700? 100
. 0850/5? 175
1730/50/80/120/175
. 7550/12 CP
1730/50/80/120/175
167
Lp
Hpv
21
140
200 40130
35
70
1443
.5Hp
5670102
10+0.5
0
+2-2
+2-2
Hup=
Hp+
26
32
70
35
21 4
Spv
43.561
.5
*18*
29.5
*8*
Hp
38
+2.5-2.5
+2.5-2.5
35
33
Spv
Hup=
Hp+
25
21 443
.560.5
70*8
*32
*17*
Hp
GH ? . !D= , . DJ= = 8 12 . &>'!= . D>OJ , Krona.
120
168
. 1730 41
. 1730/1
. 1730/3+
. 0500/9 SX; . 1
. 0500/9 DX; . 1
1730/40/41
. 3. 2560
. 1730/1
. 3
. 1730/2
. 6
. 1730/3+
. 1
. 1
. 1730 40
. 1730 5 256& . 1
+ . 6
. 0500/52% . 2
. 0500/12>. 2
. 1730 5 256& . 1
+ . 6
. 0500/52% . 2
. 0500/12>. 2
. 2560
1730/40/41
169
8865
5,68
23
5,4181
11
24
69,5
60,5
Sp
33
5,835
31
3
GH ? . !D= , . DJ= = 8 12 . &>'!= . D>OJ , Krona.
7x12 .
<
"H"
"H" =
170
. 1730 41 1280 (80 )
1730
. 1730 41 880 1 (50 )
& . 1
. 0500/52% . 2
. 0500/12>. 2
. 0500/51% . 2
. 1730/1 . 1
. 1730/3+ . 1
. 0500/9 SX; . 1
. 0500/9 DX; . 1
. 1760
. 1 . 1
. 1760
. 7550/12 CP. 2
. 1730/1 . 1
. 1730/3+ . 1
. 0500/9 SX; . 1
. 0500/9 DX; . 1
. 2560
. 7550/12 CP
1730
171
70
130
14
40
140
35
60
54
70
874
Min. 7 - Max 13
Lp
GH ? . !D= , ,
, + . DJ= & 560 880 1730 41 880 1,
890 1280 1730 41 1280 1. &>'!= . D>OJ .
D
50/80/120
172
. 1750/1. 0500/51% . 4
. 1700/51 . 2
. 0500/12>. 2
. 7550/12 CP. 2
. 7550/12 CP
1750/50/80/120
173
Patented
200
22
2
8 10 12
35
84.5
10
22
5,8
35
37
GH ? . !D= , . DJ= = 8 12 . &>'!= . D>OJ , Krona.
D
50/80/120
. 1760 1 500 B. 0500/51% 50/80 ?. . 2
. 1760 54 B . 2
. 1760 3 . 4
. 0500/12>. 2
. 7550 12 BB. 2
. 7550 12 BB. 2
. 7550 12 CP. 2
. 7550 12 CP
1760
Lp
5
13030
Min. 7 - Max 13
35
3332
23
5022,5
29,5
200
22.5
21
30
30
40
500.1
20.2
+0.1
0
10 +0.5 0
175
% 1 Sys 00500 80
% 2 Sys 00500 120
GH ? . !D= , . DJ= = 8 12 . 3600
. 4100 . &>'!= . D>OJ , Krona.
D
50/80/120
. 1760 1 500 1750 B. 0500/51% 50/80 ?. . 4
. 1760 52 B
. 1760 54 B . 4
. 1760 3 . 4
. 0500/12>. 2
. 7550 12 BB
1760
Lp
130 200 30
Min. 7 - Max 13
35
3332
23
29,5
5022,5
5
20.2
+0.1
0
10 +0.5 0
30
30
500.1
40
2122
.5
% 1 Sys 00500 80
% 2 Sys 00500 120
177
GH . OD' 50/80/120 . OJ , Krona.
D
50/80
178
. 1760 1 500 0860 B. 0500/51% 50/80 ?. . 2
. 1760 52 B
. 1760 54 B . 4
. 1760 3 . 4
. 0500/12>. 2
. 7550 12 BB. 2
. 7550 12 BB. 2
. 7550 12 CP. 2
. 7550 12 CP ABS
NEW 1760/50/80 ABS
179
35
20.5
4
3.5
+2-2
Spv
Hup
= Hp
+ 2
1
HS2
= Hp
+ 5
1
4.5
1030
1141
4
35 1651
+2-2
51
Spv+17
Hup
= Hp
+ 2
1
35
30-(Spv/2)
Spv
1030
3011
414
+2-2
Spv
HF =
Hp
+ 67
.5
16-(Spv/2)-8.5
Hup
= Hp
+ 2
1
Spv+17
1635
16-(Spv/2)
3010
Hp11
30
HF =
Hp
+ 67
.5130
21
D1=64
200
Hp
Hpv
= Hp
-22.
5
Lp
35
4
21
20.5
LB
56
70
93 306
10
+0.5
0
GH ? . !D= , . DJ= = 8 12 . 3600
. 4100 . &>'!= . D>OJ , Krona.
EXTeRUS
181
EXTERUS '......................................189
K2O .....................................................195
K2O .....................................................201
EXTERUS ' ......................................183
EXTeRUS
183
EXTERUS
7550
1-2
184/186
150
. 7550 55 NS / NL% 1,53. - 4 AISI 316. . 7550 56 NS / NL% 1,73. - 5 AISI 316. . 7550 3 NS / NL% 2. - 5 AISI 316. . 7550 57 NS / NL% 2,13. - 5 AISI 316. . 7550 58 NS / NL% 2,33. - 6 AISI 316. . 7550 59 NS / NL% 2,53. - 6 AISI 316. . 7550 5 NS / NL% 3. - 7 AISI 316. . 7550 39 NS / NL% 4. - 9 AISI 316. . 7550 40 NS / NL% 2 . AISI 316. . 7550 41 NS / NL% 3 . AISI 316. . 7550 42 NS / NL% 4 . AISI 316. . 7550 7 NS / NL% 2. . 7550 8 NS / NL% 3. . 7550 44 NS / NL% 4.
. 7550 9 NS / NL= , q-.
. 7550 11 NS / NL> (). . 7550 16 NS / NL> (). . 7550 30 NS / NL+ / () . . 7550 31 NS / NL+ / () . . 7550 32 NS / NL
EXTERUS - # ;.= Delrin.# 150 .+ +/- 2 . ? .% : 10/12 .
. 7550 9 NS= , q-. 2 .
. 7550 11 NS> (). 1 .
. 7550 16 NS> (). 1 .
. 7550 12 NS (). 1 &
. 7550 16 NL> (). 1 &
. 7550 12 NL
4 , 20,2
=
? , 1 2 ? , 3 4 ? , 5
? , 6 2 ? , 6 4 ? , 6 5
% _
% &
185
= 30 Sd 4
= 30 Sd 23
+ 2
+ 5
+ 6
+ 1
+ 3
+ 4
= 30 Sd 17
.
EXTeRUS Patented
. 7550 9 NS= , q-. 2 .
. 7550 11 NS> (). 1 .
. 7550 16 NS> (). 1 .
. 7550 12 NS
6 , 20,2
=
? , 1 2 ? , 3 4 ? , 5
? , 6 2 ? , 6 4 ? , 6 5
EXTeRUS
189
7550
1-2
190/192
150
. 7550 55 NS / NL% 1,53. - 4 AISI 316. . 7550 56 NS / NL% 1,73. - 5 AISI 316. . 7550 3 NS / NL% 2. - 5 AISI 316. . 7550 57 NS / NL% 2,13. - 5 AISI 316. . 7550 58 NS / NL% 2,33. - 6 AISI 316. . 7550 59 NS / NL% 2,53. - 6 AISI 316. . 7550 5 NS / NL% 3. - 7 AISI 316. . 7550 39 NS / NL% 4. - 9 AISI 316. . 7550 40 NS / NL% 2 . AISI 316. . 7550 41 NS / NL% 3 . AISI 316. . 7550 42 NS / NL% 4 . AISI 316. . 7550 7 NS / NL% 2. . 7550 8 NS / NL% 3. . 7550 44 NS / NL% 4.
. 7550 10 NS / NL= , V-.
. 7550 30 NS / NL+ / () . . 7550 31 NS / NL+ / () . . 7550 60 NS / NL> () . . 7550 61 NS / NL> () . . 7550 62 DX% &. 7550 62 SX% _
. 7550 13 NS / NL
EXTERUS - # ;.= Delrin.# 150 .+ +/- 2 .= +/- 2 .? .% : Min. 30 .
. 7550 10 NS= , V-. 2 .
. 7550 61 NS> (). 1 .
. 7550 60 NS> (). 1 .
. 7550 13 NS (). 1 &
. 7550 60 NL> (). 1 &
. 7550 13 NL
? ,
1 2? , 1 2
? , 3 4
? , 5
? , 6 2 ? , 6 4 ? , 6 5
% _
% &
=
191
= 30 Sd 4
= 30 Sd 23
+ 2
+ 5
+ 6
+ 1
+ 3
+ 4
= 30 Sd 17
.
EXTeRUS Patented
EXTERUS - * # ;.= Delrin.# 150 .+ +/- 2 .= +/- 2 .? .% : Min. 30 .
. 7550 10 NS= , V-. 2 .
. 7550 30 NS+ / (). 1 .
. 7550 31 NS+ / (). 1 .
. 7550 13 NS (). 1 .
. 7550 60 NS> (). 1 .
. 7550 13 NS (). 1 &
. 7550 13 NL
? ,
1 2? , 1 2
? , 3 4
? , 5
? , 6 2 ? , 6 4 ? , 6 5
% _
% &
=
193
= 30 Sd 4
= 30 Sd 23
+ 2
+ 5
+ 6
+ 1
+ 3
+ 4
= 30 Sd 17
.
EXTeRUS Patented
195
K 20
1-2
196/198
120
. K 2O 56 CL% 1,73 .
. K 2O 57 CL% 2,13 .
. K 2O 58 CL% 2,732 .
. K 2O 59 CL% 3,332 .
. K 2O 1 CL
196
K2O - . K 2O 1 CL .? DELRIN.W .% .+ max.: 120 ?% : 10 .
. K 2O 56 CL% 1,73 .
. K 2O 57 CL% 2,13 .
. K 2O 58 CL% 2,732 .
. K 2O 59 CL% 3,332 .
. K 2O 9 CL= . 2
. K 2O 11 CL> , . 1
. K 2O 16 CL> , . 1
. K 2O 14 CL; /. 1
. K 2O 30 CL> . 2
. 7550 12 CL
Art. K 20 11 CL>
,
,
Art. K 20 30 CL>
Art. 7550 12 CL
198
K2O - * . K 2O 1 CL + K 2O 29 CL .? DELRIN.W .% .+ max.: 120 ?% : 10 .
* . K 2O 56 CL% 1,73 .
. K 2O 57 CL% 2,13 .
. K 2O 58 CL% 2,732 .
. K 2O 59 CL% 3,332 .
. K 2O 9 CL= . 2
. K 2O 11 CL> , . 1
. K 2O 16 CL> , . 1
. K 2O 14 CL; /. 1
. K 2O 30 CL> . 2
. 7550 12 CL , . 1
. K 2O 16 CL> , . 1
. K 2O 14 CL; /. 1
. K 2O 30 CL> . 2
. 7550 32 CL
Art. K 20 11 CL>
,
,
Art. K 20 30 CL>
Art. 7550 12 CL
201
K 20
1-2
202/204
120
. K 2O 56 CL% 1,73 .
. K 2O 57 CL% 2,13 .
. K 2O 58 CL% 2,732 .
. K 2O 59 CL% 3,332 .
. K 2O 4 CL
202
K2O - . K 2O 4 CL .? DELRIN.W .% .+ max.: 120 ?% : 40/46 .
. K 2O 56 CL% 1,73 .
. K 2O 57 CL% 2,13 .
. K 2O 58 CL% 2,732 .
. K 2O 59 CL% 3,332 .
. K 2O 10 CL= . 2
. K 2O 60 CL> , . 1
. K 2O 61 CL> , . 1
. K 2O 14 CL; /. 1
. K 2O 30 CL> . 2
. 7550 13 CL
Art. K 20 60 CL>
,
,
Art. K 20 30 CL>
Art. 7550 13 CL
204
K2O - * . K 2O 4 CL + K 2O 43 CL .? DELRIN.W .% .+ max.: 120 ?% : 40/46 .
* . K 2O 56 CL% 1,73 .
. K 2O 57 CL% 2,13 .
. K 2O 58 CL% 2,732 .
. K 2O 59 CL% 3,332 .
. K 2O 10 CL= . 2
. K 2O 60 CL> , . 1
. K 2O 61 CL> , . 1
. K 2O 14 CL; /. 1
. K 2O 30 CL> . 2
. 7550 13 CL , . 1
. K 2O 61 CL> , . 1
. K 2O 14 CL; /. 1
. K 2O 30 CL> . 2
. 7550 13 CL
Art. K 20 60 CL>
,
,
Art. K 20 30 CL>
Art. 7550 13 CL
207
ABS ..................................................................................209
ABS.......................................................................................215
ABS
209
ABS
SwingLife wood
/
1
210
70
& , , 70kg, . : / . =, . & : 4- . = .
ABS
210
KIT Art. 97 565 1984 0ABS AKIT Art. 97 565 1984 0ABS NW 528 , + 2001
10952217
100
4.8
50
5
3.252
347
KIT Art. 97 565 2034 0ABS AKIT Art. 97 565 2034 0ABS NW 528 , + 2051
KIT Art. 97 565 2084 0ABS AKIT Art. 97 565 2084 0ABS NW 528 , + 2101
KIT Art. 97 665 1984 0ABS AKIT Art. 97 665 1984 0ABS NW 628 , + 2001
KIT Art. 97 665 2034 0ABS AKIT Art. 97 665 2034 0ABS NW 628 , + 2051
KIT Art. 97 665 2084 0ABS AKIT Art. 97 665 2084 0ABS NW 628 , + 2101
= .
KIT Art. 97 765 1984 0ABS AKIT Art. 97 765 1984 0ABS NW 728 , + 2001
KIT Art. 97 765 2034 0ABS AKIT Art. 97 765 2034 0ABS NW 728 , + 2051
KIT Art. 97 765 2084 0ABS AKIT Art. 97 765 2084 0ABS NW 728 , + 2101
KIT Art. 97 865 1984 0ABS AKIT Art. 97 865 1984 0ABS NW 828 , + 2001
KIT Art. 97 865 2034 0ABS AKIT Art. 97 865 2034 0ABS NW 828 , + 2051
KIT Art. 97 865 2084 0ABS AKIT Art. 97 865 2084 0ABS NW 828 , + 2101
KIT Art. 97 965 1984 0ABS AKIT Art. 97 965 1984 0ABS NW 928 , + 2001
KIT Art. 97 965 2034 0ABS AKIT Art. 97 965 2034 0ABS NW 928 , + 2051
KIT Art. 97 965 2084 0ABS AKIT Art. 97 965 2084 0ABS NW 928 , + 2101
Art. 9700 1
SYSTEM SWINGLIFE WOOD
LupLp-37 (Sp=40)
438478528578628678728778828878928978102810781128117812281278
LvmLp+135
6106507007508008509009501000105011001150120012501300135014001450
D1142,1142,1142,1142,1142,1192,1192,1192,1192,1192,1192,1292,1292,1292,1292,1292,1292,1292,1
D2313,5313,5313,5313,5313,5415,5415,5415,5415,5415,5415,5617,3617,3617,3617,3617,3617,3617,3
D3304,5304,5304,5304,5304,5406,5406,5406,5406,5406,5406,5608,3608,3608,3608,3608,3608,3608,3
D4170,5210,5260,5310,5360,5308,5358,5408,5458,5508,5558,5406,7456,7506,7556,7606,7656,7706,7
D5///
100150100150200250300350200250300350400450500
D6///
9014090
140190240290310160210260310360410460
Lp4755155656156657157658158659159651015106511151165121512651315
HupHp+171901195120012051210121512201
HvmHp+661950200020502100215022002250
Hp1884193419842034208421342184
211
_Lp = (. %) Hp = (. %)Sp = (. 35 . 50) Lup = = Lp - 37 ( Sp = 40)Hup = =
SYSTEM SWINGLIFE WOOD
+1.5-1.5
9
HpHvm
Sm
8.2
840
.8
45
= =
+1.5-1.5
Sm
Hp
9
Hvm
8.2
840
.8
45 Sm-45= =
0.6
23
231D5
Hman
9
D6
212
/
/
+ :
/
ABS . ! : - -
SYSTEM SWINGLIFE WOOD
Lup
D3D4
Lup
7
Sp
D3D4
-1,5 +1,5
45 105
Sp
Sm 45
30
Lp
Lvm
5
1212
D1
D2
==
==
5
D3D4
D2
D368 50
= =
-1,5 +1,5
D2
45
12
LP
12
Lvm
Sm
Sp
32
5 40
D1
D3D4
==
5
==4
5104
.9
213
/
/
/
:
ABS
ABS
SYSTEM
SwingLife wood
/
1
216
70
215
ABS, , , 70kg, . : / . =, . & : 4- . = .
ABS
216
10952217
100
4.8
50
5
3.252
347
KIT Art. 97 665 1984 2ABS AKIT Art. 97 665 1984 2ABS NW 628 , + 2001
KIT Art. 97 665 2034 2ABS AKIT Art. 97 665 2034 2ABS NW 628 , + 2051
KIT Art. 97 665 2084 2ABS AKIT Art. 97 665 2084 2ABS NW 628 , + 2101
= .
KIT Art. 97 765 1984 2ABS AKIT Art. 97 765 1984 2ABS NW 728 , + 2001
KIT Art. 97 765 2034 2ABS AKIT Art. 97 765 2034 2ABS NW 728 , + 2051
KIT Art. 97 765 2084 2ABS AKIT Art. 97 765 2084 2ABS NW 728 , + 2101
KIT Art. 97 865 1984 2ABS AKIT Art. 97 865 1984 2ABS NW 828 , + 2001
KIT Art. 97 865 2034 2ABS AKIT Art. 97 865 2034 2ABS NW 828 , + 2051
KIT Art. 97 865 2084 2ABS AKIT Art. 97 865 2084 2ABS NW 828 , + 2101
KIT Art. 97 965 1984 2ABS AKIT Art. 97 965 1984 2ABS NW 928 , + 2001
KIT Art. 97 965 2034 2ABS AKIT Art. 97 965 2034 2ABS NW 928 , + 2051
KIT Art. 97 965 2084 2ABS AKIT Art. 97 965 2084 2ABS NW 928 , + 2101
Art. 9700 1
SYSTEM SWINGLIFE WOOD
LupLp-37 (Sp=40)
438478528578628678728778828878928978102810781128117812281278
LvmLp+135
6106507007508008509009501000105011001150120012501300135014001450
D1142,1142,1142,1142,1142,1192,1192,1192,1192,1192,1192,1292,1292,1292,1292,1292,1292,1292,1
D2313,5313,5313,5313,5313,5415,5415,5415,5415,5415,5415,5617,3617,3617,3617,3617,3617,3617,3
D3304,5304,5304,5304,5304,5406,5406,5406,5406,5406,5406,5608,3608,3608,3608,3608,3608,3608,3
D4170,5210,5260,5310,5360,5308,5358,5408,5458,5508,5558,5406,7456,7506,7556,7606,7656,7706,7
D5///
100150100150200250300350200250300350400450500
D6///
9014090
140190240290310160210260310360410460
Lp4755155656156657157658158659159651015106511151165121512651315
HupHp+171901195120012051210121512201
HvmHp+661950200020502100215022002250
Hp1884193419842034208421342184
_Lp = (. %) Hp = (. %)Sp = (. 35 . 50) Lup = = Lp - 37 ( Sp = 40)Hup = =
SYSTEM SWINGLIFE WOOD
+1.5-1.5
9
HpHvm
Sm
8.2
840
.8
45
= =
+1.5-1.5
Sm
Hp
9
Hvm
8.2
840
.8
45 Sm-45= =
0.6
23
231D5
Hman
9
D6
218
/
/
+ :
/
ABS . ! : - -
SYSTEM SWINGLIFE WOOD
Lup
D3D4
Lup
7
Sp
D3D4
-1,5 +1,5
45 105
Sp
Sm 45
30
Lp
Lvm
5
1212
D1
D2
==
==
5
D3D4
D2
D368 50
= =
-1,5 +1,5
D2
45
12
LP
12
Lvm
Sm
Sp
32
5 40
D1
D3D4
==
5
==4
5104
.9
219
/
/
/
:
221
KuBi7 ..................233
KUBICA ..................223
Kubikina ............................................................................241
KUBICA
5 , 3
5 , 3
1
1
1
1
1
1
1
224
225
226
227
228
229
230
40/52
45/60
60
70/90
33/40
60
45/60
IXEF
#*>J
K2400
K6200
K6300*
K6700*
K6900
KUBICA 27
KUBIKUADRA
* , EN 1634.2 N. 945-946.0UN0360/10 (K6700) N. 1211.0UN0360/11 (K6300)
223
KUBICA KRONA KOBLENZ SpA. = ,KUBICA 180 - . > KUBICA , - . &KUBICA , . .
224
184
(Hp-
371)
/2(H
p-37
1)/2
187
(Hp-
371)
/219
0(H
p-37
1)/2
190
Hp
52
& 3 .
187
184
190
190
Hp
40
& 2 .
! 5 , 3
K2400KUBICAPatented
. K 2400 CS DXSX& 180 F1
. K 2400 NS DXSX& 180 F2
. K 24 COVER CS F1
. K 24 COVER NS F2
. K 240 STAFFA? K2400
. K 240 TASCA? K2400
K2400
1:2
142
142
155
11.641.5
30.641.5
18 21
9 9 10 11
155
;#?
F1, F2
600/900 . x 2100 .
25 .
=
X: k 3 Y: + 1,5 Z: + 3
40 ( 2 ) 52 ( 3 )
E
225
! 5 , 3
new model K6200KUBICA
Patented
ANSI/UL 10C - Fire Test of Door Assemblies
;#?
, F1, F2, .
600/900 . x 2100 .
32 .
=
X: k +3, -2 Y: + 1 Z: + 2,5
45 ( 2 ) 60 ( 3 )
. K 6200 13 OR DXSX& 180
. K 6200 20 CL DXSX& 180
. K 6200 20 CS DXSX& 180 F1
. K 6200 21 NS DXSX& 180 F2
. K 62 COVER OR .
. K 62 COVER CL
. K 62 COVER CS F1
. K 62 COVER NS F2
. K 62 DIMA. K 62 DIMA.S
new model K6200
12.6+/-1
34.6+/-1
79
23.323.395
190
(Hp-
621)
/2(H
p-62
1)/2
250
190
Hp
184
(Hp-
621)
/2(H
p-62
1)/2
250
187
60
& 4 . >2100
n 4
Hp
187
(Hp-
371)
/2(H
p-37
1)/2
184
190
(Hp-
371)
/2(H
p-37
1)/2
190
60
& 3 . H 2100
190
190
184
187
Hp
45
& 2 . H 2100
1:1
E
# 5 ,
226
K6300KUBICAPatented
. K 6300 20CS& 180 F1
. K 6300 21NS& 180 F2
. K 6300 COVER CS F1
. K 6300 COVER NS F2
. K 63 DIMA. K 63 DIMA.S
K6300
1:1
56.5 1
25.5 1
130
32 30
117
, EN 1634.2 N. 1211.0UN0360/11
;#?
F1, F2
600/900 . x 2100 .
40 .
=
X: k +3, -2 Y: + 1 Z: + 3
60 ( 3 )
Sp (mm) A (mm) B (mm) C (mm)
13 4 34
12
45
5 35
min. 211 6 36
*D* (mm)
10 7 37
9 8 38
8 9 39
+2-3
-1 +1
*D*
B 0-1
3.5
20 0-132 +0.3 0
A
Sp= 45
30 +0.3 0
C
32 +
C=Sp-A+D
%
E
227
! 5 , 3
. K 6700 13
Recommended