RGB Catalogue Catalogue
3
SERIES RGB
TECHNICAL CATALOGUE
Augu Aug August u st 220 ust 2008 08
4
August 2 0 0 8
RGB Catalogue
RGB Catalogue 1
Catalogue cover sheet
3
Overview of catalogue pages
4
Construction description
5
System description
6
System description
7
Installation of Profiles/Corner connectors
8
Installation of T-connectors/Accessories/Gaskets
9
Installation of Mounting material/Drilling tempates
10
Explanatory notes on preliminary calculations
11
Preliminary calculations table
12
Cross-section values
13
Nominal values for the thermal tranmission coefficient Uf
14
Explanatory notes on table with U-values
15
Table Rated value /U-values 30%
16
Table with U-values 20%
17
Profiles
18
Profiles
19
Profiles
20
Profiles
21
Profiles
22
Profiles
23
Profiles
24
Glazing Table
25
Corner connectors
26
Corner connectors
27
T-connectors
28
Corner joints
29
Corner joints
30
T-profile connectors
31
Accessories
32
Drainage/Ventilation
33
Overview of intersection points
34
Intersection points
35
Intersection points
36
Intersection points
37
Intersection points
38
Intersection points
39
Intersection points
40
Intersection points
5
August 2008
6
RGB Catalogue
Windows: Heat-insulated compound profile system with large-volume EPDM multi-chamber center seal with preformed angles. Minor profile view widths due to hidden wing profiles. The RGB series is especially suitable for the use in facades. Uf values according to EN ISO 10077. Design values Uf,BW according to DIN V 4108-4: 2002. Fittings: Commercially available fittings. Profiles are designed with 10mm notches according to the European sizes. Increased burglary safety possible due to safety class WK2. Design: Double wall, hollow composite profiles (three-chamber system) with even surfaced rebate bed. Dimensions*: Frame profiles: 75 mm installation depth (basic depth); window sashes 85 mm installation depth. Profile compound: Quality controlled, force-fit and form-fit compound with polyamide strips min. 25% reinforced with glass fibre by using melt thread. In order to improve the thermal insulation, the compound zone of the profiles is partly filled with polyurethane rigid foam. The hollow composite profiles are suitable for post-processing the surfaces. Joint permeability and driving rain sealing: Exposure Category C according to DIN 18055
* The dimensions for the built-in depth of the catalogue are standard gauges for the planning. The manufacturing dimensions for frames and sash profiles are 0,4mm over the nominal dimensions of the catalogue, the bar profiles 0,2mm.
August 2 0 0 8
RGB Catalogue
7
System Description 1. General This profile system includes heat-insulated, two-wall composite profiles (three-chamber system) for the production of windows and doors. Heat insulation is achieved by thermal separation of the inner and outer profile walls by means of glass-fibre reinforced isolating webs made of polyamide, with special melted wire inserts. The compound is manufactured force-fit and form-fit in the press plant by controlling the quality. In order to improve the thermal insulation, the hollow space between the isolating strips is partly filled with highly insulating polyurethane rigid foam. The design is in accordance with the state of the art and the directives and recommendations of the insulating glas, fittings and sealing materials manufacturers and meets the requirements of the “Directive for the Proof of Stability of Composite Metal-Plastic Profiles” of the German Institute for Construction Engineering,Berlin, as well as the requirements of the provisions regarding quality and testing of aluminium windows. The Uf values of the profiles and profile combinations have been determined acc. to EN ISO 10077 and are given acc. to DIN V 4108-4: 2002 in design values. The air permeability of joints and watertightness under heavy rain of the windows correspond to the exposure category C of DIN 18055. The construction of solid, safe and operational elements is guaranteed. The “Code of Practice for the Processor” in our latest main catalogue must be observed for the use and processing of our design. With our delivery of composite profiles you are also receiving our guarantee for this product.
2. System Scope This profile system includes window and door profiles for the construction of side-hung, turn and tilt, tilt and double sash windows, doors and parallel-slide-and-tilt doors. The main profiles include narrow and wide outer frame, sash, glazing bar, post and sill rail profiles. Additional profiles are respectively available for wall connections, as well as for expansion and decorative glazing bars. Glazing rebate strips for filling thicknesses (glazing thicknesses) from 18 to 45 mm are available. 2.1 Heat insulation This profile system contains window profiles for manufacturing swivel windows, tilt and turn windows and pivot windows. The main profiles comprise narrow and wide blind frames, sash and bar profiles. Due to the hidden sash profiles, only minor profile view widths are achieved. The RGB series is especially suitable for the use in facades. For wall connections, expansion and adornment bars, relative additional profiles are available. Glass rebates for priming thicknesses (glass thicknesses) are available depending on the catalogue. 2.1 Thermal insulation The heat-insulated construction contains frame and bar profiles with a frame profile depth of 75 mm and a sash profile depth of 85 mm, and is equipped with a large-volume, EPDM multistage middle sealing.
Additionally, the glass rebate is shielded with EPDM multistage cover profiles on both sides of the filling against thermal radiation and air convection. The indicated nominal values for the thermal transmission coefficient Uf for single profiles and profile combinations are given in separate tables and are proven by the relevant test certificates of the Institute for Window Techniques Rosenheim e.V.
3. Construction 3.1 Maximum sash sizes Windows: Sash width 380 - 1600 mm Sash height 600 - 2400 mm max. Sash weight: 130 kg additional middle locks starting with 1250 mm sash height or width. 3.2 Statics The cross-sectional values of the profiles (idleness and resistance momenta etc.) are given in separate statics’ tables. 3.3 Connection of frame and bars The connection of the profiles’ corner brackets and T-connectors is achieved in both hollow chambers with glued-in aluminum corner brackets and T-connectors, which are fixated with spiral pinks or mechanical angle connection devises. The fabricator must ensure the water impermeability against mitres and shocks. This is especially valid for lower horizontal frame and bar profiles. All holes on corner brackets and T-connectors (continuous nuts of the glass rebate strips, clamping nuts in the rebate etc.), the front side of the basis profiles towards the frame profile etc. must be specially sealed (also in thin layers) with the appropriate elastic silicone or Thiokol sealing substance. 3.4 Middle sealing EPDM middle sealing as frame with 50 mm form angles. Gluing with the form angles is achieved with the contact glue 905 410 cyanoacrylate glue). Cutting the sealing profile is calculated as follows: Sash size minus 100 mm (2 x 50 mm form angle) plus 0,5 %. Example: Sash size 1100 mm. Cutting the middle sealing = 1100-100 + 5= 1005 mm. 3.5 Glazing Glazing with sealing substance-free rebate with preformed EPDM sealing profiles. In order to guarantee the venting (vapour pressure compensation) of the rebate area, holes are drilled in front of the middle sealing which lead to the outer air and have a minimum cross-section of 15x5 mm or 8 mm diameter. The holes are at the lowest point of the rebate and are foreseen at least twice in the lower horizontal. The outer holes are between the frame angle and the glazing block, a maximum of 100 mm away from the corner. It is suggested to make additional lateral holes on the upper side. Blocking is achieved on system’s own glass rebate inserts. Blocking inhibits the insertion of air or water (condensate) in the rebate. If the glazing is done by using sealing substances, then you should consider the table “Exposure groups for glazing windows” by the Institute for Window Techniques e.V. Rosenheim.
August 2008
RGB Catalogue
8
System Description 3.6 Draining the construction The water inserting the pre-chamber (average pressure chamber) is guided directly outside over at least 2 pieces 28 x 12 mm water outlet holes which are in front of the middle sealing. These are approx. 120 mm away from the frame end and have a maximum distance of 600 mm. The holes are covered with drainage inserts. In case of downward drainage directly on the window sill or over the basis profile, the incoming water is drained off with 35 x 6 mm big water outlet slots. The number and position is the same as previously described. The corresponding water outlet slots in the AI basis profile should be displaced for 50 mm at the opposite of the slots in the frame profile.
7,5
12
28
20
3.7 Condensate water formation The formation of condensate water on the heat-insulated compound profiles is only then possible, if the relevant isolating glass panes (formation of perspiration) would appear with the
corresponding inner and outer temperatures and the air humidity of the inner room. Additionally installed profiles on the outside, as rolling shutters or window sills, change in a negative manner the inner surface temperatures of these profiles and thus the behavior of the condensate water. The fabricator must be careful not to allow any cold air in the inner peels of the frame profiles when the elements have been installed. This is especially important if rolling shutters have been installed over the elements. In this case, the frame profile must be covered on the front side with fixed sealing strips from PUR or polystyrene rigid foam. Thermal bridges should be avoided.
4. Surface handling For handling surfaces, the FWB guidelines State 11/91 are valid. A different colour scheme of the profiles can be done before bonding the half shells. 4.1 Anodic oxidation (anodic treatment) For the anodic oxidation of the aluminum parts, DIN 17611 is valid. The quality and test specifications on “Anodized aluminum RAL-RG 661” must be considered before the anodic treatment. The anodic manufactured oxide layers must have a minimum layer thickness of 20 μm. Special care must be shown to the material that will be anodically oxidated according to procedure E6 (stained and anodized).
August 2 0 0 8
A guarantee regarding the adequacy after completion of this procedure can be granted only if the profiles are delivered immediately after manufacture to the anodic plant and are processed there directly. We do not take any responsibility for this procedure with regards to the delivery of products that originate from the stock of inventory. 4.2 Colour coating The colour coating must be carried out according to the “Quality and test specifications for coating RAL-RG 631 parts”. Coating theprofiles is achieved by heating powder lacquerin a hardening furnace. Generally, powder lacquers on polyester basis are used. The layer strength should be 60 to max. 120 μm. The layered profiles are with a max. 175° ± 10 °C object temperature and a heatingduration in a hardening furnace of approx. 20 minutes (after achieving the object temperature). The aluminum profiles should be pre-processed carefully according to DIN 50939 for an acceptable colour coating.Chromating is unavoidable.
5. Dimensioning the compound profiles The dimensions mentioned in the catalogue are planning dimensions. Due to the differenttreatment of the surfaces, they should not be used as control dimensions for the compoundprofiles delivered by us.
RGB Catalogue
9
Compound Profiles Order No.
Designation
AH275-5075027 Frame profile for facade
Stock length in m
anod.
Development in mm anod.* mech.
26.5 mm
6,00
475
305
104
AH275-RG4120
Frame profile
34 mm
6,00
442
365
122
AH275-RG4130
Frame profile
44 mm
6,00
482
385
132
AH275-RG4210
Sash profile,glass rebate
56 mm
6,00
367
313
73
AH275-RG4215
Sash profile, glass rebate
56 mm
6,00
367
313
88
AH275-RG4240
Transom/Mullion, asymetrical
34 mm
6,00
494
416
136
AH275-RG4245
Transom/Mullion, symetrical
34 mm
6,00
462
540
156
Profiles for accessories Stock length in m
Development in mm anod. mech. 50 -
Order No.
Designation
AH900-TF290
Movement transmision rod
6,0
AH900-TF464
Glazing bead 27mm
6,0
193
49
AH900-TF469
Glass rebate for sash profile
6,0
55
-
AH900-TF479
Corner connector profile
6,0
-
-
AH900-TF483
Corner connector profile
6,0
-
-
AH900-TF495
Corner connector profile
6,0
-
-
AH900-TF496
Corner connector profile
6,0
-
-
AH900-TF498
Corner connector profile
6,0
-
-
AH900-TF499
Corner connector profile
6,0
-
-
AH900-TF537
Adaptor profile for fixed glazing
6,0
162
20
AH900-TF538
Adaptor profile for fixed glazing
6,0
157
-
AH900-TF536
Joint for mullion profile
6,0
-
-
AH900-TF649
Joint for mullion profile
6,0
-
-
AH900-TF650
Joint for mullion profile
6,0
-
-
August 2008
RGB Catalogue
10
Corner connectors Required installation material Quantity Order No.
Order No.
Designation
Profile Code
AE001-901450-00
Corner connector for profiles AH275-RG4240, AH275-RG4245, outside
2 pcs
AE009-905150-00 AH900-TF495
AE001-901451-00
Corner connector for profiles AH275-RG4240, AH275-RG4245, outside
2 pcs
AE009-905400-00 AH900-TF495
AE001-901459-00
Corner connector for profiles AH275-RG4120, outside
2 pcs
AE009-905150-00 AH900-TF495
AE001-901474-00
Corner connector for profile AH275-RG4130, outside
2 pcs
AE009-905160-00 AH900-TF498
AE001-901569-00
Corner connector for profiles AH275-RG4120, AH275-RG4240, AH275- RG4245, inside
2 pcs
AE009-905160-00 AH900-TF496
AE001-901589-00
Corner connector for profiles AH275- RG4130, inside
2 pcs
AE009-905160-00 AH900-TF499
AE001-901911-00
Stiffening plate for profiles AH275-RG4120, AH275-RG4130, AH275-RG4240, AH275-RG4245, AH275-5075027, outside
AE001-901920-00
Stiffening plate for T-shocks, outside, by connection with rebate depth 44m on both sides
AE001-901002-45
Corner connector for profile AH275-5075027, inside
2 pcs
AE009-905150-00 AH900-TF495
AE001-901002-50
Corner connector for profiles AH275-5075027, outside
2 pcs
AE009-905140-00 AH900-TF483
AE001-901002-51
Pressta corner connector for profiles AH275-5075027, outside
2 pcs
AE009-905400-00 AH900-TF483
AE001-901002-56
Pressta corner connector for profiles AH275-RG4210, inside
2 pcs
AE009-905160-00 AH900-TF483
AE001-901002-60
Pressta corner connector for profiles AH275-RG4215, inside
2 pcs
AE009-905400-00 AH900-TF499
AE001-901002-66
Pressta corner connector for profiles AH275-RG4210, AH275- RG4215 , outside
2 pcs
AE009-905400-00 AH900-TF479
T- connectors Required installation material Quantity Order No.
Order No.
Designation
AE003-902025-00
T-connector for profiles AH275-RG4240 and AH275-RG4245, outside on frame and bar profiles with 24mm rebate depth
1 pc
AE009-905150-00 AH900-TF649
AE003-902026-00
T-connector for profile AH275-RG4120, outside on frame and bar profiles with 24mm rebate depth
1 pc
AE009-905150-00 AH900-TF649
AE003-902029-00
T-connector for profile AH275-RG4130 , outside on frame and bar profiles with 24mm depth
1 pc
AE009-905150-00 AH900-TF649
AE003-902046-00
T-connector for profiles AH275-RG4120, AH275- RG4240 and AH275-RG4245. inside on frame and bar profiles with 24mm rebate depth
1 pc
AE009-905150-00 AH900-TF650
AE003-902047-00
T-connector for profile AH275-RG4130, inside on frame and bar profiles with 24mm rebate depth
1 pc
AE009-905150-00 AH900-TF650
AE003-902001-01
T-connector for profile AH275-RG4120 outside on frame and bar profiles with 44mm rebate depth
1 pc
AE009-905150-00 AH900-TF536
AE003-902001-02
T-connector for profile AH275-RG4130, outside on frame and bar profiles with 44mm AH275-RG4120 rebate depth
1 pc
AE009-905150-00 AH900-TF536
AE003-902001-03
T-connector for profile AH275-RG4240 AND AH275-RG4245, outside on frame and bar profiles with 44mm rebate depth
1 pc
AE009-905150-00 AH900-TF536
August 2 0 0 8
Profile Code
RGB Catalogue
11
Accessories Order No.
Designation
AE011-903002-00
Glazing bearing, horizontally under, min. 2 pieces per fixed glazing
AE011-903003-00
Glazing rebate, horizontally under, min. 2 pieces per fixed glazing
AE011-903022-00
Angled formed part for middle strip sealing AE004-904285-00
AE011-903031-00
Drainage insert, black
Gaskets Order No.
Designation
AE004-904015-00
Stroke gasket for window sash profiles, inside
AE004-904191-00
Outside glazing gasket frame, outside in the sash
AE004-904285-00
Central gasket (highly insulated)
AA010-003
Glazing gasket 3 mm, inside
AA010-007
Glazing gasket 7 mm, inside
AE004-904920-30
Glazing gasket 8 mm, inside
AE004-904930-30
Glazing gasket 12 mm, inside and outside
Installation material Order No.
Designation
AE009-905150-00
Roll pin
7 mm x 13.5 mm (cylindrical), for corner and T-connector
AE009-905160-00
Roll pin
7 mm x 18 mm (cylindrical) for corner and T-connector
Drilling templates Order No.
Designation
AE009-907220-00
Drilling template for
Corner connector AE001-901459-00 in profile AH275-RG4120, Corner connector AE001-901474-00 in profile AH275-RG4120, Corner connector AE001-901569-00 in profile AH275-RG4130, Corner connector AE001-901589-00 in profile AH275-RG4130, T-connector AE003-901026-00 in profile AH275-RG4120, T-connector AE003-902046-00 in profile AH275-RG4120, T- connector AE003-902047-00 in profile AH275-RG4130,
AE009-907223-00
Drilling template for
T-connector AE003-902046-00 in profiles AH275-RG4130 & AH275-RG4240,
AE009-907003-45
Drilling template for
T-connector AE003-902001-01 in profile AH275-RG4120 T-connector AE003-902001-02 in profile AH275-RG4130 T-connector AE003-902001-03 in profiles AH275-RG4240 & AH275-RG4245,
AE009-907003-47
Drilling template for
Corner connector AE001-901002-45 in profile AH275-5075027 Corner connectorAE001-901002-50 in profile AH275-5075027
August 2008
12
RGB Catalogue
Measurement of pillars and latches Loading width: The loading width c1 or c2 results from bisecting the fields that are adjoined to the pillars or latches. Loading case: A loading case is understood to be a carrier standing without support on two pillars with trapezoidal or triangular load. The division of the loading surface is achieved by bisecting the angle. Allowed bending: Generally, fzul = 1/300 • I (DIN 18056) The manufacturer of the isolating glass acknowledge this as max. bending of the position points of the support width I, although they limit the allowed bending in the partial area (bending between the position points of the largest partial area) to fzul. = 1/300 * I = 0,8 cm. Loading assumption: (DIN 1055, Part 4) Back pressure q = 0,5 kN/m2 (height over the area = 0 - 8 m) Back pressure q = 0.8 kN/m2 (height over the area = 8 - 20 m) Back pressure q = 1.1 kN/m2 (height over the area = 20-100 m) Pressure coefficient c p = 0,8 + 1/4 = 1,0 Wind pressure w = q • c p (kN/m2) Material information on solidity of the Al-Leg. AlMgSi 0,5 F22 (DIN 4113) Minimum tensile strength Bz = 22 kN/cm2 Minimum limit of elasticity d 0,2 = 16 kN/cm2 Allowed voltage {main load H): d zul = 95 N/mm2 Elasticity module E = 7000 kN/cm2
Using table I and II For the pillars or latches of single-paned fields Example “A” Table I should be used. For the pillars or latches of multi-paned fields Example “B” Table II should be used, if all partial areas = 240 cm. In example “C”, the biggest partial area of the pillar was measured with 320 cm. Since it is above 240 cm, for this area fzul = 0,8 cm or fzul. = /p/0,8 • I = 320/0,8 • I = 1/400 • I This allowed bending of 1/400 • I of the partial area is valid for the total pillar length of 460 cm. In order to determine the required idleness momentum I *, one must divide the value from the adjoining table II by 300 and then multiply it with 400.
August 2 0 0 8
180 190 200 210 220 230 240 250 260 270 280 290 300 310 320 330 340 350 360 370 380 390 400 410 420 430 440 450 460 470 480 490 500 510 520 530 540 550 560 570 580 590 600
4,7 5,5 6,5 7,5 8,6 9,9 11,3 13,3 15,6 18,2 21,0 24,2 27,8 31,7 36,1 40,8 46,0 51,7 57,9 64,7 72,0 79,9 88,5 97,7 108 118 130 142 155 169 184 200 217 235 254 274 295 318 341 357 393 421 450
30
3,2 3,8 4,4 5,1 5,9 6,7 7,6 9,0 10,5 12,2 14,2 16,3 18,7 21,3 24,2 27,4 30,9 34,7 38,9 43,4 48,3 53,6 59,3 65,5 72,1 79,2 85,9 95,0 104 113 123 134 145 157 170 183 197 212 228 245 263 281 301
20
40
6,0 7,1 8,4 9,7 11,3 12,9 14,8 17,4 20,5 23,9 27,7 31,9 36,6 41,8 47,6 53,9 60,8 68,3 76,6 85,5 95,3 106 117 129 143 157 172 188 206 224 244 265 288 312 337 364 392 422 454 487 522 559 598
50
7,2 8,5 10,1 11,8 13,7 15,7 18,0 21,3 25,0 29,2 33,9 39,2 45,0 51,5 58,6 66,4 75,0 84,4 94,6 106 118 131 145 160 177 194 213 234 255 279 303 330 358 387 419 452 488 525 564 606 650 696 745
60
8,1 10,6 12,7 15,0 17,6 20,4 23,5 27,9 33,0 38,7 45,1 52,3 60,3 69,2 78,9 89,7 102 114 129 144 161 179 198 219 242 267 293 321 351 383 417 454 493 534 578 624 674 726 780 838 900 964 1032
Table I Bending f = 1/300 I < 0,8 cm
70
8,8 10,6 12,7 15,0 17,6 20,4 23,5 27,9 33,0 38,7 45,1 52,3 60,3 69,2 78,9 89,7 102 114 129 144 161 179 198 219 242 267 293 321 351 383 417 454 493 534 578 624 674 726 780 838 900 964 1032
90
9,4 11,6 14,1 16,9 20,1 23,5 27,3 32,8 39,1 46,2 54,1 63,0 73,0 84,0 96,3 110 125 141 159 178 199 222 247 273 302 333 366 402 440 481 525 571 620 673 729 788 851 917 987 1061 1139 1221 1308
110
20,9 24,9 29,4 35,7 42,9 51,1 60,4 70,8 82,5 95,5 110 126 143 163 184 207 232 259 289 321 355 393 433 475 521 571 623 679 739 802 869 941 1016 1097 1181 1271 1365 1465 1569 120
29,6 36,3 43,9 52,6 62,4 73,5 85,9 99,8 115 132 151 172 195 219 246 279 308 342 379 419 463 509 558 612 668 729 793 862 935 1012 1094 1181 1273 1370 1472 1580 1694 130
44,2 53,3 63,6 75,3 88,4 103 119 137 157 179 204 230 259 290 324 361 401 444 490 540 593 650 711 776 845 919 997 1080 1169 1262 1361 1465 1576 1692 1814 140
64,0 76,2 89,9 105 122 141 163 186 211 239 270 303 339 378 420 466 515 568 625 685 750 820 894 972 1056 1145 1239 1339 1445 1556 1674 1799 1930 150
90,4 106 124 144 166 190 217 247 279 314 352 393 438 486 538 594 654 718 787 860 939 1022 1111 1205 1305 1411 1524 1643 1768 1900 2040 160
125 145 168 194 221 252 286 322 362 405 452 503 557 616 679 747 820 897 980 1068 1162 1262 1367 1479 1598 1724 1857 1997 2144 170
169 195 224 256 291 329 370 415 464 517 574 636 702 773 849 930 1017 1110 1209 1313 1425 1543 1668 1800 1940 2087 2243 180
225 258 294 333 376 423 474 529 588 652 721 796 875 960 1051 1148 1251 1361 1477 1601 1732 1871 2017 2172 2336 190
295 335 380 428 481 538 599 666 737 814 897 985 1080 1181 1288 1403 1525 1654 1791 1936 2089 2251 2422 200
381 431 485 544 607 676 750 830 915 1007 1105 1210 1321 1440 1567 1701 1844 1995 2154 2323 2501 180
186 206 229 228 252 251 277 275 303 300 331 327 360 355 391 385 424 416 458 449 493 483 530 518 569 556 610 595 652 635 696 678 742 722 790 767 840 815 892 864 945 916 1001 969 200
190
150 167 186 205 226 248 271 295 321 348 376 406 437 470 504 540 577 616 656 699 742 788 835 884 934 170
119 134 149 166 184 202 222 243 265 289 313 339 365 395 425 456 488 522 558 595 633 673 715 758 803 849 897 160
94 106 119 133 148 164 180 198 217 237 258 281 304 329 354 382 410 439 470 503 536 571 608 646 685 726 768 812 858
6. Multiply the sum of the necessary idleness momenta with the factor from the wind pressure.
5. Add the idleness momenta that were determined under 3 and 4.
Load width a [cm]
100
14,3 17,3 20,7 24,5 28,6 34,5 41,3 49,0 57,6 67,3 78,2 90,2 104 118 135 152 172 193 216 241 269 298 330 364 400 440 482 527 575 626 681 739 800 866 935 1008 1086 1168 1254 1345 1440
4. Determine the idleness momentum lx erf. for the loading width c2 according to table I or II.
3. Determine the idleness momentum lx erf. for the loading width c1 according to table I or II.
2. Determine the loading width c1 and c2 in cm.
1. Determine the support width I in cm.
The determination is done according to the following sequence:
Determining the necessary idleness momenta
150
72 82 93 105 117 131 145 160 176 193 211 230 250 271 293 317 341 367 393 421 451 481 513 546 580 616 653 692 732 773 816 140
55 63 72 82 92 103 115 127 141 155 170 186 203 221 240 260 281 303 326 350 375 402 429 458 487 518 551 584 619 655 693 732 772 130
41 47 55 62 71 80 90 100 111 123 136 149 164 179 195 211 229 248 267 288 309 332 355 380 406 432 460 489 519 551 583 617 652 688 726 110
100 Load width a [cm]
120
30 35 41 47 54 61 69 77 86 96 107 118 130 142 156 170 185 200 217 234 252 271 291 312 334 357 381 406 432 458 486 515 546 577 609 643 678
21 25 29 34 40 45 52 59 66 74 83 92 101 112 123 134 147 160 173 188 203 219 236 254 272 291 312 333 355 377 401 426 452 478 506 535 565 596 628
14 17 21 25 29 33 38 44 49 56 63 70 78 86 95 105 115 125 137 149 161 174 188 203 218 235 251 269 288 307 327 348 369 392 416 440 465 492 519 547 576 90
9,4 12 14 17 20 24 27 32 36 41 46 52 58 65 72 80 88 97 106 115 126 137 148 160 173 186 200 214 230 246 262 280 298 317 336 357 378 400 423 447 471 497 523 80
70
8,8 11 13 15 18 20 24 27 31 34 39 43 48 54 59 65 72 79 86 93 101 110 119 128 138 149 160 171 183 196 209 222 237 251 267 283 299 317 334 353 372 392 413
0-8m 8-20m 20-100m
9,2 11 14 16 19 22 26 29 34 38 43 48 54 60 66 73 80 88 96 105 114 124 134 145 156 168 180 193 207 221 236 252 268 285 302 320 339 359 379 400 422 445 469
For the pillars or latches of multi-paned fields Table II should be used, if all partial areas = 240 cm.
Height above ground
The values are arranged for a wind pressure of 0,5 kN/m2. For the other wind pressures, you must multiply the determined idleness momentum with the corresponding factor.
80
9,2 11,3 13,6 16,2 19,0 22,2 25,6 30,6 36,3 42,7 49,9 58,0 67,0 77,0 88,0 100 114 128 144 162 180 201 223 247 273 301 330 362 397 433 472 514 558 605 655 707 763 822 885 951 1021 1094 1171
Tor the pillars or latches of single pane fields Table I should be used.
The indicated values are intended for the profile pre-measurement and do not replace any static measurement capable of testing.
Loading fall: Carrier standing without support on two pillars, trapezoidal or triangular load.
Support width 1 (cm)
60
8,1 9,7 12 14 15 18 21 24 27 30 34 38 42 47 52 57 63 68 75 81 88 96 103 111 120 129 138 148 159 169 181 192 204 217 230 244 258 273 289 305 321 338 356 50
7,2 8,5 10 12 14 16 18 20 23 26 29 32 36 40 44 48 53 63 69 74 81 87 94 101 109 116 125 133 142 152 161 172 182 193 205 217 229 242 255 269 283 298 239
1,1 kN/m2
0,5 kN/m2 0,8 kN/m2
Dynamic pressure q
6 7,1 8,4 9,7 11 13 15 17 19 21 24 26 29 32 36 39 43 47 51 56 60 65 70 76 82 88 94 100 107 115 122 130 138 147 155 165 174 184 194 205 216 228 239 40
0,5 kN/m2 0,8 kN/m2 1,1 kN/m2
1,0 1,6 2,2
Factor
30
4,7 5,5 6,5 7,5 8,6 9,9 11 13 14 16 18 20 22 25 27 30 33 36 39 42 46 49 53 57 62 66 71 76 81 86 92 98 104 110 117 124 131 139 146 154 163 171 180
20
3,2 3,8 4,4 5,1 5,9 6,7 7,6 8,6 9,7 11 12 14 15 17 18 20 22 24 26 28 31 33 36 38 41 44 47 51 54 58 62 66 70 74 78 83 88 93 98 103 109 114 120
180 190 200 210 220 230 240 250 260 270 280 290 300 310 320 330 340 350 360 370 380 390 400 410 420 430 440 450 460 470 480 490 500 510 520 530 540 550 560 570 580 590 600
Table II Bending f = 1/300 I
1,0 1,0 1,0
Wind Pressure coefficient pressure cp w = q â&#x20AC;˘ cp
Conversion factors
Support width 1 (cm)
Table for determining the required idleness momenta Ix erf. [cm4] for aluminum (E= 7000 kN/m2).
RGB Catalogue 13
August 2008
RGB Catalogue
14
Cross section values
(ideal inertia moments) lx id [cm4]
x
August 2 0 0 8
x'
Profile Order No.
Support width L [cm]
{acc. to ifBT directive}
150
200
250
300
400
500
600
AH275-RG4120
28,15
33,22
36,33
38,30
40,15
41,63
42,27
AH275-RG4130
30,88
36,96
40,80
43,29
46,11
47,56
48,39
AH275-RG4210
21,07
23,49
24,89
25,74
26,30
27,13
27,88
AH275-RG4215
20,67
22,92
24,21
25,00
25,86
26,41
26,52
AH275-RG4240
30,60
36,60
40,40
42,80
45,60
74,00
47,80
AH275-RG4245
32,00
38,50
42,60
45,30
48,30
49,90
50,80
RGB Catalogue
15
Nominal value for the thermal transmission coefficient Uf Fixed cross-sections Blind frames
Moveable cross-sections Blind frames/bars and sash combination
Outer view width
Outer view width
The nominal values of the thermal transmission coefficient Uf that are listed below were determined according to EN ISO 10077-2. Data in W/m2K
Fixed cross-sections. Blind frames.
Moveable cross-sections. Blind frame and sash combination. AH275-RG4210 with AE004-904285-00
AH275-RG4215 with AE004-904285-00
1.7
2.5
2.5
1.7
2.5
2.5
AH275-RG4120
AH275-RG4130
Moveable cross-sections/ moveable fixed field Bars and sash combination
Fixed cross-sections Bars
AH275-RG4210 fixed field
AH275-RG4215 fixed field
2X AH275-RG4215 with AE004-904285-00
2X AH275-RG4215 with AE004-904285-00
1.7
2.5
2.5
/
/
1.7
2.5
2.5
2.5
2.5
AH275-RG4240
AH275-RG4245
Note: The illustrated Uf values for fixed glazings were determined with an insulated insert in the area of the glass rebate of the blind frame or bar profiles on the basis of PUR rigid foam plates.
August 2008
16
RGB Catalogue
Determining the nominal values of the thermal transmission coefficient Uw from the tables of the EN ISO 10077-1: 2000 and DIN V 4108-4: 2000. Determining the nominal values of the thermal transmission coefficient LL for windows and french doors according to example 1: 1. Take the nominal value Uf from the Brรถkelmann table 1-3 according to EN ISO 10077-2. 2. Classify the nominal value Uf and determine the Uf,Bw (rated value) in table 7 according to DIN V 4108B4:2002-02. 3. Transfer Uf,Bw in table F.1 or, otherwise, F.2 in order to determine the nominal value of the thermal transmission coefficient Uw according to EN ISO 10077-1:2000 and DIN V 4108-4. 4. Determine Ug value and read nominal value Uw in table F.1 or F.2. Caution: The nominal values contained in table F.1 and F.2 for windows and french doors Uw have been determined with standard window sizes 1,23m x 1,48m and have a frame surface percentage of 30% or 20%. Uf = Thermal transmission coefficient for frames. Uw = Thermal transmission coefficient for windows. Ug = Thermal transmission coefficient for glass. Ud = Thermal transmission coefficient for doors. Example 1: Table 7- Classification of Ur values from single profiles to a rated value UfBW for frames. DIN V 4108-4:2002-02 Ur value of the frame from Brokelmann Table 1-3 according to EN ISO 10077-2 i.e. 1,94W/m2K
Ur value for single profiles W/m2K <0,90 >0,90 <1,1 >1,0 <1,3 >1,3 <1,6 >1,6 <2,0 >2,0 <2,4 >2,4 <2,8 >2,8 <3,2 >3,2 <3,6 >3,6 <4,0 >4,0
UfBw- rated value W/m2K 0,80 1 1,2 1,4 1,8 2,2 2,6 3,0 3,4 3,8 7,0
Table F.1: Thermal transmission coefficient Uw for windows with a 30% frame surface percentage on the total window surface. DIN EN ISO 10077-1:2000 Ug- glazing value based on the German Federal Bulletin or the DIN 673 standard i.e. 1,1 W/m2K
Uf W/m2K 30% frame surface percentage
Glazing type Ug W/m2K Single plated glazing Double plated isolating glazing
1,0
1,4
1,8
2,2
2,6
3,0
3,4
3,8
7,0
5,7
4,3
4,4
4,5
4,6
4,8
4,9
5,0
5,1
6,1
3,3 3,1 2,9 2,7 2,5 2,3 2,1 1,9 1,7 1,5 1,3 1,1
2,7 2,6 2,4 2,3 2,2 2,1 1,9 1,8 1,6 1,5 1,4 1,2
2,8 2,7 2,5 2,4 2,3 2,2 2,0 1,9 1,8 1,6 1,5 1,3
2,9 2,8 2,7 2,5 2,4 2,3 2,2 2,0 1,9 1,7 1,6 1,5
3,1 2,9 2,8 2,6 2,6 2,4 2,3 2,1 2,0 1,9 1,7 1,6
3,2 3,1 3,0 2,8 2,7 2,6 2,4 2,3 2,2 2,0 1,9 1,7
3,4 3,2 3,1 2,9 2,8 2,7 2,6 2,4 2,3 2,1 2,0 1,9
3,5 3,3 3,2 3,1 3,0 2,8 2,7 2,5 2,4 2,3 2,1 2,0
3,6 3,5 3,3 3,2 3,1 2,9 2,8 2,7 2,5 2,4 2,2 2,1
4,4 4,3 4,1 4,0 3,9 3,8 3,6 3,5 3,3 3,2 3,1 2,9
Uw- window value i.e. 1,5W/m2K
August 2 0 0 8
RGB Catalogue
17
Determining the nominal values of the thermal transmission coefficient for windows and French doors Uw for aluminum profiles. Table 7: Classification of Uf- values for UfBW - rated values
Table 7 - Classification of Uf- values for single profiles to a Uf,BW- rated value for frames. DIN V 4108-4:2002-02
Table F.1: For a 30% surface percentage of the frame. Table F.1: Thermal transmission coefficient Uw for windows with a 30% frame surface percentage on the total window surface. DIN EN ISO 10077-1:2000
Ur value for single profiles W/m2K <0,90 >0,90 <1,1 >1,0 <1,3 >1,3 <1,6 >1,6 <2,0 >2,0 <2,4 >2,4 <2,8 >2,8 <3,2 >3,2 <3,6 >3,6 <4,0 >4,0
Uf W/m2K 30% frame surface percentage
Glazing type Ug W/m2K Single plated glazing Double plated isolating glazing
Triple plated isolating glazing
UfBw- rated value W/m2K 0,80 1 1,2 1,4 1,8 2,2 2,6 3,0 3,4 3,8 7,0
1,0
1,4
1,8
2,2
2,6
3,0
3,4
3,8
7,0
5,7
4,3
4,4
4,5
4,6
4,8
4,9
5,0
5,1
6,1
3,3 3,1 2,9 2,7 2,5 2,3 2,1 1,9 1,7 1,5 1,3 1,1 2,3 2,1 1,9 1,7 1,5 1,3 1,1 0,9 0,7 0,5
2,7 2,6 2,4 2,3 2,2 2,1 1,9 1,8 1,6 1,5 1,4 1,2 2,0 1,9 1,7 1,6 1,5 1,4 1,2 1,1 0,9 0,8
2,8 2,7 2,5 2,4 2,3 2,2 2,0 1,9 1,8 1,6 1,5 1,3 2,1 2,0 1,8 1,7 1,6 1,5 1,3 1,2 1,1 0,9
2,9 2,8 2,7 2,5 2,4 2,3 2,2 2,0 1,9 1,7 1,6 1,5 2,2 2,1 2,0 1,8 1,7 1,6 1,5 1,3 1,2 1,0
3,1 2,9 2,8 2,6 2,6 2,4 2,3 2,1 2,0 1,9 1,7 1,6 2,4 2,2 2,1 1,9 1,9 1,7 1,6 1,4 1,3 1,2
3,2 3,1 3,0 2,8 2,7 2,6 2,4 2,3 2,2 2,0 1,9 1,7 2,5 2,4 2,3 2,1 2,0 1,9 1,7 1,6 1,5 1,3
3,4 3,2 3,1 2,9 2,8 2,7 2,6 2,4 2,3 2,1 2,0 1,9 2,7 2,5 2,4 2,2 2,1 2,0 1,9 1,7 1,6 1,4
3,5 3,3 3,2 3,1 3,0 2,8 2,7 2,5 2,4 2,3 2,1 2,0 2,8 2,6 2,5 2,4 2,3 2,1 2,0 1,8 1,7 1,6
3,6 3,5 3,3 3,2 3,1 2,9 2,8 2,7 2,5 2,4 2,2 2,1 2,9 2,8 2,6 2,5 2,4 2,2 2,1 2,0 1,8 1,7
4,4 4,3 4,1 4,0 3,9 3,8 3,6 3,5 3,3 3,2 3,1 2,9 3,7 3,6 3,4 3,3 3,2 3,1 2,9 2,8 2,6 2,5
August 2008
18
RGB Catalogue
Determining the nominal values of the thermal transmission coefficient for windows and French doors Uw for aluminum profiles. Table F0.2: For a 20% surface percentage of the frame Table F0.2: Thermal transmission coefficient Uw for windows with a frame surface percentage of 20% on the total window surface. DN EN19010077-1:2000
Uf W/m2K
Glazing type Ug W/m2K Single plated isolating glazing Double plated isolating glazing
Tri[ple plated isolating glazing
1,0
1,4
1,8
2,2
2,6
3,0
3,4
3,8
7,0
5,7
4,8
4,8
4,9
5,0
5,1
5,2
5,2
5,3
5,9
3,3 3,1 2,9 2,7 2,5 2,3 2,1 1,9 1,7 1,5 1,3 1,1 2,3 2,1 1,9 1,7 1,5 1,3 1,1 0,9 0,7 0,5
2,9 2,8 2,6 2,4 2,3 2,1 2,0 1,8 1,7 1,5 1,4 1,2 2,1 2,0 1,8 1,6 1,5 1,4 1,2 1,0 0,9 0,8
3,0 2,8 2,7 2,5 2,4 2,2 2,1 1,9 1,8 1,6 1,4 1,3 2,2 2,0 1,9 1,7 1,6 1,4 1,3 1,1 1,0 0,8
3,1 2,9 2,8 2,6 2,5 2,3 2,2 2,0 1,8 1,7 1,5 1,4 2,3 2,1 2,0 1,8 1,7 1,5 1,4 1,2 1,0 0,9
3,2 3,0 2,8 2,7 2,6 2,4 2,2 2,1 1,9 1,8 1,6 1,4 2,4 2,2 2,0 1,9 1,8 1,6 1,4 1,3 1,1 1,0
3,3 3,1 3,0 2,8 2,7 2,5 2,3 2,2 2,0 1,9 1,7 1,5 2,5 2,3 2,2 2,0 1,9 1,7 1,5 1,4 1,2 1,1
3,4 3,2 3,0 2,9 2,7 2,6 2,4 2,3 2,1 1,9 1,8 1,6 2,6 2,4 2,2 2,1 1,9 1,8 1,6 1,5 1,3 1,2
3,4 3,3 3,1 3,0 2,8 2,7 2,5 2,3 2,2 2,0 1,9 1,7 2,6 2,5 2,3 2,2 2,0 1,9 1,7 1,6 1,4 1,2
3,5 3,4 3,2 3,0 2,9 2,7 2,6 2,4 2,3 2,1 2,0 1,8 2,7 2,6 2,4 2,2 2,1 2,0 1,8 1,6 1,5 1,3
4,0 3,9 3,7 3,6 3,4 3,3 3,1 3,0 2,8 2,6 2,5 2,3 3,2 3,1 2,9 2,8 2,6 2,5 2,3 2,2 2,0 1,8
Note: The calculation for the tables F.1 and F.2 was done with *Ψ- values from Appendix E of the DIN EN ISO 10077-1:2000 for glass distance holder from aluminum and steel (rust-proof steel).
August 2 0 0 8
RGB Catalogue
19
AH275-RG4120 34
Frame profile
44
W=1.769 kg/m
5
4
Dev. anod.: 442/365* mm
ATTENTION: Control first the overhead light fittings.
10
7,5
AE001-901569-00
75,2
70,7
AE003-902046-00
AE001-901459-00
7,5
AE001-901911-00 AE001-901020-00
5
AE003-902001-01
4,5
78
AH275-RG4130 44
Frame profile
44
W=1.975kg/m
5
Dev. anod.: 482/385* mm
7,5
AE001-901589-00
75,2
70,7
AE003-902047-00
7,5
AE001-901474-00 AE001-901911-00 AE001-901020-00
88
4,5
5
AE003-902001-02
* Handling for the connected profile August 2008
RGB Catalogue
20
AH275-5075027 26,5
Frame profile
44
Dev. anod.: 475/354* mm
4
19,5
75,2
70,7
10
AE001-901002-45
AE001-901002-50 AE001-901002-51
AE001-901911-00
19,5
15,5
55
4,5
AE001-901920-00
90
* Handling for the connected profile August 2 0 0 8
W=1,734 kg/m
RGB Catalogue
21
n4 ÎŚ4
n7 ÎŚ7 Roll pin
Roll pin
AE009-905140-00
AE009-905150-00
5,2
8,3
Corner bracket Nr. AE001-901002-50 from profile AH900-TF483 Stiftening plate Nr. AE001-901911-00 for frame profiles
Corner bracket Nr. AE001-901002-45 from profile AH900- TF495
6,5
26,5 27
6,5
AE004-904285-00
17
17
4,5
4
24
28
36
75,2
85
5
12
30,2
32
AH275-RG4215
19,5 12
15,5
55 90
* Handling for the connected profile August 2008
RGB Catalogue
22
AH275-RG4210 Sash profile
56
Dev. anod.: 367/313* mm
W=1.453kg/m
39
47
43
85
56
12
8
4
17
AE001-901002-56
AE001-901002-66
12
This profile is not constantly stored
AH275-RG4215 Sash profile
56
Dev. anod.: 367/313* mm
12
AE001-901002-66
* Handling for the connected profile August 2 0 0 8
24
32
28
41
85
12
8
4
32
AE001-901002-60
W=1.449kg/m
RGB Catalogue
23
AH275-RG4240 Transom profile 34
44
Dev. anod.: 367/313* mm
W=1.895kg/m
4
4
24
10
10
AE001-901569-00
75
70,5
AE003-902046-00
AE001-901450-00
AE001-901911-00
AE001-901451-00
AE001-901920-00
AE003-902001-03
4,5
102
AH275-RG4245 Transom profile Dev. anod.: 367/313* mm 34
W=2.017kg/m
44
4
4
44
10
10
AE001-901569-00
4,5
75
70,5
AE003-902046-00
AE001-901450-00
AE001-901911-00
AE001-901451-00
AE001-901920-00
AE003-902001-03
122
* Handling for the connected profile August 2008
RGB Catalogue
24
AH900-TF469 15,9
Glass rebate for sash profiles Dev. anod.: 100 mm
W=0.097kg/m
10,7
18
AE004-904191-00
22
23,5
20
AH900-TF537 Adaptor profile for fest glazing Dev. anod.: 162 mm
W=0.358kg/m
27
22
AH900-TF464 Glazing bead Dev. anod.: 193 mm
August 2 0 0 8
W=0,325 kg/m
RGB Catalogue
25
AH900-TF538
20,6
Glazing position profile W=0.317kg/m
28,5
Dev. anod.: 157 mm
18
24
24
AE004-904930-00
AE011-903003-00
horizontally fitted towards
20
Profile is at the bottom the blocking
AE010-000004-00
Length = 100 mm Countersunk steel head screw 4,8x25 DIN 7971
24
(also as AE011-903002-00)
August 2008
RGB Catalogue
26
Frame, glazing bar and door sash profiles Installation depth 75mm
Window sashes Installation depth 85mm
A Glazing thickness
B Clearance of glazing seal, inside
C Glazing bead width
A Glazing thickness
B Clearance of glazing seal, inside
C Glazing bead width
24
AA010-007=7mm
AH900-TF464=27mm
24
AE004-904930-00=12mm
32mm
28
AA010-003=3mm
AH900-TF464=27mm
28
AE004-904920-00=8mm
32mm
75 12
A
85 B
C
12
A
B
C
AE011-903003-00 Profile is at the bottom horizontally fitted towards the blocking Length - 100 mm (also as 902 002)
ATTENTION: Theoretical nominal measurenents!
All details are based in theoretical nominal measurements. Due to the tolerances of the individual building parts, there is a possibility for deviations. If applicable, this must be taken into consideration and should be controlled by a practical trial installation for safety reasons.
August 2 0 0 8
RGB Catalogue 60
AH900-TF479
4
50
27
Corner connector profile W=1,153 kg/m
Scale: 1:2
50 12
AH900-TF483 Corner connector profile
65
W=2,881 kg/m
Scale: 1:2
50
16,4
AH900-TF495 Corner connector profile
65
W=2.285kg/m
Scale: 1:2
50
20
AH900-TF496 Corner connector profile
65
W=2,422 kg/m
Scale: 1:2
August 2008
RGB Catalogue
28
65
AH900-TF498
50
Corner connector profile
66,4
26,4
W=2,673 kg/m
Scale: 1:2
65
AH900-TF499
50
Corner connector profile
70
30
W=2,782 kg/m
Scale: 1:2
AE001-901911-00 Reinforcement plate for corner brackets
Scale: 1:2
AE001-901920-00 Reinforcement plate for T-connectors
Scale: 1:2
August 2 0 0 8
RGB Catalogue 11,5
29
AH900-TF536 T-connector profile
70,1
W=0,999 kg/m
11,5
AH900-TF649 T-connector profile
50,1
W=0,813 kg/m
13
AH900-TF650 T-connector profile
46,5
W=0,911 kg/m
19,4
August 2008
RGB Catalogue
30
7
Corner connectors
7
Roll pin AE009-905150-00
Frame profile AH275-RG4120
Roll pin AE009-905160-00
8,5
8,5
1.2
60
Corner connector Nr. AE001-901459-00 From profile AH900-TF495
20
16,4
Corner connector Nr. AE001-901911-00 For frame profiles
12 20
Corner connector Nr. AE001-901569-00 From profile AH900-TF496 7 7
7 7
Roll pin AE009-905160-00
Frame profile AH275-RG4130
Roll pin AE009-905160-00
8,5
8,5
Corner connector Nr. AE001-901474-00 From profile AH900-TF498 1.2
60
30
26,4
Stiftening plate Nr. AE001-901911-00 For frame profiles
12 20
August 2 0 0 8
Stiftening connector Nr. AE001-901589-00 From profile AH900-TF499
RGB Catalogue
31
Sash profile AH275-RG4210
Corner connector Nr. AE001-901002-66 from profile AH900-TF479
Corner connector Nr. AE001-901002-56 from profile AH900-TF483
Sash profile AH275-RG4215
Corner connector Nr. AE001-901002-66 from profile AH900-TF479
Corner connector Nr. AE001-901002-60 from profile AH900-TF499
August 2008
RGB Catalogue
32
34
44
Reinforcement plate AE001-901920-00 2x in each T-shock
40
Roll pin AE009-905150-00
25
7
b
Roll pin 4,5 AE009-905150-00
44
40
b
7
8,5 56
8,5
36
Compound Profile
Inner peels of T-connectors
Size b
AH275-RG4120
AE003-902046-00
AH275-RG4130
Outer peels of T-connectors
Size b
24mm
44mm
20.0
AE003-902026-00
AE003-902001-01
16.4
AE003-902047-00
30.0
AE003-902029-00
AE003-902001-02
26.4
AH275-RG4240
AE003-902046-00
20.0
AE003-902025-00
AE003-902001-03
12.0
AH275-RG4245
AE003-902046-00
20.0
AE003-902025-00
AE003-902001-03
12
August 2 0 0 8
RGB Catalogue
33
Accessories are shown smaller 0 10
AE011-903002-00
AE011-903003-00
Glazing position profile for fixed glazing from profile AH900-TF538
Glazing rebate for fixed glazing
AE011-903022-00
AE011-903031-00 black
Angled formed part 50x50 mm for middle sealing AE004-904285-00
Drainage insert
12
7,5
28
20
3
Gaskets AE004-904190-00
AE004-904191-00
Vulcanized corner gasket for AE004-904191-00
Outside gasket in sash from sealing AE004-904190-00
AE004-904015-00
AE004-904285-00
Stroke gasket Sash profile, inside
Central gasket See angle formed part AE011-903022-00
10
3
7
AA010-003
AA010-007
Glazing gasket inside, 3 mm
8
Glazing gasket inside, 7 mm
12
AE004-904920-00
AE004-904930-00 4
4
Glazing gasket inside, 8 mm
Glazing gasket inside and outside, 12 mm
Roll Pins 7
AE009-905150-00
7
AE009-905160-00
18
8
AE009-905140-00
13,5
4
August 2008
RGB Catalogue
34
AE004-904191-00
AH900-TF469
Ventilation in sash
AH275-RG4215
28
7,5
AE004-904015-00
Drainage
12
AE004-904285-00
20
AH275-RG4120
AE004-904930-00
AE011-903031-00 black Drainage insert AE011-903003-00 AH900-538
7,5
28
12
AH900-537
The profile section is at the bottom horizontally fitted towards the blocking
Drainage 20
AH275-RG4120
Bevel the sealing entry on the isolating strips in the drainage area
August 2 0 0 8
RGB Catalogue
35
5
2
Overview of intersection points Views from the outside
1
2
4
5
sash
8
sash
fixed
Glass size
6 5
2 5
sash
6
5
5 7
sash
3
3
fixed
5
1
7
fixed
8
sash
2
fixed
6
sash
4
3
5
6
6
sash
fixed
2
5 9
7
1
Glass size
sash
2
2
fixed
5 4
2 8
3
4
3
fixed
2
6
11
6
1
5
2
3
fixed
August 2008
RGB Catalogue
36
Section 1 Frame dimension 54 34
AH275-RG4120
Rebate dimension 20
7
Glass dimension
AH900-TF537
AE004-904930-00
Section 2
Frame dimension 64
Rebate dimension Glass dimension
7
20
AH900-TF537
AE004-904930-00
August 2 0 0 8
44
AH275-RG4130
RGB Catalogue
37
AE004-904930-00
7
AE011-903003-00
Frame dimension
Glass dimension
Rebate dimension
Section 3
AH900-TF537
54
20
AH900-TF538 The profile section is at the bottom horizontally fitted towards the blocking
34
AH275-RG4120
AE004-904930-00
5
6
AE004-904190-00
Glass dimension Rebate dimension Sash dimension Frame dimension
Section 6
AH275-RG4215
AE004-904285-00
AE004-904015-00
28
78
39
AH900-TF469
AH275-RG4120
August 2008
RGB Catalogue
38
Section 4
Frame dimension 28 39 5
Sash dimension Rebate dimension Glass dimension
AE004-904015-00
AH275-RG4215
AE004-904285-00
AH275-RG4120
AE004-904930-00
AH900-TF469 AE004-904190-00
6
78
Section 5
Frame dimension Sash dimension Rebate dimension Glass dimension
38 39 5
AH275-RG4215
AE004-904015-00
AE004-904285-00
AH275-RG4130
AE004-904930-00
AE004-904190-00
AH900-TF469
6
August 2 0 0 8
88
RGB Catalogue Section 4
39
Frame dimension Sash dimension
28 39 5
AE004-904015-00
Rebate dimension Glass dimension
AH275-RG4210
AH275-RG4120
21
AE004-904285-00
AE004-904930-00
AH900-TF469
AE004-904190-00
6
78
Frame dimension Sash dimension Rebate dimension Glass dimension
38 39 5
AE004-904015-00
AH275-RG4210
AH275-RG4130
AE004-904930-00 AE004-904285-00
Section 5
AE004-904190-00
AH900-TF469
6
88
August 2008
RGB Catalogue
40
Section 7 39
28
5
7
AE004-904015-00
Frame dimension Sash dimension Rebate dimension Glass dimension
AH275-RG4215
AH275-RG4240
AE004-904285-00
21
AE004-904930-00
AH900-TF469 AE004-904930-00
AE004-904190-00
102
Section 8 39
28
5
AH275-RG4210
Frame dimension Sash dimension Rebate dimension 7 Glass dimension
AE004-904015-00
AH275-RG4240
21
AE004-904285-00
AE004-904930-00
AE004-904190-00 AE004-904930-00
6
August 2 0 0 8
102
RGB Catalogue
41
Sash dimension Rebate dimension Glass dimension
AE004-904190-00
5
AE004-904930-00
AH900-TF469
21
39
AH275-RG4215
AE004-904285-00
122
AE004-904015-00 22
21
AH275-RG4245
39
AH275-RG4215
5
Frame dimension
Section 9
AE004-904930-00
AE004-904190-00
August 2008
RGB Catalogue
42
Section 10 54 34
7
20
7
Frame dimension Rebate dimension Glass dimension
AH900-TF537
AH275-RG4240
AE004-904930-00
102
Section 11
Frame dimension 74 7
20
AH900-TF537
34
AH275-RG4245
Rebate dimension 20
7
Glass dimension
AH900-TF537
AE004-904930-00
122
August 2 0 0 8
BALKAN NETWORK GREECE - BALKAN SA www.balkan.gr Head Office: Athens 11th km Nat.Road Athens-Lamia, 144 52 Metamorphosi Tel.: +30 210 2810 030, Fax: +30 210 2845 025 e-mail: info@balkan.gr
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