64 H 128 101 Ø5 min 11.5 X Y SERVO-DRIVE Ø 10 63 H 124 91.5 11 11 X Y SERVO-DRIVE Ø 10 3 2 1 min 22 B A min 264 30 KH 66 30 SERVO DRIVE min LH C Y FH X max FD KH FHu FHo Fo Z FAu min 31 + FAu Fm KH = FHo x 2 + Fo + Fm + Fu FHo FHu Fo Fm Fu FHu Fu FHo FHu Fm TKH = FHo x 2 + Fo + Fm + Fu FHo FHu Fo Fm Fu FHu Fu FHo FHu Fm 28 1 〉 Lift systems 〉 AVENTOS HF top – bi-fold lift system 〉 Standard | SERVO-DRIVE Catalogue 2024/2025 Narrow alu frames Web code – Click on the code or enter it in the Product Configurator DQDYAP Planning Symmetrical | Asymmetrical Drilling position – System screws Cabinet height KH (mm) H (mm) X (mm) Y (mm) 480 – 519 93.5 38.5 102 520 –1200 116 38.5 124 Drilling position – Chipboard screws Cabinet height KH (mm) H (mm) X (mm) Y (mm) 480 – 519 93 38.5 102 520 –1200 115.5 38.5 124 4 x chipboard screws Ø 4 x 35 mm Positioning system – Chipboard screws Cabinet height KH (mm) 520 –1200 Space requirement Lever arm set LH min. (mm) 22F3200 443 22F3500 512 22F3900 632 KH (mm) A (mm) B (mm) C min. (mm) 480 – 519 66.5 171.5 172 520 –1200 89.0 194.0 195 KH Cabinet height LH Internal cabinet height X max. = FH x 0.9 + FD x 1.5 + 35 Opening angle stop Y (mm) 116° FH x 0.44 + 38 107° FH x 0.29 + 35 97° FH x 0.12 + 31 88° 28 81° 0 FH Front height FD Front thickness Front assembly Cabinet height KH (mm) Z (mm) 480 – 549 188 520 –1200 207 Fo Top gap Fm Middle gap FAu Bot tom front overlay FHo Upper front height FHu Lower front height Front – Symmetrical Fo Top gap Fm Middle gap Fu Bot tom gap FHo Upper front height FHu Lower front height KH Cabinet height Front – Asymmetrical Fo Top gap Fm Middle gap Fu Bot tom gap FHo Upper front height FHu Lower front height TKH Theoretical cabinet height 1
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