LOCK BEWEGT // LOCK MOVES

PASSION TRUST RESPONSIBILITY SUCCESS.

Applications Systems Power drives LockLogic® Couplings Control units Manual drives Rack & pinion units Gear units Accessories Service Information / prices

2023 | 11 Product matrix Manual drives Rack & pinion units LockLogic® Couplings Systems Power drives Accessories Gear units Control units KGO 31 KGO 32 HZW 55 HZW 53 HZW 45 HZW 60 HWA 40 HWA 42 HWA 53 HKG 06 ZSG 15 ZSG 20 AZD 05 EZD 51 EZD 52 LZG 24 LZG 20 SZG 35 TurboLogic ESS 40 GKT 01 GKT 06 GKN 01 + 04 GKA 01 + 06 WRA 50 WRA 63 SKS 66 SKS 68 KKS 10 + 14 KKS 11 + 15 BKS 45 GKT 04 VariVent® TF Diabolo VariVent® TF Zentralrohr VariVent® BF VariVent® BC VariVent® TC EazyVent® VariVent® Twin VariVent® TF Zugseil EWA 14 EWA 16 PAR 06 PAR 10 EZW 64 RMA 20 EWA 12 ALD 11 + 15 ELD 12 + 16 MPL 22 MPL 32 MPL 42 MPL 46 MPL 56 MPL 58 ATR 06 STR 12 STR 22 KLG 35 STR 41 + 43 STR 45 WRZ 01 WRZ 02 WRZ 10 WRZ 30 ARV 60 HKU 01 HKU 02 LUB 20 + 50 LUB 73 WRO 22 WRV 50 KRG 23 VRE 30 VRE 20 VRE 26 VRE 73 + 75 VRE 76 USG 10 USG 15 SGS 80 LSC 40.10: LPR 02, LPR 04 EWA 50 NEW LSR 25 WST 15 RST 65 EHS 01 EHS 02 TST 10 + 14 TST 20 LSR 35 EazyPower SpeedLogic EWA 52 NEW

2023 | 06

1 Applications

CHAPTER 01 – APPLICATIONS CONTENTS 1 Applications Overview of ventilation systems 2 Continous system (line) Roof ventilation 6 Side ventilation 8 Group ventilation 12 Push-rod system (surface) Rail ventilation 14 Cable system Venlo screening 28 Wide-span screening 30 Rack system Venlo screening 32 Roller screen systems Single, twin roll screening 34

LOCK BEWEGT // LOCK MOVES 2 Ventilation types CHAPTER 01 – APPLICATIONS 2023 | 06 Butterfly ventilation > On industrial premises, buildings, sheds, greenhouses and similar constructions, one drive system can open up continuous ventilation down either side of the roof. > With side ventilation, one drive unit opens a full-length raising-lowering ventilation system or one ventilation flap. > Here you will find the ZSG, AZD and EZD ranges of rack & pinion units in operation. Open-Roof ventilation > Entire roof can be opened (Open-Roof type C), see page 4. > With roof ventilation, a drive system opens full-length ventilation flaps down both sides of the roof. The drive unit powers several reversing gear units. > With side ventilation, one drive opens full-length raising-lowering ventilation or a ventilation flap. > These are typical applications for the ZSG, AZD and EZD ranges of rack drives. Multitunnel ventilation > With roof ventilation, one drive system opens a full-length ventilation flap. > These are typical applications for the ZSG, AZD and EZD ranges of rack drives. > By linking up reversible gear units in series, several tunnels (‘multitunnels‘) can be operated. Here we illustrate different types of ventilation, of the kind found on buildings, animal sheds or greenhouses. Ventilation types for continous system

CHAPTER 01 – APPLICATIONS Ventilation types 3 2023 | 06 Ventilation types for Venlo greenhouses Flaps ventilation > Here one drive unit on each side of the roof opens several individual ventilation flaps down the primary longitudinal roof beam, as well as flaps in the adjacent sections. > This is where you will find the LZG range of gear units in operation, in rail ventilation applications, and the UBL range at work in swing ventilation applications. Open-Roof ventilation > Type A as an continous system with central ventilation tube under the primary roof ridge: this is where the ZSG, AZD and EZD ranges of rack drives are used. > Type B with push-rod system: this is where the LZG / UBL ranges of rack & pinion unit are used. > Please note our notes for Open-Roof ventilation systems, see page 4. Full-length ventilation > On each side of the roof, a ventilation flap opens along the line of the primary roof ridge. A drive system opens several flaps on adjacent sections of the greenhouse. > Here, systems are used with in top of the other as well as adjacent parallel push-rod systems with LZG / UBL rack & pinion units. On this page, we illustrate special-purpose ventilation systems that are used for the Venlo design of Dutch greenhouse.

LOCK BEWEGT // LOCK MOVES 4 Ventilation types CHAPTER 01 – APPLICATIONS 2023 | 06 With Open-Roof systems, the roof can be opened almost completely to assure maximum ventilation. With our versatile selection of options for drive units and rack & pinion units, we are able to provide a solution to all Open-Roof variants. The mechanism can be an continous system (Types A + C) or a push-rod system (Type B). The distinguishing features of the three most commonly used type of Open-Roof ventilation system (Types A – C) are itemized below: Example of Open-Roof ventilation with Type A Type B Type C Open-Roof ventilation – Type A as continous system > Drive provided by a ventilation shaft centrally arranged under primary roof ridge. > Both sides of roof are moved simultaneously by one drive unit. > EWA power drives are used with 1–9 rpm. > In conjunction with the ZSG, AZD and EZD ranges of rack & pinion units, optimum closing times can be achieved. Open-Roof ventilation – Type B as push-rod system > Drive delivered by a push-rod system arranged on the rail mountings (see Fig. on p. 18). > Each side of the roof is moved by its own drive unit. > The drive units employed are our high-speed EWA power drives, our tried and tested SpeedLogic or our TurboLogic systems. > In conjunction with the LZG / UBL ranges of rack & pinion units, optimum closing speeds can be achieved. Open-Roof ventilation – Type C as continous system > Arrangement of full-length ventilation flaps, same principle as on wide-span greenhouses. > The EWA power drive operating at 1–9 rpm is used here. In conjunction with our ZSG, AZD and EZD ranges of rack & pinion units, you obtain an optimum ventilation system. > With our reversing gear units, several ventilation flaps can also be grouped together to form a system. Type A Ventilation types for Open-Roof systems

CHAPTER 01 – APPLICATIONS Techsoft 5 2023 | 06

LOCK BEWEGT // LOCK MOVES 6 Continous system CHAPTER 01 – APPLICATIONS 2023 | 06 Continous system for roof ventilation > Continous system for roof ventilation with ZSG gear unit. > Continous roof ventilation system with AZD gear unit. Ventilation flaps arranged in a line can be operated by a single drive unit. One or more racks are connected to the drive unit by a connecting shaft, a 1“ tube compliant with DIN EN 10255. The racks pivot with the flap. > Up to 600 Nm of drive power can be fed into the system. > Strokes of up to 1800 mm and loadings of up to 2500 N per continous rack, with longer strokes or higher loads available on request. > Integrated swivel bearing with the ZSG range, with gear units mounted directly to the roof construction. The connecting shaft is guided through the gear unit. > External swivel bearing on the AZD / EZD ranges. Alternatively with scissor gear unit SGS. For use when rack cannot be located in room, and for low load ratings (e.g. conservatories). > Take a look at the video animation on our website.

CHAPTER 01 – APPLICATIONS Continous system 7 2023 | 06 Bearings KLG 35 Drive tube (on building) 1“, 33,7 x 3,25 mm / DIN EN 10255 Chain coupling KKS 10 Rack AZZ Bush coupling BKS 45 Mounting plate MPL 22 Rack ZSZ Bush coupling BKS 35 Cover panel SGZ 80.98 Continous system with SGS scissor gear unit Gear unit ZSG 15/ZSG 20 1200 N/2500 N Gear unit AZD 05 700 N Power drive EWA 50–600 Nm Scissor gear unit SGS 80 200 N Power drive EWA 50–600 Nm Drive shaft ø 22 mm L = 3000 mm Bearings SGZ 80.93 Tube connector ARV 60

LOCK BEWEGT // LOCK MOVES 8 Continous system CHAPTER 01 – APPLICATIONS 2023 | 06 Continous system for side ventilation > Continous system side ventilation with AZD gear unit, curved rack. > Continous system side ventilation with AZD gear unit, straight rack. Ventilation flaps arranged in a line can be operated by a single drive unit. One or more racks are connected by the drive unit to a 1“ tubular connection shaft compliant with DIN EN 10255. The racks pivot with the flap. > Up to 600 Nm of input power can be introduced to the system. > Strokes of up to 1800 mm and load ratings of up to 700 N per continous rack, with longer strokes or higher load ratings available on request. > External swivel bearing on the AZD / EZD product ranges. Alternatively with scissor gear unit SGS. For use when rack cannot be located in room, and for low load ratings (e.g. conservatories). > Take a look at the video animation on our website.

CHAPTER 01 – APPLICATIONS Continous system 9 2023 | 06 Reversing gear unit KGO 32 150 Nm Manual drive HWA 53 40–160 Nm Rack AZZ Gear unit AZD 05 700 N Drive tube 1“, 33,7 x 3,25 mm DIN EN 10255 Scissor gear unit SGS 80 200 N Bush coupling BKS 35 Bearings SGS 35 200 N Cover profile SGZ 80.98 Tube connector ARV 60 Drive shaft ø 22 mm L = 3000 mm Continous system with SGS scissor gear unit Bearings ALD/ELD Alternative: Manual chain drive HKG 06 60 Nm Power drive EWA 50–600 Nm

LOCK BEWEGT // LOCK MOVES 10 Continous system CHAPTER 01 – APPLICATIONS 2023 | 06 Continous system for side ventilation > Continous system side ventilation with lowering flaps. Ventilation systems with lowering flaps or tarpaulin can be operated with one drive unit. An EWA power drive or an HWA manual drive can be used. > Actuation using EWA power drive or HWA manual drive. If ventilation shafts are located higher (HL > 1.50 m), with HKG manual chain drive. > With STR cable drums or pulleys. > Continous system side ventilation with lowering tarpaulin. > Take a look at the video animation on our website.

CHAPTER 01 – APPLICATIONS Continous system 11 2023 | 06 Manfred Bausch // Engineering “We offer you a complete drive solution for a vast array of requirements, e.g. we can bend racks for ventilation flaps individually to suit your wishes to prevent them from interfering when in closed position. With a CAD program, we can simulate the entire linear characteristics of the interference contour.”

LOCK BEWEGT // LOCK MOVES 12 Continous system CHAPTER 01 – APPLICATIONS 2023 | 06 > Continous system group ventilation, several individual ventilation systems are grouped together with reversing gear units to form a unit with one power drive. To ventilate multi-section greenhouses with EWA power drive and AZD / EZD racks. The KGO gear unit assures continuous connection of individual ventilation systems. Can be used in up to five sections of a greenhouse. Up to 600 Nm of input power can be introduced to the system, i.e. up to 150 Nm per section. > Strokes of up to 1800 mm and loadings of up to 700 N per continous rack, with longer strokes or higher loads available on request. > External swivel bearing with product ranges AZD / EZD, and the gear units are located close to the roof structure. They are held in position on the building by external bearings on the connecting shaft. Continous system group ventilation

CHAPTER 01 – APPLICATIONS Continous system 13 KKS 10 KGO 32 1“ (33,7 x 3,25 mm, DIN EN 10255) AZD 05 KGO 32 EWA 2023 | 06 Chain coupling KKS 10 Power drive EWA 350–600 Nm Reversing gear unit KGO 32 150 Nm Bearings ALD 11/ELD 12 Rack AZZ Gear unit AZD 05 700 N Reversing gear unit KGO 32 150 Nm Drive tube 1“, DIN EN 10255

LOCK BEWEGT // LOCK MOVES 14 Push-Rod System CHAPTER 01 – APPLICATIONS 2023 | 06 Push-rod system for rail ventilation Rail mounting configuration Ventilation flaps arranged across a surface area (several individual or one continuous flap) can be operated by one drive unit on each side. On the rail mountings, LZG gear units are connected to the drive unit by means of a connecting shaft (1 1/4“ tube – 2“ tube DIN EN 10255). The racks move the pull-push rod along the rail mounting and the flap push bar are located on this rod. It is these push bar that actuate the flaps. > Up to 40 flaps down the length of each rail mounting, depending on flaps weight. > Up to 1500 Nm of drive power can be fed into the system. > Load ratings of up to 16000 N per rack unit, and longer strokes or higher load ratings available on request. > LZG gear units with various rack heights (Hzd). > Rail ventilation with EWA power drive and LZG located on the rail mounting.

CHAPTER 01 – APPLICATIONS Push-Rod System 15 LZG 20 LZG 24 2023 | 06 Gear unit LZG 20 /LZG 24 5500–16000 N Rack LZZ Welded coupling SKS 66/SKS 68 Chain coupling KKS 10 Bolt M6 Power drive EWA 50 –1500 Nm Drive tube (on building) 42,4 x 4,05 / 2,65 mm 1 1/4“, DIN EN 10255 60,3 x 3,65 mm, 2“, DIN EN 10255

LOCK BEWEGT // LOCK MOVES 16 Push-Rod System CHAPTER 01 – APPLICATIONS 2023 | 06 Push-rod system for rail ventilation Support mounting Ventilation flaps arranged across a surface area (several individual or one continuous flaps) can be operated by one drive unit on each side. On the rail mountings, LZG gear units are connected to the drive unit by means of a connecting shaft (1 1/4“ tube – 2“ tube DIN EN 10255). These racks move the pull-push rod along the length of the rail mounting to which the push bar on the flap are located. It is these push bar that actuate the flaps. > Up to 40 flaps down the length of each rail mounting, depending on flaps weight. > Up to 1500 Nm of drive power can be fed into the system. > Load ratings of up to 16000 N per rack unit, and longer strokes or higher load ratings available on request. > Available for all commonly used support dimensions and assembly kits. > LZG gear unit with various rack strokes (Hzd). > Rail ventilation with EWA power drive and LZG mounted on support.

CHAPTER 01 – APPLICATIONS Push-Rod System 17 LZG 20 LZG 24 2023 | 06 Chain coupling KKS 11 Gear unit LZG 20 / LZG 24 5500–16000 N Welded coupling SKS 66 / SKS 68 Drive tube (on building) 42,4 x 4,05 / 2,65 mm 1 1/4“, DIN EN 10255 60,3 x 3,65 mm, 2“, DIN EN 10255 max. 6° Power drive EWA 50 –1500 Nm Rack LZZ Clamping kit Bolt M6

LOCK BEWEGT // LOCK MOVES 18 Rail Ventilation CHAPTER 01 – APPLICATIONS 2023 | 06

CHAPTER 01 – APPLICATIONS Rail Ventilation 19 2023 | 06 General notes The following tables contain a sub-set of the roof systems available on the market. If you are unable on our tables to find the ventilation flaps or system dimensions you are planning to use in your project, we will be pleased to help you work out which types of LZG and EWA you require for an optimum drive system configuration. In our applications table, you can establish whether your project needs our LZG 20 with 5500 N or 10000 N, or even the LZG 24 with 13000 N and 16000 N. The torque required for the LZG is based on the linear load rating of the rack. Loadings applied by push bars are not taken into account here, and must be dissipated by the rail mounting on the building structure. The figures in these tables are non-binding. STANDARDS The table calculations are based on the German greenhouse standard DIN EN 13031-1 : 2003-09 greenhouse dimensions and construction - part 1: Culture greenhouses. This was based on the German edition EN 13031 – 1 : 2001. BASICS These tables can be used for projects involving the following dimensions: > Greenhouse widths (flap width) of 3.20 to 4.80 m. > The roof angle  is 22°– 25°. > The glass thickness is 4 mm (10 kg/m2). > The ‘gutter height‘ up to top edge of rail mounting (Tr) is 150 –180 mm. > The rack height (Hzd) may be 11–60 mm. > Calculation of the required stroke H presupposes that the opening angle of the window flaps is twice as large as the angle of roof inclination. > An LZG needs approx. 70 Nm of input torque at a load of 10000 N. INSECT PROTECTION For applications with insect protection, the details for ventilation flaps reduce due to their increased weight. With insect protection weighing 1800 g per linear metre, the value for the flaps must be reduced as follows: > With panel width of 3.20 m – 25 % > For all other panel widths – 20 % Note: > We are always delighted to advise you on configuration questions. Selection tables for rail ventilation dr br ar Bop Dach Bn Hn Hop Tr Hdp Hzd Rs Roof

LOCK BEWEGT // LOCK MOVES 20 Rail Ventilation CHAPTER 01 – APPLICATIONS 2023 | 06 Rail ventilation flap width 3.20 m Individual pane widths br = 1000–1500 m Flap Number of flaps per LZG (line) Number of flaps per EWA (surface) Panes Number [units] Pane dimensions [mm] LZG (N) rack & pinion unit EWA power drives (Nm) ar br dr 5 500 10 000 13 000 16 000 50 90 150 250 350 450 600 900 1200 1500 2 x 1000 x 825 34 40 – – 45 81 135 225 315 405 540 810 1080 1350 3 x 1000 x 825 23 38 40 – 30 54 90 150 210 270 360 540 720 900 4 x 1000 x 825 17 31 40 – 23 41 68 113 158 203 270 405 540 675 2 x 1000 x 1000 25 38 40 – 33 59 99 164 230 296 394 591 788 985 3 x 1000 x 1000 17 30 39 – 22 39 66 109 153 197 262 393 524 655 4 x 1000 x 1000 12 23 30 37 16 30 49 82 115 148 197 296 394 493 2 x 1125 x 825 30 40 – – 40 72 120 200 281 361 481 722 962 1203 3 x 1125 x 825 20 37 40 – 27 48 80 134187241321482642 803 4 x 1125 x 825 15 28 36 – 20 36 60 100140180240360480 600 2 x 1125 x 1000 22 38 40 – 29 53 88 146204263350525700 875 3 x 1125 x 1000 15 27 35 – 19 35 58 97136175233350466 583 4 x 1125 x 1000 11 20 26 32 15 26 44 73102131175263350 438 2 x 1250 x 825 28 38 40 – 37 67 112 187 262 337 449 674 898 1123 3 x 1250 x 825 19 34 40 – 25 45 75 125174224299449598 748 4 x 1250 x 825 14 26 34 – 19 34 56 93131168224336448 560 2 x 1250 x 1000 21 38 40 – 27 49 82 137192247329494658 823 3 x 1250 x 1000 14 25 33 40 18 33 55 92128165220330440 550 4 x 1250 x 1000 10 19 25 30 14 25 41 68 96123164246328 410 2 x 1500 x 825 23 38 40 – 31 55 92 153 214 275 366 549 732 915 3 x 1500 x 825 15 28 36 – 20 36 61 101 142 182 243 365 486 608 2 x 1500 x 1000 17 31 40 – 22 40 67 111 156 200 267 401 534 668 3 x 1500 x 1000 11 20 26 32152745 74104134178267356445 The number of flaps in the tables is only intended as a guide. This number depends on assembly, mounting, current values etc. Instructions: After choosing a pane dimension, you determine the maximum number of flaps per LZG rack. Then, based on the drive torque of the EWA power drive, you calculate the total number of possible flaps. > Glass 4 mm > Roof angle a = 22°–25° > Gutter height Tr = 150–180 mm > Gable height, roof height HG = 820–850 mm > Rack stroke = 650–670 mm > Revolutions = 19.7–20.3 (PAR 06, Chapter 3 )

CHAPTER 01 – APPLICATIONS Rail Ventilation 21 2023 | 06 Rail ventilation flap width 4 m Individual pane widths br = 1000–1670 m Flap Number of flaps per LZG (line) Number of flaps per EWA (surface) Panes Number [units] Pane dimensions [mm] LZG (N) rack & pinion unit EWA power drives (Nm) ar br dr 5 500 10 000 13 000 16 000 50 90 150 250 350 450 600 900 1200 1500 4 x 1000 x 1000 14 25 32 – 193356 93130167223335446558 2 x 1000 x 1200 20 30 39 – 27 49 82 137 192 247 329 494 658 823 3 x 1000 x 1200 13 25 32 39 183355 92128165220330440550 4 x 1000 x 1200 10 18 23 28 14 25 41 68 96123164246328410 4 x 1125 x 1000 12 22 28 34 163049 82115148197296394493 2 x 1125 x 1200 18 30 39 – 24 44 73 122 170 219 292 438 584 730 3 x 1125 x 1200 12 22 28 34 162949 81113146194291388485 4 x 1125 x 1200 9 16 21 26 12 22 37 61 85110146219292365 4 x 1250 x 1000 11 20 26 32 152745 75104134179269358448 2 x 1250 x 1200 16 30 39 – 22 39 66 109 153 197 262 393 524 655 3 x 1250 x 1200 11 20 26 32 152644 73102131175263350438 4 x 1250 x 1200 8 15 20 25 11 20 33 55 76 98131197262328 2 x 1250 x 1400 12 23 34 – 173151 85119153204306408510 3 x 1250 x 1400 8 15 22 27 11 20 34 56 79101135203270338 4 x 1250 x 1400 6 11 14 17 9 15 26 43 60 77102153204255 3 x 1500 x 1000 12 22 28 34 17 30 50 83 117 150 200 300 400 500 2 x 1500 x 1200 13 25 32 39 18 33 55 92 129 166 221 332 442 553 3 x 1500 x 1200 9 16 21 26 12223761 86110147221294368 2 x 1500 x 1400 10 19 25 31 14254270 99127169254338423 3 x 1500 x 1400 7 12 16 20 9 17 28 47 65 84112168224280 1 x 1600 x 1400 20 30 39 – 27 48 80 133 186 239 319 479 638 798 2 x 1600 x 1400 10 18 23 28 13 24 40 67 93120160240320400 3 x 1600 x 1400 6 12 16 20 9 16 27 44 62 80106159212265 1 x 1600 x 1500 17 30 39 – 23 42 70 117 163 210 280 420 560 700 2 x 1600 x 1500 8 16 21 26 12 21 35 58 82105140210280350 3 x 1600 x 1500 5 10 13 16 8 14 23 39 54 70 93140186233 1 x 1670 x 1400 18 30 39 – 21 38 64 106 149 191 255 383 510 638 2 x 1670 x 1400 9 17 22 27 11 19 32 53 75 96128192256320 1 x 1670 x 1500 16 30 39 – 193456 94131169225338450563 2 x 1670 x 1500 8 15 19 23 9 17 28 47 66 85113170226283 > Glass 4 mm > Roof angle a = 22°–25° > Gutter height Tr = 150–180 mm > Gable height, roof height HG = 980–1010 mm > Rack stroke = 780–800 mm > Revolutions = 23,6–24,2 (PAR 06, Chapter 3 ) Instructions: After choosing a pane dimension, you determine the maximum number of flaps per LZG rack. Then, based on the drive torque of the EWA power drive, you calculate the total number of possible flaps. The number of flaps in the tables is only intended as a guide. This number depends on assembly, mounting, current values etc.

LOCK BEWEGT // LOCK MOVES 22 Rail Ventilation CHAPTER 01 – APPLICATIONS 2023 | 06 Flap Number of flaps per LZG (line) Number of flaps per EWA (surface) Panes Number [units] Pane dimensions [mm] LZG (N) rack & pinion unit EWA power drives (Nm) ar br dr 5 500 10 000 13 000 16 000 50 90 150 250 350 450 600 900 1200 1500 4 x 1000 x 1000 14 26 34 – 193558 96134173230345460575 2 x 1000 x 1200 21 38 40 – 28 51 85 141 197 254 338 507 676 845 3 x 1000 x 1200 14 25 32 39 193457 94132170226339452565 4 x 1000 x 1200 10 19 25 31 14 25 42 70 99127169254338423 2 x 1000 x 1400 16 28 36 – 22 39 66 109 153 197 262 393 524 655 3 x 1000 x 1400 11 20 26 32 152644 73102131175263350438 4 x 1000 x 1400 8 15 19 23 11 20 33 55 76 98131197262328 4 x 1125 x 1000 13 23 30 37 173152 86121155207311414518 2 x 1125 x 1200 19 28 36 – 25 45 76 126 177 227 303 455 606 758 3 x 1125 x 1200 12 23 30 37 173051 84118152202303404505 4 x 1125 x 1200 9 17 22 27 13 23 38 63 88113151227302378 2 x 1125 x 1400 14 26 34 – 193558 97136175233350466583 3 x 1125 x 1400 9 17 22 27 13 23 39 65 91117156234312390 4 x 1125 x 1400 7 13 17 21 10 17 29 48 68 87116174232290 4 x 1250 x 1000 11 21 27 33 162847 78109140186279372465 2 x 1250 x 1200 17 28 36 – 23 41 69 114 160 206 274 411 548 685 3 x 1250 x 1200 11 20 26 32 152746 76106137182273364455 4 x 1250 x 1200 8 15 20 25 11 21 34 57 80103137206274343 2 x 1250 x 1400 13 24 36 – 183253 88123158210315420525 3 x 1250 x 1400 8 16 21 26 12 21 35 58 82105140210280350 4 x 1250 x 1400 6 12 16 20 9 16 26 44 61 79105158210263 2 x 1250 x 1400 12 22 29 36 173050 83116149198297396495 3 x 1250 x 1400 8 15 20 25 11 20 33 55 77 99132198264330 4 x 1250 x 1400 6 11 14 17 8 15 25 41 58 74 99149198248 Rail ventilation flap width 4.27 m Individual pane widths br = 1000–1250 mm > Table Part 1 of 2 > Glass 4 mm > Roof angle a = 22°–25° > Gutter height Tr = 150–180 mm > Gable height, roof height HG = 1040–1070 mm > Rack stroke = 830–850 mm > Revolutions = 25.2–25.8 (PAR 06, Chapter 3 ) Instructions: After choosing a pane dimension, you determine the maximum number of flaps per LZG rack. Then, based on the drive torque of the EWA power drive, you calculate the total number of possible flaps.

CHAPTER 01 – APPLICATIONS Rail Ventilation 23 2023 | 06 Rail ventilation flap width 4.27 m Individual pane widths br = 1500–1670 mm The number of flaps in the tables is only intended as a guide. This number depends on assembly, mounting, current values etc. Flap Number of flaps per LZG (line) Number of flaps per EWA (surface) Panes Number [units] Pane dimensions [mm] LZG (N) rack & pinion unit EWA power drives (Nm) ar br dr 5 500 10 000 13 000 16 000 50 90 150 250 350 450 600 900 1200 1500 2 x 1500 x 1200 14 26 24 30 19 34 57 95 132 170 227 341 454 568 3 x 1500 x 1200 9 17 22 2713233863 88113151227302378 2 x 1500 x 1400 11 20 26 32 15 27 45 74 104 134 178 267 356 445 3 x 1500 x 1400 7 13 17 2110183049 6989118177236295 2 x 1600 x 1200 13 24 31 38183354 90127163217326434543 3 x 1600 x 1200 9 16 21 26 12 22 36 60 84108144216288360 1 x 1600 x 1400 20 28 36 – 27 49 82 137 191 246 328 492 656 820 2 x 1600 x 1400 10 18 23 28 14 25 41 68 96123164246328410 3 x 1600 x 1400 6 12 16 20 9 16 27 45 64 82109164218273 1 x 1600 x 1500 18 28 36 44 24 44 73 122 171 220 293 440 586 733 2 x 1600 x 1500 9 16 21 26 12 22 37 61 86110147221294368 3 x 1600 x 1500 6 11 14 17 8 15 24 40 57 73 97146194243 1 x 1670 x 1400 19 28 36 – 26 47 79 131 184 236 315 473 630 788 2 x 1670 x 1400 9 18 23 28 13 24 39 65 92118157236314393 3 x 1670 x 1400 6 12 16 20 9 16 26 44 61 79105158210263 1 x 1670 x 1500 17 28 36 – 23 42 70 117 163 210 280 420 560 700 2 x 1670 x 1500 8 16 21 26 12 21 35 58 82105140210280350 3 x 1670 x 1500 5 10 13 16 8 14 23 39 54 7093140186233 > Table Part 2 of 2

LOCK BEWEGT // LOCK MOVES 24 Rail Ventilation CHAPTER 01 – APPLICATIONS 2023 | 06 Rail ventilation flap width 4.80 m Individual pane widths br = 1000–1250 mm Flap Number of flaps per LZG (line) Number of flaps per EWA (surface) Panes Number [units] Pane dimensions [mm] LZG (N) rack & pinion unit EWA power drives (Nm) ar br dr 5 500 10 000 13 000 16 000 50 90 150 250 350 450 600 900 1200 1500 2 x 1000 x 1200 22 40 40 – 30 55 91 152 213 274 365 548 730 913 3 x 1000 x 1200 15 25 32 39 20 36 61 101 142 182 243 365 486 608 4 x 1000 x 1200 11 20 26 32 152746 76106137182273364455 2 x 1000 x 1400 17 30 32 39 24 42 71 118 165 212 283 425 566 708 3 x 1000 x 1400 11 21 27 33 162847 78110141188282376470 4 x 1000 x 1400 8 16 21 26 12 21 35 59 82 106 141 212 282 353 4 x 1125 x 1000 13 25 32 39 183355 91128164219329438548 2 x 1125 x 1200 20 36 40 – 27 49 82 136 191 245 327 491 654 818 3 x 1125 x 1200 13 24 31 38 183354 90127163217326434543 4 x 1125 x 1200 10 18 23 28 14 24 41 68 95122163245326408 2 x 1125 x 1400 15 25 32 39 21 38 63 105 146 188 251 377 502 628 3 x 1125 x 1400 10 19 25 31 14 25 42 70 97125167251334418 4 x 1125 x 1400 7 14 18 22 10 19 31 52 73 94 125 188 250 313 4 x 1250 x 1000 12 22 28 34 163049 82115148197296394493 2 x 1250 x 1200 18 32 40 – 25 44 74 123 172 221 294 441 588 735 3 x 1250 x 1200 12 22 28 34 163049 82115148197296394493 4 x 1250 x 1200 9 16 21 26 12 22 37 61 86 110 147 221 294 368 2 x 1250 x 1400 14 25 32 39 193457 95132170227341454568 3 x 1250 x 1400 9 17 22 27 13 23 38 63 88 113 151 227 302 378 4 x 1250 x 1400 7 13 17 21 9 17 28 47 66 85 113 170 226 283 2 x 1250 x 1500 12 23 30 37 173050 84117151201302402503 3 x 1250 x 1500 8 15 20 25 11 20 34 56 78 101 134 201 268 335 4 x 1250 x 1500 6 11 15 18 8 15 25 42 58 75 100 150 200 250 > Glass 4 mm > Roof inclined angle a = 22°–25° > Gutter height Tr = 150–180 mm > Gable height, roof height HG = 1000–1020 mm > Lifting rack = 1000–1020 mm > Revolutions = 30.3–30.9 (PAR 06, Chapter 3 ) Instructions: After choosing a pane dimension, you determine the maximum number of flaps per LZG rack. Then, based on the drive torque of the EWA power drive, you calculate the total number of possible flaps. > Table Part 1 of 2

CHAPTER 01 – APPLICATIONS Rail Ventilation 25 2023 | 06 Rail ventilation flap width 4.80 m Individual pane widths br = 1500–1670 mm The number of flaps in the tables is only intended as a guide. This number depends on assembly, mounting, current values etc. Flap Number of flaps per LZG (line) Number of flaps per EWA (surface) Panes Number [units] Pane dimensions [mm] LZG (N) rack & pinion unit EWA power drives (Nm) ar br dr 5 500 10 000 13 000 16 000 50 90 150 250 350 450 600 900 1200 1500 2 x 1500 x 1200 15 25 32 39 21 37 62 103 145 186 248 372 496 620 3 x 1500 x 1200 10 18 23 28 14 25 41 68 96123164246328410 2 x 1500 x 1400 11 21 27 33 162847 78110141188282376470 3 x 1500 x 1400 7 14 18 22 10 19 31 52 73 94125188250313 2 x 1500 x 1500 10 19 25 31 14 25 42 70 99127169254338423 3 x 1500 x 1500 7 12 16 20 9 17 28 47 65 84112168224280 2 x 1600 x 1200 19 34 40 – 26 47 78 129 181 233 310 465 620 775 3 x 1600 x 1200 13 23 30 37 173152 86121155207311414518 2 x 1600 x 1400 14 25 32 39 193558 97135174232348464580 3 x 1600 x 1400 9 17 22 27 13 23 39 64 90116154231308385 2 x 1600 x 1400 11 20 26 32 152745 74104134178267356445 3 x 1600 x 1500 7 13 17 21 10 18 30 49 69 89118177236295 1 x 1600 x 1500 19 34 40 – 26 47 79 131 184 236 315 473 630 788 2 x 1600 x 1500 9 18 23 28 13 24 39 65 92118157236314393 3 x 1600 x 1500 6 12 16 20 9 16 26 44 61 79105158210263 1 x 1670 x 1400 21 38 40 – 28 51 84 140 197 253 337 506 674 843 2 x 1670 x 1400 10 19 25 31 14 25 42 70 99127169254338423 3 x 1670 x 1400 7 12 16 20 9 17 28 47 65 84112168224280 1 x 1670 x 1500 18 32 40 – 25 45 76 126 176 227 302 453 604 755 2 x 1670 x 1500 9 17 22 27 13 23 38 63 88113151227302378 3 x 1670 x 1500 6 11 14 17 8 15 25 42 58 75100150200250 > Table Part 2 of 2

LOCK BEWEGT // LOCK MOVES 26 Prefab Tubes CHAPTER 01 – APPLICATIONS 2023 | 06 Determining length of prefab tubes Tube – Type A: Drive system with support mounting > Connection between EWA and LZG with KKS 11 / KKS 15 for 1 1/4“ + 2“ tube > Connecting LZG to LZG with tube type C, SKS 66 or SKS 68 for 1 1/4“ and 2“ > Couplings for other tube dimensions available on request LRY1 / RZ1 > L ength of prefab tube for 0° XK > Spacing of chain coupling LY1 > Length on left side LZ1 > Length on right side YS / ZS > Dimension to start of coupling B-side (see p.11 chap. 5) > Please contact us for the exact calculation of the prefab tubes. Power drives Side mounting ZS [mm] Side mounting YS [mm] Foot mounting ZF [mm] EWA 10 119,5 285,5 201,5 EWA 12 106,5 298,5 201,5 EWA 14 103,0 302,5 201,5 EWA 16 85,5 322,5 201,5 Rack & pinion units Spacing XS [mm] Spacing XK [mm] LZG 20 70 114 LZG 24 90 134

CHAPTER 01 – APPLICATIONS Prefab Tubes 27 2023 | 06 Tube – Type B: Drive system with rail mounting > Connection between EWA and LZG with KKS 10 / KKS 14 for 1 1/4“ + 2“ tube > Connecting LZG to LZG with tube type C, SKS 66 or SKS 68 for 1 1/4“ and 2“ > Couplings for other tube dimensions available on request Tube – Type C: LZG – LZG rack & pinion units > Connection with two LZG > Connection of LZG to LZG with SKS 66 and SKS 68 for 1 1/4“ / 2“ tube > Couplings for other tube dimensions available on request LRZ > Length of prefab tube XK > Spacing of chain coupling ZF > Dimension to start of coupling B-side (see p.11 chap. 5) LRX > Length of prefab tube XS > Spacing of welded coupling LX > Spacing of LZG to LZG > LRZ = LZ – ZF – XK > LRX = LX – XS – XS > Our table of figures includes 3 mm of clearance between each shaft and the axial mounting of each coupling! LZ rail distance with SKS without SKS 4000 7860 7760 4500 8860 8760 5000 9860 9760 LRX length Prefab-tube LZG 20 LZG 20 LZ rail distance with SKS without SKS 4000 7820 7720 4500 8820 8720 5000 9820 9720 LZG 24 LZ rail distance LRZ length Prefab-tube with KKS 4000 3665 4500 4165 5000 4665 LZ rail distance LRZ length Prefab-tube with KKS 4000 3685 4500 4185 5000 4685 LZG 24 LRX length Prefab-tube

LOCK BEWEGT // LOCK MOVES 28 Cable System CHAPTER 01 – APPLICATIONS 2023 | 06 Cable system for Venlo screening Drive system for screening where the EWA power unit is mounted with a retaining plate clamped to the support. This creates an optimum installation position for adjusting the limit switch position. Suitable for screening systems with rigidly mounted screening fabric as well as for systems with grinding blocks. > Up to 13000 m² of screening surface area with just one drive unit. > Up to 300 grinding blocks with just one drive unit. > Up to 1500 Nm of drive power can be fed into the system. > Cable system in Venlo greenhouse mounted with EWA power drive and KSS couplings.

CHAPTER 01 – APPLICATIONS Cable System 29 2023 | 06 > Cable coil ø = 70 mm > Wire diameter d = 3 mm > Travel distance = 230,3 mm/n > Weight of fabric G = 80 g/m² > Truss spacing LF = 3,0 / 3,66 / 4,0 / 4,5 / 5,0 m The figures on the table are only guide values. These are dependent on assembly, mounting, current values etc. PAR 06, POTENTIOMETER > SEE CHAPTER 3 Maximum screening area per EWA power drive System A – Profile System B – tube Power/Block Blocks [units] Power drive 3.0 kg 3.5 kg 4.0 kg 5.0 kg 6.0 kg 7.0 kg 9.0 kg 12.0 kg Torque T [Nm] Version 37 31 27 22 18 16 12 9 50 EWA 50 66 56 49 39 33 28 22 17 90 EWA 50 110 94 82 66 55 47 37 28 150 EWA 50 184 156 137 109 92 78 61 46 250 EWA 12 292 250 219 175 146 125 97 73 350 EWA 14 364 314 275 220 182 157 121 91 450 EWA 14 476 408 357 286 238 204 159 119 600 EWA 14 728 626 548 438 364 313 243 182 900 EWA 16 948 814 712 570 474 407 316 237 1200 EWA 16 1168 1002 877 701 584 501 389 292 1500 EWA 16 1557 1335 1169 934 778 668 518 390 2000 EWA 16 System A – Profile Surface area [m2] Power drive LF = 3.0 m 14 revolutions LF = 3.66 m 17 revolutions LF = 4.0 m 18 revolutions LF = 4.5 m 21 revolutions LF = 5.0 m 23 revolutions Torque T [Nm] Version 218 265 290 326 363 50 EWA 50 392 478 522 587 653 90 EWA 50 653 796 870 979 1088 150 EWA 50 1088 1327 1450 1631 1813 250 EWA 12 1740 2123 2320 2610 2900 350 EWA 14 2175 2654 2900 3263 3625 450 EWA 14 2828 3450 3770 4241 4712 600 EWA 14 4350 5307 5800 6525 7250 900 EWA 16 5655 6899 7540 8483 9425 1200 EWA 16 6960 8491 9280 10440 11600 1500 EWA 16 9280 11321 12373 13919 15466 2000 EWA 16 System B – tube Surface area [m2] Power drive LF = 3.0 m 14 revolutions LF = 3.66 m 17 revolutions LF = 4.0 m 18 revolutions LF = 4.5 m 21 revolutions LF = 5.0 m 23 revolutions Torque T [Nm] Version 245 299 327 368 408 50 EWA 50 441 538 588 662 735 90 EWA 50 735 897 980 1103 1225 150 EWA 50 1225 1495 1633 1838 2042 250 EWA 12 1960 2391 2613 2940 3267 350 EWA 14 2450 2989 3267 3675 4083 450 EWA 14 3185 3886 4247 4778 5308 600 EWA 14 4900 5978 6533 7350 8167 900 EWA 16 6370 7771 8493 9555 10617 1200 EWA 16 7840 9565 10453 11760 13067 1500 EWA 16 10453 12753 13937 15679 17422 2000 EWA 16

LOCK BEWEGT // LOCK MOVES 30 Cable System CHAPTER 01 – APPLICATIONS 2023 | 06 Cable system for wide-span screening By mounting an EWA power drive on the gable, the resultant forces can be absorbed to an optimum extent. In addition, this creates a superlative installation position for adjusting the limit switch position. > Surface areas of up to 3000 qm² can be screened with a single drive unit. > 600 Nm input power can be directed into the system. > Cable system in wide-span greenhouse mounted with EWA power drive and KKS couplings.

CHAPTER 01 – APPLICATIONS Cable System 31 2023 | 06 Maximum screening area per EWA power drive The figures on the table are only guide values. These are dependent on assembly, mounting, current values etc. Cable coil Surface area [m2] Power drive LF = 3,0 m 10 revolutions LF = 4,0 m 13 revolutions LF = 5,0 m 19 revolutions Torque T [Nm] Version ø = 72 mm 190 252 – 50 EWA 50 342 454 – 90 EWA 50 570 757 – 150 EWA 50 950 1262 – 250 EWA 12 1330 1766 – 350 EWA 14 1710 2272 – 450 EWA 14 2280 3040 – 600 EWA 14 ø = 80 mm 172 230 – 50 EWA 50 310 414 – 90 EWA 50 517 690 – 150 EWA 50 862 1150 – 250 EWA 12 1207 1610 – 350 EWA 14 1552 2070 – 450 EWA 14 2070 2760 – 600 EWA 14 ø = 100 mm 137 182 254 50 EWA 50 247 328 456 90 EWA 50 412 547 761 150 EWA 50 687 912 1268 250 EWA 12 961 1277 1775 350 EWA 14 1237 1648 2289 450 EWA 14 > Cable coil ø = 72 / 80 / 100 mm > Wire diameter d = 3 mm > Weight of fabric G = 80 g/m² > Truss spacing LF = 3,0 / 4,0 / 5,0 m

LOCK BEWEGT // LOCK MOVES 32 Rack System CHAPTER 01 – APPLICATIONS 2023 | 06 Rack system for Venlo screening > Rack system in Venlo greenhouse with EWA power drive and KKp couplings. SZG gear unit for adjusting position of screening fabric. Drive system for screening where the EWA power unit is mounted with a retaining plate clamped to the support. This creates an optimum installation position for adjusting the limit switch position. Suitable for screening systems with rigidly mounted screening fabric. > Surface area of up to 10000 qm² for screening with a single drive unit. > Up to 600 Nm of drive power can be fed into the system.

CHAPTER 01 – APPLICATIONS Rack System 33 2023 | 06 Surface area [m2] Power drive LF = 3,66 m 45 revolutions LF = 4,0 m 49 revolutions LF = 4,5 m 55 revolutions LF = 5,0 m 62 revolutions Torque T [Nm] Version 714 801 835 865 50 EWA 50 1285 1441 1504 1558 90 EWA 50 2142 2402 2506 2596 150 EWA 50 3570 4003 4177 4327 250 EWA 12 4998 5604 5847 6058 350 EWA 14 6426 7205 7518 7789 450 EWA 14 8568 9607 10024 10385 600 EWA 14 Maximum screening area per EWA power drive The figures on the table are only guide values. These are dependent on assembly, mounting, current values etc. Mounting plate MPL Chain coupling KKS 10 Gear unit SZG 35 500 N Drive tube 1“, 1 1/4 Welded coupling SKS 66 Rack adapter SZA 35 > Travel distance = 81.3 mm/n > Weight of fabric G = 80 g/m² > Truss spacing LF = 3,66 / 4,0 / 4,5 / 5,0 m Power drive EWA 50–600 nm Thrust washer SZZ Mounting bolts M8 Bolt M6 Rack SZZ

LOCK BEWEGT // LOCK MOVES 34 Roller Screen Systems CHAPTER 01 – APPLICATIONS 2023 | 06 Roller screen length / height per RMA tube motor Weight G1 /ø1 > Single wrapped roll screen system for roof and partition walls. > Space-saving by adapting drive shaft diameter to suit standard rolling tube. > Max. ventilation height of 4 m with a rolling tube diameter of 50 mm, depending on type of fabric. > Max. ventilation height of 5 m with a rolling tube diameter of 63 mm, depending on type of fabric. Note: > We are always delighted to help you with technical advice because power ratings and service life are factors that depend heavily on the design of your application. > RMA 20.0512, 50 Nm, with rolling tube ø1 50 mm, G1 = 900g/m > RMA 20.1212, 120 Nm, with rolling tube ø1 63 mm, G1 = 900g/m > The figures on these diagrams are only intended as guide values. They are dependent on assembly, mounting, voltage level etc. Single roll screening RMA 20.0512 // ø 50 mm RMA 20.1212 // ø 63mm

CHAPTER 01 – APPLICATIONS Roller Screen Systems 35 2023 | 06 Twin roll screening Roller screen length / height per RMA tube motor Weight G1 /ø1 Weight G2 /ø2 > Double-rolled roller screen system for roof and partition walls. > Space-saving through adapting drive shaft diameter to that of standard rolling tube. > Central rolling tube for greater stability to wind pressure, reduced soiling of fabric and a combination of different types of fabric or sheeting. Note: > We are always delighted to help you with technical advice because power ratings and service life are factors that depend heavily on the design of your application. > RMA 20.0512, 50 Nm with rolling tube ø1 50 mm, G1 = 900 g/m > RMA 20.1212, 120 Nm with rolling tube ø1 63 mm, G1 = 900 g/m > Reinforcement tube ø2 27 x 1,5 mm, G2 = 960 g/m > The figures on these diagrams are only intended as guide values. They are dependent on assembly, mounting, voltage level etc. RMA 20.0512 // 50 Nm /ø 50 mm – ø 27 x 1,5 mm RMA 20.1212 // 120 Nm /ø 63mm – ø 27 x 1,5 mm 50 Nm 120 Nm

2 Systems

CHAPTER 02 – CONTENTS SYSTEMS 1 Systems VariVent® top-opening VariVent® TF Pull wire 6 VariVent® TF Diabolo 8 VariVent® TF Central tube 10 VariVent® bottom-opening VariVent® BF 12 VariVent® BC 14 VariVent® top/bottom-opening VariVent® TC 16 VariVent® Twin 18 EazyVent® top-opening 18 EazyVent® 20 AVAILABLE ON REQUEST

3 Power drives

CHAPTER 03 – POWER DRIVES CONTENTS 1 Power drives EZW // Power racks 28 EZW 64 30 RMA // Tube motors 34 RMA 20 36 EWA // Power drives 2 EWA 50 8 EWA 52 12 EWA 10 16 EWA 12 18 EWA 14 20 EWA 16 22 LSC 40.10: LPR 02, LPR 04 25 PAR 06 26 PAR 10 27

LOCK BEWEGT // LOCK MOVES 2 EWA CHAPTER 03 – POWER DRIVES 2024 | 02 EWA knows no compromises and displays no weaknesses Lock EWA power drives are a dependable power source for every application. Slow-­ running with self-locking worm gear units and integrated limit switches or control unit, they perform their tasks for decades without requiring any maintenance work. As option A60 also for operation at low temperatures. As a low-cost alternative, there are the HWA manual drives that are of course easy to retrofit as EWA power drives. Lock drives can be used for far more than ventilation tasks. Much of what you have to lift and relocate you can make happen using drive units and accessories from Lock. > Torque range of 50–2000 Nm. > Speed range of 1–60 rpm. > Integrated precision gear limit switch END 20 or integrated LSC 40 control unit. > Dimensioning for decades of operational service. > Self-locking worm gear units. > Electric motors with optimized characteristics for 50 and 60 Hz. > Turnkey status for single-phase motors. > Optional PAR 06 potentiometer or PAR 10 multiturn-sensor pre-installed on END 20. > Optional position sensor, analogue LPR 02 or digital LPR 04 on the LSC 40. > Motors and microswitches on the END 20 for 60 Hz are cURus-certified (cURus = UL Recognized Component Mark, valid for the USA and Canada). EWA 16 With integrated limit switch (optionally available with an LSC 40.10 control unit).

CHAPTER 03 – POWER DRIVES EWA 3 2024 | 02 EWA 12 150-250 Nm EWA 10 50-90 Nm EWA 50 50-150 Nm EWA 14 350-600 Nm The advantages of EWA > Standard mounting dimensions. > Compact shape. > Uniform shaft length. > Any installation position. > Optional LockLogic ®. > Zero-maintenance. > Selection of shaft types. > Extremely quiet operation. > A60 for use at low temperatures. > Speedlogic frequency inverter. Position repeater PAR 10 > Programmable multiturn sensor to provide positional feedback. > High resolution for very precise positioning, no jumps or system crashes. > No mechanical limit stop and no mechanical wear. > Pre-assembled or suitable for retrofitting to END 20 limit switches. > „Elektronisches Poti“ austauschbar gegen PAR 06. > Number of shaft rotations: 0.1 to 190 can be evaluated. > Simple teaching in, using two buttons on the device, with status displayed by LED. > Signal output 0 – 10 V analogue or 0 – 5 V. > Power supply 16 – 30 V DC, same connection as PAR 06. Optional: LSC 40.10 control unit > Absolute mechatronic limit switch system with integrated additional switches for AC or DC control voltage. > Fast and simple setting without power connection, with familiar high level of reliability. Option: > “Integrated position sensor” LPR with high resolution. > Only one version for all rotational speeds – no additional components. > No additional teach-in required. > No mechanical limit stop / wear. > Outputs with 0 – 10 V, 4 – 20 mA and incremental signal.

LOCK BEWEGT // LOCK MOVES 4 EWA CHAPTER 03 – POWER DRIVES 2024 | 02 Example: A drive with a rack & pinion unit or a cable drum moves local spot loads. SELECTION Lock always offers you a large number of types, variants and options to enable you to select the ideal solution for your application. > Torques and speeds (see table). > Shaft ends We 06, We 66, We 19. > Low temperatures as A60 version (option). > Special voltages 1~, 3~, DC. > Types of mounting and mounting positions. > END 20 switch elements, PAR 06, PAR 10. > Optional LSC 40.10 control unit, LPR 02, LPR 04. Line Point Face The broad and diverse product portfolio and the modularity of the drive units in conjunction with the gear units enable systems to be created that can move loads perfectly in a point-to-point, linear or surface way. Base Side Base Mounting We 06 We 66 We 19 Shaft ends Switch elements MODULARITY Example of continous ventilation: A drive unit lifts linear loads using shafts and rack & pinion units. Example of greenhouse rail ventilation: One drive unit moves large surface areas using shafts, rack & pinion units and levers. END 20 LSC 40.10 PAR 06 PAR 10

CHAPTER 03 – POWER DRIVES EWA 5 2024 | 02 > Dynamic and static self-locking, even under extreme conditions.* > The details quoted for nominal load are minimum figures. > High power reserves throughout the entire service life. > Electric motors with optimized characteristics to suit every variant. > Powerful single-phase motors, pre-wired ex-factory. You can learn more about all of these points on the next pages. * All load details in the catalogue refer to dynamic self-locking. The values for static self-locking are much higher. *EWA 14 also available with 39 rpm / 250 Nm and 60 rpm / 200 Nm (without selfbraking) EWA 50 EWA 10 EWA 12 EWA 14** EWA 16 50 Nm 90 Nm 150 Nm 50 Nm 90 Nm 150 Nm 250 Nm 350 Nm 450 Nm 600 Nm 900 Nm 1200 Nm 1500 Nm 2000 Nm 1,6 1,6 1,6 1,6 2,6 2,6 2,6 3,2 3,2 3,2 3,2 2,4 2,4 2,4 2,4 4,5 4,5 4,5 5,6 5,6 4,4 4,4 4,4 4,4 4,9 4,9 4,9 6,5 6,5 6,5 6,5 6,5 8,8 8,8 8,8 8,8 1,6 1,6 1,6 1,6 2,6 2,6 2,6 3,1 3,2 3,2 4,5 4,5 4,5 5,9 5,9 4,3 4,4 2,6 2,6 2,6 3,2 3,2 4,5 4,5 4,5 4,4 4,4 2,0 2,0 3,2 3,2 3,2 3,8 5,4 5,4 2,0 2,0 3,2 3,2 3,2 3,8 3,8 3,8 5,4 5,4 5,3 5,2 2,0 2,0 3,2 3,2 3,2 3,8 3,8 3,8 3,8 2,9 5,4 5,4 5,3 5,2 5,2 5,8 5,8 5,8 3,8 3,8 3,8 2,9 5,3 5,2 5,2 5,8 5,8 5,8 230 V 1~ 380 V 3~ 120 V 1~ 240 V 1~ 208 V 3~ 480 V 3~ 600 V 3~ 400 V 3~ n [rpm] at 50 Hz n [rpm] at 60 Hz

LOCK BEWEGT // LOCK MOVES 6 EWA CHAPTER 03 – POWER DRIVES 2024 | 02 Everything you always wanted to know about the drives of the EWA 5 and 1 series! 1. Self-locking: In all cases, a distinction is made with self-locking between static and dynamic self-locking. Static self-locking only works when stationary and can be cancelled by shaking or by vibration. This is why our self-locking drive units always have dynamic self-locking (also called auto- braking). This occurs whenever an operating gear unit comes to a complete stop automatically, for example after the motor has been switched off. Like all self-locking gear units, our gear units cannot be operated in continuous basis. 2. Load details and service life: Our nominal load details are minimum figures, not maximum figures, unlike the practice of many other manufacturers. That means that if we quote a torque rating of ‚250 Nm‘, that means that the drive unit is capable of delivering this torque rating throughout its entire service life. This explains why our drive units are renowned for having high reserves of power. On our in-house test benches, we test our units for 1000 operating hours at the nominal load quoted in the catalogue, over the specified engagement period. The drive units are designed for endurance loads depending on utilization level (actual torque levels applied), application, peak loads and engagement cycles. 3. Electric motors: We do not use standard motors. Instead, we only use motors with optimized characteristics curves, and we optimize these for each version and for every variant. They are designed in such a way that voltage fluctuations of approx. +/- 5 % can be contended with, even in the 60-Hz range. EWA 16 With integrated limit switch (optionally available with an LSC 40.10 control unit).

CHAPTER 03 – POWER DRIVES EWA 7 2024 | 02 4. Single-phase motors: Single-phase motors are always wired by ourselves before they leave the factory, and are supplied with a long connection cable. That means that the electric motor is switched off directly by the limit switch. This greatly simplifies assembly and is less expensive, because there is no need for a reversible contactor control system. A test run can be conducted on location using manual push-button TST 10. Having said that, single-phase motors must not be over-dimensioned. If they are operated at levels well below their nominal load rating, they are prone to heating up more, and this shortens their engagement period. The internal winding protection contact can be routed externally. 5. Special voltages: For 60 Hz we have always used special motors. We also always guarantee that the nominal load rating quoted is consistently achievable. This also applies to the other special voltage ratings. All special motors are optimized and tested before they are used on the test bench. 6. 24 V DC motors: Power drives EWA 10 and EWA 12 can be supplied with 24 V DC motors. A typical feature of DC motors is that current intake rise sharply as torque levels rise. 7. Smoke & heat extraction systems: Natural ventilation systems are often combined with smoke & heat extraction systems. With building-specific special constructions, no usability verification can be provided in accordance with DIN EN 121 Part 2. Here, it is possible to apply for consent in individual cases from the construction authorities. Our drive units have been inspected by the Fraunhofer Institut in respect of ‚usability‘ as defined in DIN 18232. Request the Fraunhofer certificate when needed. 8. A60 option: This option is suitable for use in protected outdoor environments because it has stainless steel output shafts and a special grade of thermally resistant oil for low temperatures. Separate installation conditions apply for use in outdoor environments (see chapter Service/operating instructions). 9. Optional LSC 40 control unit: Optional equipment available for the END 20 limit switch includes our power drives with the LSC 40.10. As standard, this includes the additional limit switch and can be extended to take LPR 02 analogue signals, or can be extended with the LPR 04 to take analogue and digital signals.

LOCK BEWEGT // LOCK MOVES 8 EWA CHAPTER 03 – POWER DRIVES 2024 | 02 > Extremely quiet, self-locking double worm gear unit with integrated limit switch control and with long service life, zero maintenance. > Universal assembly with standard mounting at back or on side left (symmetrical). > Standard mounting with 70 mm center distance brackets or optional 60 mm. > Limit switch control, including auxiliary limit switch, via control unit LSC 40 AC/DC. Optional mechanical limit switch END 20 for up to 580 shaft rotations. > High quality motors available in a wide variety of voltages. > Pre-wired single phase motors supplied with power cord and thermal overload protection. > Ambient temperature –5 °C to +60 °C, A60 version for low temperature applications below –5 °C. > Protection class IP55. > Duty Cycle S3-40 %. > Interchangeable with EWA 10/12. Options when using LSC 40.10: > Position repeater LPR 02 for analog signal 0 – 10V or 4 – 20 mA, LPR 04 for digital signal (incremental). Options when using END 20: > Auxiliary limit switch END 20.40 > Position repeater PAR 06 (potentiometer) or PAR 10 (0 – 10V). EWA 50 // PowerDrive 50–150 Nm

CHAPTER 03 – POWER DRIVES EWA 9 2024 | 02 We 06 We 66 Version Type no. Type no. T [Nm] n [1/min] I [A] P [kW] m We 06 [kg] m We 66 [kg] 400 V 3~, 50 Hz EWA 50.0503 12508.0503.12 12508.0503.32 50 2,6 0,40 0,19 18,4 19,1 EWA 50.0505 12508.0505.12 12508.0505.32 50 4,5 0,45 0,22 18,4 19,1 EWA 50.0903 12508.0903.12 12508.0903.32 90 2,6 0,45 0,23 18,4 19,1 EWA 50.0905 12508.0905.12 12508.0905.32 90 4,5 0,90 0,33 18,4 19,1 EWA 50.1503 12508.1503.12 12508.1503.32 150 2,6 0,90 0,39 18,4 19,1 EWA 50.1505 12508.1505.12 12508.1505.32 150 4,5 0,94 0,46 18,4 19,1 230 V 1~, 50 Hz EWA 50.0503 12508.0503.11 12508.0503.31 50 2,6 1,40 0,30 18,6 19,3 EWA 50.0505 12508.0505.11 12508.0505.31 50 4,5 1,50 0,32 18,6 19,3 EWA 50.0903 12508.0903.11 12508.0903.31 90 2,6 1,50 0,32 18,6 19,3 EWA 50.0905 12508.0905.11 12508.0905.31 90 4,5 1,70 0,38 19,4 20,1 EWA 50.1503 12508.1503.11 12508.1503.31 150 2,6 1,70 0,34 19,4 20,1 EWA 50.1505 12508.1505.11 12508.1505.31 150 4,5 2,80 0,62 19,5 20,2 380 V 3~, 50 Hz, CCC EWA 50.0503 – 12508.0503.3705 50 2,6 0,60 0,24 19,3 – EWA 50.0505 – 12508.0505.3705 50 4,5 0,60 0,25 19,3 – EWA 50.0903 – 12508.0903.3705 90 2,6 0,60 0,26 19,3 – EWA 50.0905 – 12508.0905.3705 90 4,5 0,80 0,38 19,8 – EWA 50.1503 – 12508.1503.3705 150 2,6 0,80 0,38 19,8 – EWA 50.1505 – 12508.1505.3705 150 4,5 0,90 0,46 19,8 – EWA 50 50–150 Nm We 66 WL 385 mm We 06 WL 280 mm

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