Description
| Technical Specifications | |
| Model | FSV-400SL |
| Transfer | 2,500 (RPM) |
| Pressure | 1,800 (pt) |
| Flow | 12,000 m3/h |
| Air Outlet Diameter | 507 X 507 mm WEIGHT: 46 KG |
| Product features | |
|
The bodies of the cellular fans, which can be produced at flow rates of 2,500 m3/h to 90,000 m3/h, are made of extruded aluminum profile carcass and plastic corner elements. The construction of the cabin was created by combining aluminum profiles with plastic corner elements. The panels on the cabin surface can be produced at flow rates between 2,500 m3/h and 90,000 m3/h. The bodies of the cellular fans are made of extruded aluminum profile carcass and plastic corner elements. The construction of the cabin was created by combining aluminum profiles with plastic corner elements. The panels on the cabin surface are made of double skin. Sparse winged cell aspirators are used in ventilation systems that require particle transfer. In order to transport the particles by air, fans that produce high pressure are required. Sparse winged cell aspirators produce more pressure by making more revolutions thanks to their backward-curved wing structure. The bodies of the cellular fans, which can be produced at flow rates between m3/h and 90,000 m3/h, are manufactured from extruded aluminum profile carcass and plastic corner elements. The construction of the cabin was created by combining aluminum profiles with plastic corner elements. The panels on the cabin surface are made of double skin. Sparse winged cell aspirators are used in ventilation systems that require particle transfer. In order to transport the particles by air, fans that produce high pressure are required. Sparse winged cell aspirators produce more pressure by making more revolutions thanks to their backward-curved wing structure. It was made with thick walls. Sparse winged cell aspirators are used in ventilation systems that require particle transfer. In order to transport the particles by air, fans that produce high pressure are required. Sparse winged cell aspirators produce more pressure by making more revolutions thanks to their backward-curved wing structure.
| MEDICINE | A. | B. | C. | TO | F | g | H | J. | K | M. | N | R. | t | t1 | W | X | BILE | LXV |
| SPARSE WING 250 | 419 | 461 | 322 | 270 | 195 | 224 | 347 | 384 | 30 | 490 | 372 | 34 | 6 | 6 | 50 | 28 | 25 | 13×18 |
| SPARSE WING 280 | 466 | 518 | 361 | 302 | 215 | 280 | 391 | 432 | 30 | 575 | 421 | 34 | 8 | 7 | 50 | 28 | 25 | 13×18 |
| SPARSE WING 315 | 518 | 578 | 404 | 340 | 236 | 280 | 434 | 480 | 30 | 640 | 464 | 38 | 8 | 7 | 60 | 28 | 25 | 13×18 |
| SPARSE WING 355 | 578 | 655 | 453 | 384 | 261 | 355 | 490 | 548 | 40 | 700 | 520 | 30 | 8 | 7 | 60 | 33 | 30 | 13×18 |
| SPARSE WING 400 | 651 | 736 | 507 | 432 | 290 | 355 | 549 | 613 | 40 | 760 | 589 | 38 | 8 | 7 | 60 | 33 | 30 | 13×18 |
| SPARSE WING 450 | 727 | 827 | 569 | 487 | 322 | 530 | 611 | 681 | 40 | 845 | 651 | 46 | 10 | 8 | 70 | 38 | 35 | 13×18 |
| SPARSE WING 500 | 800 | 918 | 638 | 538 | 352 | 530 | 680 | 750 | 40 | 920 | 718 | 50 | 12 | 8 | 70 | 43 | 40 | 13×18 |
| SPARSE WING 560 | 898 | 1031 | 715 | 603 | 390 | 530 | 777 | 845 | 50 | 1070 | 815 | 50 | 14 | 9 | 90 | 53.5 | 50 | 13×18 |
| SPARSE WING 630 | 999 | 1157 | 801 | 679 | 434 | 530 | 851 | 946 | 50 | 1155 | 901 | 53 | 14 | 9 | 90 | 53.5 | 50 | 13×18 |
Reviews
There are no reviews yet.