| Body Material | S235JR / SS304L / SS316L |
| Screen Material (Internal Kit) | SS304L, PA6GFR30 |
| Maximum Working Pressure | 10 bar; 145 Psi |
| Minimum Working Pressure | 2.5 bar; 36 Psi |
| Maximum Working Temperature | 60°C; 140°F |
| Back Washing Time | Pressure Difference Setup |
| Control System | Hydraulic |
| Filtration Sensitivity | 20-2000 μ (micron) |
| Painting Method | Electrostatic Powder Coating |
| Paint Coating Material | Epoxy-Polyester |
Cleaning Process
The cleaning process is triggered either by elapsed time or a differential pressure threshold. Differential pressure results from particle accumulation on the screen surface, which restricts water flow. This pressure difference—an undesirable condition—is resolved by the cleaning cycle. The filter is programmed to automatically start the cleaning process once the user-defined differential pressure value (recommended at 0.5 bar) is reached, thereby restoring normal operation. When the drain valve opens, a strong vacuum effect is created inside the filter, drawing debris from the screen surface. This suction helps the nozzles effectively remove particles from the screen and discharge them from the system. Once the process is complete, the cleaning collector automatically returns to its original position, and normal filtration resumes. During backwashing, the filtering process continues. To ensure efficient operation, the inlet pressure should not be less than 2 bar (29 psi) during backwashing
Working Principle
Water enters through the inlet line and flows toward the outlet line of the filter. During the cleaning process, the drain line serves as the discharge path for accumulated contaminants. The piston rod is responsible for linear motion, allowing the nozzles to scan the surface of the filter screens during cleaning. When water enters the system, it first passes through a coarse screen for preliminary filtration, followed by a fine screen for further filtration. As water flows through the fine screen, particles are retained on its surface. During the cleaning cycle, these particles are suctioned by the nozzles and transported to the cleaning collector. The turbine chamber is connected to the atmosphere and houses the turbine, which generates rotational motion to drive the nozzles. The combination of the linear motion of the piston rod and the rotational motion from the turbine ensures complete coverage of the screen surfaces. The hydraulic piston drives the piston rod. Activation of the piston and the opening of the drain valve occur simultaneously
VHF Series - Horizontal Self-Cleaning Hydraulic Filters+C5
local_offer
VHF
ADVANTAGES
The Definition of Mechanical Power.
The VHF series is where rugged engineering meets pure autonomy. Its robust hydraulic system delivers non-stop, self-cleaning filtration. By using zero external energy, it provides intrinsic safety for hazardous environments, making it the ultimate “set-and-forget” solution for total reliability where security is non-negotiable
GENERAL FEATURES
| Body Material | S235JR / SS304L / SS316L |
| Screen Material (Internal Kit) | SS304L, PA6GFR30 |
| Maximum Working Pressure | 10 bar; 145 Psi |
| Minimum Working Pressure | 2.5 bar; 36 Psi |
| Maximum Working Temperature | 60°C; 140°F |
| Back Washing Time | Pressure Difference Setup |
| Control System | Hydraulic |
| Filtration Sensitivity | 20-2000 μ (micron) |
| Painting Method | Electrostatic Powder Coating |
| Paint Coating Material | Epoxy-Polyester |
| CODE | Inlet/Outlet | A | B | L1 | L | D | F | Drain Flow Rate | Main Flow Rate | Filtration Area cm² |
Nozzle Qty. |
Screen Qty. |
Weight kg |
|||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Inch | DN | mm | mm | mm | mm | Inch | Inch | L/s | GPM(US) | m³/h | GPM(US) | |||||
| VHF/CVHF104 | 4 | 100 | 680 | 287 | 770 | 1532 | 10 | 2 | 3,3 | 53 | 120 | 528 | 2634 | 2 | 4 | 61 |
| VHF/CVHF104S | 4 | 100 | 780 | 287 | 970 | 1725 | 10 | 2 | 4,1 | 66 | 140 | 616 | 3951 | 3 | 6 | 67 |
| VHF/CVHF105 | 5 | 125 | 780 | 287 | 970 | 1725 | 10 | 2 | 4,1 | 66 | 150 | 660 | 3951 | 3 | 6 | 69 |
| VHF/CVHF105S | 5 | 125 | 880 | 287 | 1170 | 1925 | 10 | 2 | 5 | 79 | 160 | 704 | 5268 | 4 | 8 | 74 |
| VHF/CVHF106 | 6 | 150 | 880 | 287 | 1170 | 1925 | 10 | 2 | 5 | 79 | 180 | 792 | 5268 | 4 | 8 | 81 |
| VHF/CVHF126S | 6 | 150 | 1085 | 312 | 1587 | 2335 | 12 | 2 | 6,6 | 106 | 220 | 968 | 7902 | 6 | 12 | 122 |
| VHF/CVHF128 | 8 | 200 | 1085 | 312 | 1587 | 2335 | 12 | 2 | 6,6 | 106 | 320 | 1408 | 7902 | 6 | 12 | 125 |
Ürün Detayı
VHF Series - Horizontal Self-Cleaning Hydraulic Filters+C5
local_offer
VHF
GENERAL FEATURES
Cleaning Process
The cleaning process is triggered either by elapsed time or a differential pressure threshold. Differential pressure results from particle accumulation on the screen surface, which restricts water flow. This pressure difference—an undesirable condition—is resolved by the cleaning cycle. The filter is programmed to automatically start the cleaning process once the user-defined differential pressure value (recommended at 0.5 bar) is reached, thereby restoring normal operation. When the drain valve opens, a strong vacuum effect is created inside the filter, drawing debris from the screen surface. This suction helps the nozzles effectively remove particles from the screen and discharge them from the system. Once the process is complete, the cleaning collector automatically returns to its original position, and normal filtration resumes. During backwashing, the filtering process continues. To ensure efficient operation, the inlet pressure should not be less than 2 bar (29 psi) during backwashing
Working Principle
Water enters through the inlet line and flows toward the outlet line of the filter. During the cleaning process, the drain line serves as the discharge path for accumulated contaminants. The piston rod is responsible for linear motion, allowing the nozzles to scan the surface of the filter screens during cleaning. When water enters the system, it first passes through a coarse screen for preliminary filtration, followed by a fine screen for further filtration. As water flows through the fine screen, particles are retained on its surface. During the cleaning cycle, these particles are suctioned by the nozzles and transported to the cleaning collector. The turbine chamber is connected to the atmosphere and houses the turbine, which generates rotational motion to drive the nozzles. The combination of the linear motion of the piston rod and the rotational motion from the turbine ensures complete coverage of the screen surfaces. The hydraulic piston drives the piston rod. Activation of the piston and the opening of the drain valve occur simultaneously
ADVANTAGES
Powerful Filtration, Smarter Design.
The Definition of Mechanical Power.
The VHF series is where rugged engineering meets pure autonomy. Its robust hydraulic system delivers non-stop, self-cleaning filtration. By using zero external energy, it provides intrinsic safety for hazardous environments, making it the ultimate “set-and-forget” solution for total reliability where security is non-negotiable
DÖKÜMANLAR
| CODE | Inlet/Outlet | A | B | L1 | L | D | F | Drain Flow Rate | Main Flow Rate | Filtration Area cm² |
Nozzle Qty. |
Screen Qty. |
Weight kg |
|||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Inch | DN | mm | mm | mm | mm | Inch | Inch | L/s | GPM(US) | m³/h | GPM(US) | |||||
| VHF/CVHF104 | 4 | 100 | 680 | 287 | 770 | 1532 | 10 | 2 | 3,3 | 53 | 120 | 528 | 2634 | 2 | 4 | 61 |
| VHF/CVHF104S | 4 | 100 | 780 | 287 | 970 | 1725 | 10 | 2 | 4,1 | 66 | 140 | 616 | 3951 | 3 | 6 | 67 |
| VHF/CVHF105 | 5 | 125 | 780 | 287 | 970 | 1725 | 10 | 2 | 4,1 | 66 | 150 | 660 | 3951 | 3 | 6 | 69 |
| VHF/CVHF105S | 5 | 125 | 880 | 287 | 1170 | 1925 | 10 | 2 | 5 | 79 | 160 | 704 | 5268 | 4 | 8 | 74 |
| VHF/CVHF106 | 6 | 150 | 880 | 287 | 1170 | 1925 | 10 | 2 | 5 | 79 | 180 | 792 | 5268 | 4 | 8 | 81 |
| VHF/CVHF126S | 6 | 150 | 1085 | 312 | 1587 | 2335 | 12 | 2 | 6,6 | 106 | 220 | 968 | 7902 | 6 | 12 | 122 |
| VHF/CVHF128 | 8 | 200 | 1085 | 312 | 1587 | 2335 | 12 | 2 | 6,6 | 106 | 320 | 1408 | 7902 | 6 | 12 | 125 |