- For oil, water and air
- Easy to read scale
- Accuracy ±6% of full scale
- Rugged construction
- Alarm switch is optional
- Complete with piston assembly
- Built-in spring decreases viscosity sensitive and allow flow meter to be installed in any position
- Relatively insenstive to shock and vibration
| Measuring medium: | Water / Air |
| Tube material: | Polysulfone |
| Connection material: | SS304 |
| Pressure limit: | Max 6 bar |
| Temperature limit: | Max 100˚C |
| Accuracy: | ±6% M.V |
| Connection: | NPT Threaded |
| Alarm contact: | Optional (High Alarm / Low Alarm / High & Low Alarm) |
MEASURING RANGE WITHOUT ALARM SWITCH
| Model | Measuring Range | Thread | |||
| Water | Air | ||||
| GPM | LPM | GPM | LPM | ||
| Z-6011 | 0.5 – 5 | 2 – 20 | 18 – 180 | 60 – 600 | 1/2″ FNPT or 3/4″ MNPT |
| Z-6012 | 1 – 7 | 3 – 25 | 20 – 200 | 70 – 700 | |
| Z-6013 | 1 – 10 | 4 – 35 | 25 – 250 | 100 – 1000 | |
| Z-6014 | 1 – 16 | 5 – 60 | 35 – 350 | 150 – 1400 | |
| Z-6015 | 3 – 20 | 10 – 70 | 52 – 520 | 200 – 2000 | 3/4″ FNPT or 1″ MNPT |
| Z-6016 | 4 – 28 | 10 – 100 | 80 – 800 | 300 – 3000 | |
MEASURING RANGE WITH ALARM SWITCH
| Model | Measuring Range | Thread | |||
| Water | Air | ||||
| GPM | LPM | GPM | LPM | ||
| Z-6011A | 0.5 – 7 | 2 – 25 | 18 – 180 | 60 – 600 | 1/2″ FNPT or 3/4″ MNPT |
| Z-6012A | 1 – 9 | 2 – 35 | 20 – 200 | 70 – 700 | |
| Z-6013A | 1 – 13 | 3 – 50 | 25 – 250 | 100 – 1000 | |
| Z-6014A | 3 – 16 | 10 – 60 | 35 – 350 | 150 – 1400 | |
| Z-6015A | 4 – 22 | 15 – 80 | 52 – 520 | 200 – 2000 | 3/4″ FNPT or 1″ MNPT |
| Z-6016A | 5 – 28 | 20 – 100 | 80 – 800 | 300 – 3000 | |
Flowtech Z-6000 series feature a unique spring loaded design which decreases viscosity sensitivity and allows the flow meters to be used in any position, including inverted. A precision molded, sharp-edged orifice located within the piston assembly, forms an annular opening with the body. Flow through the meter creates a pressure differential across the sharp-edged orifice, moving the piston against the spring. The piston moves precisely, in direct proportion to the rate of flow. The calibrated spring opposes flow in the forward direction.