Magnetic Return Filter WY-600x30Q2
Product SpecificationsHuahang
Model
Flow rate
(L/min)
Press
(Mpa)
Filtration accuracy
(μm)
By-pass setting
(Mpa)
Magnet area
Weight
(Kg)
Model of element
GP-A300x*Q2C/Y
300
1.6
3
5
10
20
30
170
9
GP300x*Q2
GP-A400x*Q2C/Y
400
9.7
GP400x*Q2
GP-A500x*Q2C/Y
500
11.5
GP500x*Q2
GP-A600x*Q2C/Y
600
11.8
GP600x*Q2
WY-A300x*Q2C/Y
300
0.3
12
WY300x*Q2
WY-A400x*Q2C/Y
400
13
WY400x*Q2
WY-A500x*Q2C/Y
500
13.8
WY500x*Q2
WY-A600x*Q2C/Y
600
15.7
WY600x*Q2
WY-A700x*Q2C/Y
700
16.5
WY700x*Q2
WY-A800x*Q2C/Y
800
WY800x*Q2
Model |
Flow rate (L/min) |
Press (Mpa) |
Filtration accuracy (μm) |
By-pass setting (Mpa) |
Magnet area
|
Weight (Kg) |
Model of element |
GP-A300x*Q2C/Y |
300 |
1.6 |
3
5
10
20
30 |
|
170 |
9 |
GP300x*Q2 |
GP-A400x*Q2C/Y |
400 |
9.7 |
GP400x*Q2 |
||||
GP-A500x*Q2C/Y |
500 |
11.5 |
GP500x*Q2 |
||||
GP-A600x*Q2C/Y |
600 |
11.8 |
GP600x*Q2 |
||||
WY-A300x*Q2C/Y |
300 |
0.3 |
12 |
WY300x*Q2 |
|||
WY-A400x*Q2C/Y |
400 |
13 |
WY400x*Q2 |
||||
WY-A500x*Q2C/Y |
500 |
13.8 |
WY500x*Q2 |
||||
WY-A600x*Q2C/Y |
600 |
15.7 |
WY600x*Q2 |
||||
WY-A700x*Q2C/Y |
700 |
16.5 |
WY700x*Q2 |
||||
WY-A800x*Q2C/Y |
800 |
|
WY800x*Q2 |
Product featuresHuahang
1. Efficient filtration
Magnetic filters use magnetic materials to adsorb impurities in liquids, effectively filtering out iron, copper, sand, and other substances in the liquid, thereby achieving efficient filtration.
2. Easy to use and maintain
The magnetic filter has a simple structure and is easy to use. It does not require the replacement of filter materials and only requires regular cleaning and maintenance, with a long service life.
3. Environmental protection and energy conservation
Magnetic filters only adsorb impurities through magnetic force, do not require the use of any chemical reagents, have no pollutant emissions, and comply with the concept of environmental protection and energy conservation.
Product ApplicationHuahang
1. Unable to filter small particles
Magnetic filters can only filter particles larger than a certain size, and small particles and colloidal impurities cannot be filtered.
2. Restricted by ambient temperature
The magnetic adsorption force of magnetic filters may be weakened due to the influence of environmental temperature, and their effectiveness may not be satisfactory when used in high-temperature environments.
3. Affected by acidity and alkalinity
When using magnetic filters, it is important to avoid contact with corrosive substances such as strong acids and alkalis, as this may affect the adsorption capacity of the magnetic filter.
Overall, magnetic filters are a relatively reliable filtering device, but due to their limitations in the filtering field, they need to be selected and used according to different application scenarios.