Self-washed automated filters of FSV series
Filters work on a principle of clearing of a filtering element as a return stream of water. Are issued for pressure 0,5...20 bar, optimal work at pressure from 2 to 10 bar.
 Application area
Filters FSV series (patent number 98354 Ukraine, 05/10/2012) are versatile and can be used for flow rate up to 3400 m3/hr (up to DN 700 mm) anywhere passes on the size and installation conditions.
Filters FSV series are recommended mainly where installation is required under the terms of continuous-flow filter, where there are restrictions on height and short-term flow rate water per flush.
Typical application area of filters FSV series: metallurgical, power, chemical, agricultural industry, municipalities.
 Technical features
Direct-flow execution;
The insignificant expense of water on washing;
Filtering element has cells for gathering of firm inclusions;
Consecutive periodic washing of cells of an Filtering element by a cleaner in an automatic mode;
Continuation of a filtration of water at self-washing;
Non-failure operation in the presence of large inclusions;
The cleaner drive is equipped by a specialsafety device;
Management and the alarm system by means of modern contactless gauges of pressure;
The programmed block of automatics and management with the minidisplay and reprogramming possibility under concrete conditions (for example, seasonal);
It-can be delivered with filtering grids with a cell to 50 microns.
 Technical characteristics
|
Filter designation
|
Grid area, m2
|
Parameters of base filters with a grid of 1 mm
|
Maximum throughput (expense) of the filter, m3/hour, at the size of a cell of a grid of
|
Drive capacity, kw
|
Weight, kg
|
|
D, mm
|
Expense, m3/hour
|
3 mm
|
2 mm
|
1 mm
|
0,5 mm
|
|
FSV-200
|
0,16
|
200
|
170
|
290
|
230
|
170
|
145
|
0,18
|
360
|
|
FSV-300
|
0,38
|
300
|
410
|
680
|
550
|
410
|
340
|
590
|
|
FSV-400
|
0,63
|
400
|
680
|
1130
|
910
|
680
|
570
|
0,25
|
620
|
|
FSV-500
|
1,0
|
500
|
1100
|
1800
|
1440
|
1100
|
900
|
750
|
|
FSV-600
|
1,4
|
600
|
1500
|
2500
|
2020
|
1500
|
1250
|
0,37
|
900
|
|
FSV-700
|
1,9
|
700
|
2100
|
3400
|
2750
|
2100
|
1700
|
1100
|
At will of the Customer the equipment with distinct from resulted in the present Catalogue in parametres can be put.
 Overall dimensions


|
Filter designation
|
Dy,mm
|
Dk,mm
|
L,mm
|
L1,mm
|
H,mm
|
H1,mm
|
N, mm
|
dsl, mm
|
|
FSV-200
|
200
|
440
|
1000
|
610
|
930
|
350
|
400
|
76
|
|
FSV-300
|
300
|
600
|
1340
|
815
|
1250
|
470
|
500
|
95
|
|
FSV-400
|
400
|
730
|
1660
|
1000
|
1460
|
590
|
800
|
114
|
|
FSV-500
|
500
|
850
|
1930
|
1170
|
1640
|
680
|
950
|
133
|
|
FSV-600
|
600
|
980
|
2230
|
1350
|
1860
|
790
|
1100
|
146
|
|
FSV-700
|
700
|
1120
|
2540
|
1550
|
2100
|
900
|
1300
|
152
|
 Design’s description
Filter FSV direct-flow and as a whole is similar to filter FSC. Main difference the filter FSV from the filter FSC that is direct-flow FSV filter, filter easier to cut into the pressure line of filtered water has a smaller height dimension
Filter FSV has the cylindrical Filtering element consisting of a cylindrical skeleton (in the form of the squirrel cage with set of longitudinal cells) and the corrosion-proof grid tense on it.
Coaxially to an Filtering element the cleaner with one or two rectangular (under the form of cells of an Filtering element) nozzles is established. At washing of the filter the cleaner rotates, and nozzles are consistently combined with element cells.
Thus nozzles, and through them and filter cells, consistently incorporate to the drain pipeline, the return stream of water through cells and grid sites in them which serially clears all cells and sites of a grid is created and takes out dust on plums.
Presence of a skeleton with cells favourably distinguishes the filter from filters of other manufacturers: the large pollution which are coming across in water, take places in cells, and do not stir to cleaner rotation, excepting its jamming.
In contrast to the FSC filter FSV grille coarse filter installed upstream of the filter and served through the hatch, which is necessary to block the flow of water through the filter to clean it (which usually happens rarely - once in six months - a year). If this operation is not possible to cut off the water that is fed through a filter, use the bypass.
Filter FSV gives a slight short-term consumption of water for washing. This short time flow lasts at set intervals. Therefore, the total loss of water to wash a fraction of one percent of the bandwidth of the filter.
 |