PHE SuperMaxFlow® Agitator Disk Bead Mill The innovative disk + turbine grinding system of PHE SuperMaxFlow® has outstanding advantages on suspension liquid grinding. The technology enables the grinding medium not to accumulate when the output is increased. The overall optimized flow guiding spacer design achieves the optimal residence time distribution of the particles and the axial distance of the disk is optimal, forming a plurality of continuous grinding units, which flow through the material along the axial direction continuously. In each grinding unit, the number of effective collisions between the material particles and the grinding medium is also greatly increased, so that the operation of the grinding medium is more powerful, and the circular running track is more reasonable.
The outstanding advantage of the newly developed grinding system is the patented grinding disk, which can meet the processing requirements of products with large capacity and high viscosity, no matter in batch mode or cycle mode. It is especially recommended for painting, coating, ink and other products.
PHE SuperMaxFlow® includes a highly efficient reflective cage strip with multiple abrasive discs and dynamic classifier grinding
system. In the reflective cage area, there have separation device for grinding media and materials. It adopts a rotor/slotted pipe
separation system, which minimizes flow resistance (Ie pressure drop), prevents the accumulation of grinding media, makes the flow
in the chamber higher, and avoids wear of the separator.
Advantages:
1. The innovative patented dispersing disk
2. Ideal choice for dispersing and grinding high viscosity products
3. Long life of sieve, can use 0.3-2.5 mm grinding beads
4. Optional various materials for optimum machine configuration
5. Height of the working chamber is ergonomic
TECHNICAL PARAMETER:
Model [L]
|
|
5
|
15
|
30
|
60
|
100
|
200
|
300
|
500
|
1000
|
1200
|
Productivity enlarged
proportion factor
|
|
0.25
|
0.6
|
1
|
2
|
4
|
6
|
8
|
12
|
18
|
22
|
PHE SuperMaxFlow®
|
|
○
|
○
|
○
|
○
|
○
|
○
|
○
|
○
|
○
|
○
|
Volume [L]
|
|
7.5
|
17
|
33
|
73
|
151
|
293
|
379
|
666
|
1270
|
1390
|
Effective Volume [L]
|
|
5.5
|
15
|
29
|
61
|
109
|
220
|
300
|
520
|
970
|
1170
|
Motor Power [KW]
|
*
|
7.5~11
|
15~18.5
|
18.5~22
|
37~45
|
45~55
|
75~90
|
90~132
|
132-200
|
280~315
|
315~355
|
Rotation Speed [rpm]
|
|
800~2300
|
700~1500
|
700~1500
|
700~1500
|
600~1450
|
600~1450
|
600~1450
|
600~1450
|
250~900
|
250~900
|
Diameter of
grinding medium [mm]
|
|
0.3-1.6
|
0.3-1.6
|
0.3-1.8
|
0.3-1.8
|
0.3-1.8
|
0.3-2.0
|
0.3-2.0
|
0.3-2.0
|
0.3-3.0
|
0.3-3.0
|
Filling rate of
grinding medium [vol.%]
|
*
|
70~85%
|
70~85%
|
70~85%
|
70~85%
|
70~85%
|
70~85%
|
70~85%
|
70~85%
|
70~85%
|
70~85%
|
Batch of processing [L]
|
|
20~120
|
50~260
|
120~550
|
200~1000
|
500~2500
|
1000~3000
|
1000~3000
|
1000~5000
|
2000~10000
|
2000~10000
|
Rate of flow [L/h]
|
*
|
20~210
|
60~800
|
120~1600
|
300~2500
|
700~3500
|
800~4500
|
800~4500
|
1000~5500
|
4000~12000
|
4000~14000
|
Material of
grinding disk
|
ZrO2
|
○
|
○
|
○
|
○
|
○
|
—
|
—
|
—
|
—
|
—
|
PU
|
○
|
○
|
○
|
○
|
○
|
○
|
○
|
○
|
○
|
○
|
Alloy
|
○
|
○
|
○
|
○
|
○
|
○
|
○
|
○
|
○
|
○
|
Material of
inner chamber
|
SiC
|
○
|
○
|
○
|
○
|
○
|
○
|
○
|
—
|
—
|
—
|
ZrO2
|
○
|
○
|
○
|
○
|
○
|
—
|
—
|
—
|
—
|
—
|
Alloy
|
○
|
○
|
○
|
○
|
○
|
○
|
○
|
○
|
○
|
○
|
PU
|
○
|
○
|
○
|
○
|
○
|
○
|
○
|
○
|
○
|
○
|
Measurement [mm]
|
Length
|
1382
|
1536
|
1540
|
2147
|
2200
|
2700
|
2900
|
3800
|
5815
|
6795
|
Width
|
780
|
1010
|
1065
|
950
|
950
|
1100
|
1250
|
1350
|
2645
|
1345
|
Height
|
1455
|
1642
|
1945
|
1550
|
1550
|
2255
|
1850
|
2500
|
1680
|
2470
|
Weight [kg]
|
|
≈350 kg
|
≈750 kg
|
≈850 kg
|
≈1650 kg
|
≈2000 kg
|
≈2500 kg
|
≈2500 kg
|
≈8000 kg
|
≈9800 kg
|
≈10800 kg
|
o Optional - Unavailable * Depend on the viscosity, separation model and pump size
|