Feature
1. High capacity
2. High concentration ratio and high recovery
3. Fabricated with highest quality material
4. Saving water 30-40% than ordinary jig
5. The pulsation curve is saw-tooth wave shape facilitate heavy mineral to settling
6. Easy to install, operate and maintain
7. The pulsation speed very easy adjusted by regulator
8. Suitable for roughing and desliming
9. Can achieve a good result in processing such as placer gold, tungsten, iron, tin, hematite, cope, tantalum-niobium, titanium, manganese, barite, zirconium, chrome and gemstone etc.
Saw-tooth Wave Jig
Nigeria Chrome Ore Production
Descriptions
Sawtooth Wave Jig is a new type of energy saving and high efficient gravity separation equipment and developed based on the traditional Sine Wave Jig. The difference between Saw-tooth Wave Jig and Sine Wave Jig is that the pulsation curve for jigging is saw-tooth wave shape, with speedy upward flow and slow downward flow. Bed layer is elevated integrally and slowly dropped with a long effective loose time, allowing significant increase of handling capacity for unit screen surface, decrease of lower limit of grain size recovery and large save of make-up water for under size fraction.
In practice, contrast of Saw-tooth Wave Jig and Sine Wave Jig shows up raises of recovery of Saw-tooth Wave Jig: Sn:3.01%, W:5.5%, Pb:1.63%, Zn:2.04%.
Phipippines Iron Ore Processing with trommel, jig etc
Provide high quality, best service and competitive price mining plants with flowchart and design diagram. Such as shaking table, jig, gold trommel, gold sluice, rotary screen, sand washer, spiral chute etc which passed ISO9001:2008 Certification.
Indonesia Manganese Ore Production
We can make a special mineral processing approach for you with least cost & simplest way. We also provide all small/lab testing mining equipment, welcome to contact me for the details. Please do not hesitate to contact for possible business co-operation on below E-mail.
Mongolia Tungsten Ore Production
South Africa Barite Ore Production
Model |
Hutch |
Diaphragm |
Feeding Size
(mm) |
Amount of make-up water (m3/t) |
Make-up water pressure
(Mpa) |
Capacity
(t/h) |
Power
(kw) |
Dimensions
(mm) |
Weight
(Kg) |
Shape |
Area
(m2) |
Stroke
(mm) |
Frequency of Stroke
(r/min) |
JT0.57-1 |
Trapezoid |
0.57 |
8.5_12
10_17
12-21 |
80-180 |
<6 |
1-2 |
≥0.05 |
1.5-3 |
1.5 |
1550*780*1530 |
610 |
JT1-1 |
Trapezoid |
1.04 |
<10 |
2-3 |
2.5-5 |
2.2 |
2270*1110*1890 |
900 |
JT2-2 |
Rectangle |
2.28 |
<10 |
2-4 |
5-10 |
3 |
3225*1550*2050 |
1640 |
JT3-1 |
Trapezoid |
3 |
12-30 |
50-125 |
<10 |
3-6 |
7.5-15 |
5.5 |
2745*2000*3030 |
3085 |
JT4-2 |
Rectangle |
4 |
25-57 |
<25 |
4-8 |
8-20 |
7.5 |
4240*1990*2750 |
3098 |
JT4-2S |
Rectangle |
4 |
25-57 |
<25 |
4-8 |
8-20 |
4×2 |
4240*19908*2750 |
3500 |
JT5-2 |
Trapezoid |
4.86 |
12-30 |
<10 |
3-6 |
12-25 |
7.5 |
3600*2000*2600 |
4500 |