Place of Origin: | Zhejiang |
---|
Location: | Yantai, Shandong, China (Mainland) |
---|---|
Business Type: | Manufacturer |
Compact Structure Mining Industry Gravity Separator Machine Bottom Driven Jig
Compact Structure Gravity Separator Machine Bottom Driven Jig
Quick Detail:
1. Sawtooth wave jig is revised and manufactured, based on the stratified theory and the adequate analysis of other conventional jigs. The jigging pulsation curve----produced by sawtooth wave jig----is in the shape of sawtooth wave which makes upward water flow quicker than downward water flow.
2. The feature that upward time is shorter than downward time solves the problem that time and action of upward/downward water flows. This breakthrough dramatically amplifies the loose degree and mitigates suction action, which facilitates precipitation of coarse ores and improves ore recovery rate.
Description:
Jig concentrators are devices mainly used in the mining industry for mineral processing, to separate particles within the ore body, based on their specific gravity (relative density). The particles should be in similar size. And Jig is mainly used to handle placer gold, tungsten, tin, hematite and beach placer.
Applications:
It is mainly used to handle placer gold, tungsten, tin, hematite and beach placer.
Principle:
Sawtooth wave jig is revised and manufactured, based on the stratified theory and the adequate analysis of other conventional jigs. The jigging pulsation curve----produced by sawtooth wave jig----is in the shape of sawtooth wave which makes upward water flow quicker than downward water flow. The feature that upward time is shorter than downward time solves the problem that time and action of upward/downward water flows. This breakthrough dramatically amplifies the loose degree and mitigates suction action, which facilitates precipitation of coarse ores and improves ore recovery rate.
Specifications :
type | model |
length× width |
Jigging Chamber area |
The number Of General Jigging chamber |
General Area of jigging Chamber (m2) |
Stroke Coefficient |
Diaphragm stroke |
diaphragm |
The maximum Feed size |
Processing capacity |
Water consumption |
Motor power |
weight (kg) |
Lateral driven | LTP- 34/2 |
450×300 | 0.135 | 2 | 0.27 | 0.58 | 025 | 320420 | 12 | 26 | 410 | 1.1 | 750 |
Bottom driven | LTA- 55/2 |
500×500 | 0.25 | 0.5 | 0.5 | 026 | 250;300;350 | 5 | 15 | 420 | 1047 | ||
LTA- 1010/2 |
1000×1000 | 1 | 2 | 025 | 250;300;350 | 515 | 2060 | 22 | 1516 | ||||
RevibratingRe- | 05 | 400750 | 210 | 45 | 4045 | 1.7 | 1620 | ||||||
Side driven | LTC 69/2 |
900×600 | 0.54 | 1.08 | 0.56 | 050 | 220350 | 12 | 69 | 4060 | 15 | 1420 | |
2LTC- 79/4 |
900×700 | 0.63 | 4 | 2.52 | 0.48 | 160250 | 515 | 2090 | 22 | 2450 | |||
2LTC- 912/4 |
1200×900 | 1.08 | 4.32 | 0.49 | 160-250 | 725 | 60120 | 3 | 3500 | ||||
2LTC- 366/8T |
600×(300600) | 0.20.34 | 8 | 2.16 | 0.680.40 | 120300 | 5 | 36 | 2040 | 1.1×2 | 1600 | ||
2LTC- 6109/8T |
900×(6001000) | 0.580.86 | 5.76 | 0.520.35 | 1020 | 80120 | 2.2×2 | 4650 |