6S Shaker Table Selection: Determining Solutions Based on "Demand Matching"

6S Shaker Table Selection: Determining Solutions Based on "Demand Matching"

Selecting 6S Shaker Table Surface Size by Processing Capacity (Core Matching)
Based on the hourly pulp processing capacity (t/h) of the production line, select the corresponding common table surface specifications (1.2×2.4m, 1.5×3m, 2×4m):

1-2 t/h (small-scale production line): Choose 1.2×2.4m, suitable for laboratory purification and small gold mines, avoiding idleness.

3-5 t/h (medium-scale production line): Choose 1.5×3m, which balances production capacity and site requirements, and is suitable for roughing and cleaning of township-level tungsten mines/tin mines.

6-10 t/h (large-scale production line): Choose 2×4m, or multiple units in parallel (e.g., 2 units meet 12-20 t/h), suitable for 10,000-ton-level gold mines and quartz sand purification.

Key Note: When the pulp solid-liquid ratio is ≤1:5, calculate based on the dry ore quantity (e.g., 10 m³/h pulp with a solid content of 20% equals 2 t/h dry ore quantity, corresponding to a 1.2×2.4m table surface).


Selecting 6S Shaker Table Model by "Material Characteristics" (Core Matching)
1. Select Table Surface Type by Particle Size

Fine-grained minerals (0.074-0.5mm, such as fine gold and fine tungsten slime): Choose "narrow table surface + dense convex ridges". The table surface width is 1.2-1.5m, and the convex ridge spacing is 5-8mm to enhance fine particle interception.

Coarse-grained minerals (0.5-2mm, such as coarse placer gold and massive tungsten ore): Choose "wide table surface + sparse convex ridges". The table surface width is 1.8-2m, and the convex ridge spacing is 10-15mm to prevent blockage and quickly discharge gangue.

2. Select Transmission Mode by Density

High-density minerals (gold, tungsten, etc., with a density >10g/cm³): Choose "high frequency + small amplitude", with a frequency of 550-600 times per minute and an amplitude of 3-5mm for rapid separation.

Medium and low-density minerals (tin, iron, etc., with a density of 5-10g/cm³): Choose "medium frequency + medium amplitude", with a frequency of 500-550 times per minute and an amplitude of 5-8mm to balance efficiency and interception.

Selecting 6S Shaker Table Configuration by "Separation Target" (Core Matching)
Cleaning Requirement (improving grade): Choose "double table surfaces in series" for secondary purification after roughing. For example, the grade of gold rough concentrate can be increased from 5g/t to more than 50g/t, reducing smelting costs.

Roughing Requirement (improving recovery rate): Choose "single table surface + large flushing water". The horizontal inclination angle of the table surface is 1.5-2°, and the flushing water volume is 3-5m³/h, suitable for raw ore roughing (e.g., tungsten mineral recovery rate >80%).

Scavenging Requirement (reducing loss): Choose "low frequency + large amplitude" (frequency: 450-500 times per minute, amplitude: 8-10mm) + wide ore discharge port, suitable for tailing scavenging (e.g., recovering residual fine gold).