Henan Dajia Mining Machinery Co., Ltd.

Add.: 500 meters west, Rizhao Road and Industrial Road, Mazhai Industrial Zone, Zhengzhou City, China
Tel.: +86-371-67575157
+86-371-86552260
Fax: +86-371-67575197
+86-371-86552260

Home » Product » Separation Equipment » Magnetic Separator
Magnetic Separator

Magnetic Separator

This series of magnetic separator is characterized by its intensive magnetic field, great separation factor, optimized structure, light weight, dependable operating efficiency, and convenient maintenance. It is well suited for use in areas facing severe water shortage where precocious water must be saved and ore dressing cost needs to be reduced. Over history, industry has developed a variety of new ways to carry out ore dressing. One way is to utilize the magnetic field. At remotely located mine site where electricity is often not available, our separator can be used, as it can be driven by a diesel engine. The magnetic field strength it produces may vary according to the variety of minerals to be separated.

Application
Automatic separation/recovery of ferrous and non-ferrous materials

Work Principle
The mineral slurry flows into the drum via the feed hopper. The impact force of water flow causes the tightly bonded mineral particles to become loose. The water flow is created by a pump that is attached to the drum. There are magnetic poles installed around the circumference of the drum inner wall, evenly spaced apart with alternating negative and positive polarity.

Under the influence of magnetic field, magnetically susceptible particles swarm together to form magnetic chain or magnetic cluster. Attracted by the magnetic field, the magnetic cluster swims towards and clings to the surface of the magnetic pole. The rotation of the drum causes the magnetic filed to reverse its polarity alternately, which in turn enables the magnetic chain to spin very quickly and stir the mineral slurry. As the mixture is tumbled within the drum, gangues and other non-magnetic ores contained in the magnetic cluster come off of it. The result of this tumbling process is that the magnetic cluster which clings to the surface of the drum gets purified. The cluster usually sticks to the end of a magnetic pole where the magnetic strength is the weakest. Operators can use a water pipe to flush the cluster off the pole and discharge it into a trough. Non-magnetic ores are discharged from the opening at the base of drum. They are called tailings.

Specifications (Wet Type)
Model Magnetic Field Intensity (Oe ) Production Capacity (t/h) Power (kw ) Weight (kg)
CTB600×1200 1450 8-15 1.5 910
CTB600×1800 1500 15-25 2.2 1340
CTB750×1800 1550 30-45 3 2050
CTB900×1800 1650 35-60 4 3000
CTB1050×2400 1650 60-95 5.5 5020
CTB1200×3000 1650 80-150 7.5 7800
CTB1500×3000 1650 120-200 11 9600
Specifications (Dry Type)
Basic Parameters Model
GYC-60B GYC-60B-I GYC-2×60 GYC-3×60 GYC-3×80 GYC-4×80
Drum Diameter × Length (mm) Φ320×600 Φ320×600 Φ320×600 Φ320×600 Φ404×800 Φ404×800
Max. Magnetic Induction Intensity 3500 1100 3500 110-3000-3500 110-3000-3500 110-3000-5000
Quantities of Drum 1 1 2 3 3 4
Rotating Speed of Drum (r/min) 66.47.33 66.47.33 66.47.33 34.5-172 (adjustable) 54.5-172 (adjustable) 54.5-172 (adjustable)
Dimensions of Raw Materials (mm) 0.05-25 0.063-25 0.05-25 0-8 0-8 0-8
Motor Model Y801-4 Y801-4 Y801-4 ZBW-1.5 ZBW-1.5 ZBW-1.5
Power (kw) 0.75 0.75 0.75 1.1 1.5 2.2
Productivity t /h 0.5-2.5 0.1-3 0.5-2.5 0.8-2.5 1.5-2.5 1.5-2.5
Weight 0.25 0.65 0.5 1.2 1.5 2.4
Application and Description Fine selection Coarse selection Fine selection With vibrating feeder With vibrating feeder Fine selection

Related Names
Solid Mineral Separator | Iron Ore Separator | Metal Separation Equipment

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