Electromagnetic Vibrating Feeder

The Electromagnetic Vibrating Feeder is a highly efficient, energy-saving, and reliable material conveying equipment. It utilizes an electromagnetic vibration principle combined with a spring-supported structure. It is widely used for feeding non-metallic minerals (such as limestone, quartz sand, and gypsum), metal ores (such as iron ore, copper ore, and zinc ore), and industrial raw materials (such as coal, cement, and refractory materials).

Compared to traditional mechanical feeders, the Electromagnetic Vibrating Feeder offers advantages such as a simpler structure, lower energy consumption, and more precise feeding control. It has become mainstream equipment in the modern material conveying industry.

In industries such as mining processing, metallurgical production, and building materials manufacturing, the Electromagnetic Vibrating Feeder, due to its high efficiency, stability, and adaptability, has become a core piece of material conveying equipment. However, many remain skeptical about its scope of application: What materials can the Electromagnetic Vibrating Feeder convey? How can one choose the optimal feeding solution for different materials?

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Core Advantages of Electromagnetic Vibrating Feeders

Using electromagnetic vibration and spring-supported technology, the Electromagnetic Vibrating Feeder is a leading equipment for continuous material conveying. Its unique advantages over traditional mechanical feeders and screw conveyors include:

• Strong Material Adaptability: It can convey a wide range of materials with particle sizes of 0-50mm, including metal ores, non-metallic minerals, and industrial raw materials.

• Adjustable Feeding Capacity: The feeding rate can be adjusted from 0.5 to 50 t/h, meeting the needs of various production lines.

• Energy Saving: Compared with traditional mechanical feeders, it saves 20%-30% energy and has lower operating power consumption.

• Stability and Reliability: Its electromagnetic drive design reduces mechanical wear and extends service life.

But please note! The Electromagnetic Vibrating Feeder is not a universal feeder. Certain special materials (such as high-viscosity and high-temperature materials) require additional equipment modification.
Core Structure of the Electromagnetic Vibrating Feeder

The core structure of the Electromagnetic Vibrating Feeder can be divided into four major modules: the drive system, the feeding trough, the spring system, and the control system. These systems work together to ensure an efficient and stable material conveying process.

• Drive System: An electromagnetic vibrator with adjustable amplitude, ensuring stable vibration, with core components boasting a service life of over 10,000 hours.

• Feeding Trough: A wear-resistant plate design, which can evenly convey materials with a feeding accuracy error of less than 2%.

• Spring System: A multi-group leaf spring structure, which enhances vibration efficiency and reduces noise below 75 dB.

• Control System: Thyristor voltage regulation control, with a feeding speed adjustment accuracy rate of up to 98%.

This structural design enables the Electromagnetic Vibrating Feeder to save over 25% energy compared to traditional feeders, while maintaining a feeding stability error of less than 2%.

Material Application

Electromagnetic vibrating feeder Features

Metal Ores (Suitable for Mineral Processing and Metallurgy)

• Iron Ore, Manganese Ore, and Copper Ore: Convey with a feeding rate of 5-30 t/h for use in crushing, grinding, or beneficiation processes.

• Gold Ore, Lead-Zinc Ore: Steady feeding at 2-15 t/h to ensure uniform processing in leaching or flotation systems.

• Rare Earth Ore: Precise conveying at 1-10 t/h to match the requirements of extraction and separation procedures.

Non-Metallic Minerals (Main Industries for Building Materials, Chemicals, and Ceramics)

• Limestone and Calcite: Convey at 10-50 t/h for processing in cement production or powder grinding lines.

• Barite and Fluorite: Feed at 3-20 t/h to meet the needs of ore dressing or filler manufacturing.

• Kaolin and Bentonite: Stable conveying at 2-12 t/h for use in ceramic production or chemical modification.

• Gypsum and Talc: Building Grade (8-35 t/h) feeding to suit different processing standards.

Model	Feeding capacity(tph)	Max input size(mm)	Power(kw)	Valtage(v)	Current(a)	Double swing(mm)
GZ1	5	50	0.06	220	<=1	1.75
GZ2	10	60	0.15	220	<=2.3	17.5
GZ3	25	70	0.2	220	<=3.8	1.75
GZ4	50	100	0.45	220	<=7	1.75
GZ5	100	150	0.65	220	<=7	1.75

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≤200mm

60-800W

0.5-25t/h

Products Display

Core Advantages of Electromagnetic Vibrating Feeders

Core Structure of the Electromagnetic Vibrating Feeder

Material Application

Metal Ores (Suitable for Mineral Processing and Metallurgy)

Non-Metallic Minerals (Main Industries for Building Materials, Chemicals, and Ceramics)

specification

Contacts and Support

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Electromagnetic vibrating feeder

≤200mm

60-800W

0.5-25t/h

Products Display

Core Advantages of Electromagnetic Vibrating Feeders​

Core Structure of the Electromagnetic Vibrating Feeder​

Material Application

Metal Ores (Suitable for Mineral Processing and Metallurgy)​

Non-Metallic Minerals (Main Industries for Building Materials, Chemicals, and Ceramics)​

specification

Product Recommendation

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Screw conveyor

Dry ball mill

Contacts and Support

Hotline

WhatsApp

Products

please contact us

Core Advantages of Electromagnetic Vibrating Feeders

Core Structure of the Electromagnetic Vibrating Feeder

Metal Ores (Suitable for Mineral Processing and Metallurgy)

Non-Metallic Minerals (Main Industries for Building Materials, Chemicals, and Ceramics)