Model Name | Feeder Size (Width mm x Length mm) | Maximum Feed Size (mm) | Throughput Capacity (TPH) | Required Power (KW / HP) | Type Of Vibrator | Download Brochure |
VPF 0818 | 800 x 1800 | 200 | 200 | 3 (1.5 x 2) / 4 (2 x 2) | Linear Electrical | |
VPF 1220 | 1200 x 2000 | 250 | 250 | 4.4 (2.2 x 2) / 6 (3 x 2) | Linear Electrical | |
MPFSS 0818 | 800 x 1800 | 200 | 80 | 5.5 / 7.5 | Circular Mechanical |
A vibratory pan feeder is a type of feeder equipment used in various industrial applications, including mining, quarrying, and aggregate processing. As the name suggests, a vibratory pan feeder uses vibration to move and transport materials along the feeder pan, which is typically made of steel or other durable materials.
Design and Parts of Vibratory Pan Feeder: A vibratory pan feeder is typically designed with a rectangular shaped pan that is suspended from a frame using springs. The pan is vibrated either by an electric motor or by eccentric shaft mechanism, which creates a series of small vibrations that move the material along the feeder. The pan can be customized in sizes to achieve feed capacities.
The vibratory pan feeder consists of several key parts, including the feeder pan, motor or eccentric shaft mechanism, springs, and supports. The feeder pan is the main component of the feeder and is responsible for carrying and transporting the materials. The vibratory motor or eccentric shaft generates the vibrations that move the materials along the pan, while the springs and supports help to absorb any shock or vibration generated by the motor.
Advantages of Vibratory Pan Feeder: There are several advantages of using a vibratory pan feeder in industrial applications. One of the main advantages is the ability to handle a wide range of materials, including large, heavy, or abrasive materials. Advantage of using a vibratory pan feeder is the precise and accurate control over the feed rate, which can help optimize the performance of downstream equipment and reduce the risk of equipment damage.
Working Principle of Vibratory Pan Feeder: The working principle of a vibratory pan feeder is based on the principle of resonance, which occurs when an external force is applied to an object at its natural frequency. In the case of a vibratory pan feeder, the pan is designed to vibrate at a specific frequency, which is determined by the size, weight, and characteristics of the materials being fed. When the motor is turned on, it generates a series of small vibrations that are transferred to the feeder pan. These vibrations create a wave-like motion that moves the materials along the pan, ultimately transporting them to the downstream equipment.
Maintenance of Pan Feeder: To ensure the efficient and reliable operation of a vibratory pan feeder, regular maintenance is essential. This may include cleaning the feeder pan, inspecting the motor or eccentric assembly and other components for wear or damage, and adjusting the feeder settings to optimize performance. It is also important to follow the manufacturer’s guidelines for maintenance and repair, and to use high-quality replacement parts when necessary.
Conclusion: In conclusion, vibratory pan feeders are an essential piece of equipment in many industrial applications, providing precise and reliable control over the feed rate of materials. With their robust design, versatile applications, and ability to handle a wide range of materials, vibratory pan feeders are an excellent choice for any industrial operation that requires precise and efficient material handling.
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