One: Vibration motors are installed on both sides of the linear vibration screen.

This installation method is also commonly used for the vibration motors of linear vibration screens. It is typically employed when the overall height of the equipment is restricted by the customer, but there are no limitations on the width. For certain materials with special requirements, the discharge outlet of the equipment cannot be too high from the ground. In such cases, if the vibration motor is still installed at the bottom of the linear screen, controlling the overall height of the equipment becomes difficult. The height of the screen box of the linear screen is usually fixed, so adjustments to the screen box height are not possible. Therefore, the vibration motor can be installed on the sides of the linear screen instead of at the bottom, significantly reducing the overall height of the equipment. This meets the customer's restrictions on the overall height of the linear screen without affecting the equipment's operational efficiency.

The vibration motor is installed at the bottom of the linear vibration screen.

This is a common installation method for linear vibration screen motors, typically recommended to customers for its safety, reliability, and space-saving benefits. In addition to accommodating the linear screen equipment, it's advisable to leave some width on both sides of the screen for ease of material feeding and maintenance operations. If the equipment is too wide, it may not fit properly or could be勉强 placed, leading to inconvenience in future use. Of course, one could address this by reducing the overall width of the linear screen, such as the screen frame, but this would decrease the effective screening area, reducing the processing capacity and impacting screening efficiency and production progress. Therefore, opting to install the vibration motor at the bottom of the equipment can reduce the overall width of the linear screen, ensuring the effective screening area is maintained without affecting processing capacity and screening efficiency, while significantly decreasing the overall width of the linear screen equipment.