Square gyratory screen is also called reciprocating screen, if see from the motion trail of
screen box. The vibratory force produced by its driving device is the inertial force twining along
the dead axle, the direction of which is change according to a certain regular. The essence of
square gyratory screen is the reciprocating inertia force formed by the rotation of eccentric
wheel winding the dead axle. According to the structure characteristics and working principle of
gyratory screen, its screen surface is arranged with level or incline ( the angle of inclination
is 0~5°). working principle of gyratory screen is that after starting the screen machine, the
shaking body of screen machine namely screen box make reciprocating motion under the
action of the inertial force, screen box drives screen surface to make periodic shaking, which
makes the material on the screen surface to make directional jumping movement with the
screen box. During the period the material smaller the aperture of the screen surface fall to
under layer through the sieve mesh to become the screen underflow. The material bigger
than the aperture of the screen surface is discharged from the discharge gate after the
continuous roll jumping movement and finally complete screening work.
From the structure and working principle of FYBS1 square gyratory screen can see that the
resident time of material staying on the screen surface namely the distance of its drive
mechanism eccentric wheel apart from the motion trail of material has a very important
influence, that is to say having the opposite effect to processing capacity and screening
efficiency of screening machine. To this end, in actual screening assignments, we can
make our choices in the two aspects of production capacity and screening efficiency.
With the same or similar configuration, FYBS1 type gyratory screen have higher processing
ability and the screening efficiency than the general inertia vibrating screen, the models can
artifically control the material in the screen surface movement and residence time, because
the materials’ movement speed and acceleration are to change nonlinear curve, therefore,
materials and the screen surface had more chance to contact, of course also increase the
screening rate.
