RU2027530C1 - Vibratory dewaterer - Google Patents

Abstract

FIELD: dewatering of bulk materials in coal-dressing factories, closed-cycle hydraulic mines, in construction and chemical industries. SUBSTANCE: vibratory dewaterer has box with sieve and inertial vibrator connected with box and formed as hollow cylinder coupled with drive. Hollow cylinder is partially filled with fluid homogeneous substance, for example mercury. Internal surface of hollow cylinder is made from two helical parts, which are disposed in symmetry relative to axis of rotation. EFFECT: enhanced efficiency. 2 cl, 3 dwg

Description

 The invention relates to the dehydration of bulk materials and can be used in coal processing plants, closed-loop hydraulic mines, in the construction and chemical industries.

 A known inertial screen containing a box with a sieve and an inertial vibrator with a drive. The shaft of the vibrator consists of two parts connected by a spring, and the end of one part of the shaft is made with a stop (ed. St. N 598661, class B 07 V 1/40, 1978).

 The disadvantages of this rumble are the design complexity and low reliability due to the presence of an additional shaft and inertial load, springs, stops, as well as a decrease in the rigidity of the vibrator and large shock loads during start-up transmitted through the stops.

 Also known is a vibration machine adopted as a prototype and containing a box and an associated inertial vibrator made in the form of a hollow cylinder partially filled with liquid, which, at revolutions higher than the natural frequency of the system’s vibrations, is capable of generating a wave creating a disturbing force acting on the box ( ed. St. USSR N 275721, class B 07 V 1/40, 1970). The wave generated in the liquid layer at a certain frequency of rotation of the cylinder acts on the box as an imbalance, ensuring the operation of the vibrating machine.

 The disadvantage of the machine adopted for the prototype is the low reliability in operation at different speeds of the vibrator. A wave in a liquid ring that occurs when a hollow cylinder rotates is generated only at a certain speed, and when this speed is changed, for example, in the direction of decrease, the wave disappears and vibration stops. In the practice of dehydration, a wide frequency adjustment is required to ensure the necessary technological speed of movement, dehydration and sifting of the processed bulk materials.

 In a vibration dehydrator containing a box and an associated inertial vibrator made in the form of a hollow cylinder of revolution, partially filled with a flowing homogeneous substance, the inner surface of the hollow cylinder is made of two spiral-shaped parts that are mirrored relative to the axis of rotation. At the same time, mercury was selected as a flowing homogeneous substance.

 The implementation of the inner surface of the hollow cylinder of two spiral-shaped parts, mirror-image relative to the axis of rotation, provides when the rotation of the hollow cylinder uneven distribution of the mass of fluid substance in its cavity. This causes a shift in the center of gravity of the rotating system, which creates unbalanced forces that provide vibration box with a sieve at any frequency of rotation of the hollow cylinder. The use of mercury as a flowing homogeneous substance, partially filling the cavity of the cylinder, makes it possible to excite vibrations of the box without the use of additional elements, i.e. without the cost of their manufacture, machining, installation. At the same time, being the heaviest of all known liquids, mercury allows for a sufficiently large amplitude of vibrations with a relatively small used volume after the vibrator reaches the operating mode. The proposed technical solution is characterized by simplicity, reliability and high adaptability.

 In FIG. 1 shows a dehydrator; figure 2 is the same, a top view; figure 3 is a section aa in figure 2.

 The vibro-dehydrator contains a box 1 with a sieve and a frame 2, interconnected by means of inclined flat springs 3. A vibrator 4 is mounted on the box 1, made in the form of a hollow cylinder, the body of which is made of two spiral-shaped parts 5 and 6, which are located mirror-image relative to the axis of rotation 7. The cavity 8 of the vibration cylinder is partially filled with a flowing homogeneous substance, for example, mercury 9. The rotation of the hollow cylinder is provided by the drive 10 and, for example, V-belt transmission 11. Before starting work, the rotating part of the vibrator 4 with the hollow cylinder body and stiffeners 12 must be balanced relative to the axis rotation 7.

 Vibro-dehydrator works as follows.

 At rest, mercury 9 is located in the lower part of the cavity 8. When the drive 10 is turned on, rotation is transmitted to the hollow cylinder of the vibrator 4 by means of transmission 11. The hollow cylinder formed by parts 5 and 6 starts to rotate slowly. As the rotation speed increases, mercury 9 is distributed over the entire inner surface of the cavity 8 in a thin layer. When entering the operating mode, the acceleration of rotation decreases to zero and the vibrator starts to rotate at a constant speed. Under the influence of centrifugal forces, mercury 9 rolls along the inner surfaces of the spiral-shaped parts 5 and 6, accumulating in the part of the cavity 8 farthest from the axis of rotation 7, occupying the position shown in FIG. 3. The center of gravity of the rotating system is shifted, unbalanced forces arise, which provide oscillations of the box 1 with a sieve. After the output of the vibrator 4 to the operating mode, i.e. when a hollow cylinder rotates at a constant angular velocity, vibration is maintained at any rotation frequency.

Claims (2)

 1. VIBRATOR, which contains the box and the associated inertial vibrator, made in the form of a hollow cylinder of revolution, partially filled with a flowing homogeneous substance, characterized in that the inner surface of the hollow cylinder is made of two spiral-shaped parts that are mirrored relative to the axis of rotation.  2. Vibro-dehydrator according to claim 1, characterized in that the hollow cylinder is partially filled with mercury.

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