RU2259889C1 - Vortex dust separator - Google Patents

Abstract

FIELD: physical or chemical processes and apparatus.

SUBSTANCE: vortex gas separator comprises housing provided with conical hopper, branch pipes for discharging the purified gas, and devices for supplying dusty gas made of at least two peripheral intakes. The branch pipes for discharging the purified gas are mounted at an angle to each other from 30° to 180°. The angle between the axis of the inlet branch pipe of the peripheral intake and the plane perpendicular to the axis of the branch pipe for discharging the purified gas ranges from 10° to 30°. The housing can be toroidal. The branch pipes for discharging the purified gas are provided with filtering members. Above the hopper is the vibration surface.

EFFECT: enhanced efficiency and reliability and reduced hydraulic resistance.

3 cl, 4 dwg

Description

The invention relates to techniques for cleaning gas from dust and can be used in various industries in pneumatic conveying systems, pneumatic cleaning, aspiration.

The closest technical solution to the claimed object is a vortex dust collector as.with. USSR No. 1502116, cl. B 04 C 3/06, comprising a housing with a common conical hopper, axial nozzles for discharging purified gas and a dusty gas inlet device.

The disadvantage of the prototype is the relatively low efficiency of dust collection due to the fact that the common hopper is placed after the input devices of dusty gas.

The technical result is an increase in efficiency, a decrease in hydraulic resistance and an increase in the reliability of the system as a whole.

This is achieved by the fact that in a vortex dust collector containing a housing with a conical hopper, a dusty gas inlet device and nozzles for purified gas outlet, a dusty gas inlet device is made in the form of at least two peripheral inlets, nozzles for purified gas outlet are located at an angle of 30-180 ° relative to each other, and the angle between the axis of the inlet pipe of the peripheral input and the plane perpendicular to the axis of the pipe for the output of the purified gas is 10-30 °, and the housing can be made toroidal, and the axial the branch pipes for the outlet of the purified gas are equipped with filter elements, and a vibrating surface is mounted above the common hopper.

Figure 1 presents a General view of the vortex dust collector, figure 2 - section aa of figure 1; figure 3 is a variant of the layout of the vortex dust collector, figure 4 presents a diagram of a vortex dust collector with a vibrating surface.

The vortex dust collector includes a housing 4 with a conical hopper 5, nozzles 2 for the output of purified gas. The device for introducing dusty gas is made in the form of at least two peripheral inputs 1. The nozzles 2 for outputting the purified gas are located at an angle "d" relative to each other, lying in the range from 30 to 180 degrees. The angle “a” between the axis of the inlet pipe 1 of the peripheral input and the plane perpendicular to the axis of the pipe for the output of the purified gas lies in the range of optimal values from 10 to 30 degrees. The housing 4 can be made toroidal (not shown in the drawing). The nozzles 2 for the output of purified gas are equipped with filter elements 3, which can be made either flat or curly, as shown in Fig.3. Above the common hopper 5 can be installed vibrating surface 6 (figure 4).

The location of the nozzles 2 for the output of the purified gas at an angle "d" relative to each other, lying in the range from 30 to 180 degrees, is explained by the possibility of obtaining a technical result in the proposed interval. The lower range of 30 ° is due to the limited constructive ability of the line of intersection of the cylindrical parts 4 of the buildings, which is an ellipse on a curved surface. The upper range of 180 ° is due to the limiting case of introducing a peripheral flow without overcoming gravity, that is, the movement of dust particles along one of the components of the force field up. The choice of the angle “a” between the axis of the inlet pipe of the peripheral input and the plane perpendicular to the axis of the pipe for the output of purified gas in the range of 10-30 ° is due to the performance of the apparatus, which, in turn, depends on the direction of the gravitational component of the force field of the gas flow twist.

Vortex dust collector operates as follows.

The dust and gas flow enters through the inlets 1 at an angle to the axis of the housing 4 and, spinning under the action of tangentially directed centrifugal forces (see figure 2), moves in the housing 4 towards each other or at an angle to each other (figure 3). Large particles of dust with high inertia are separated from the flow during their interaction and fly out into the conical hopper 5, which contributes to the optimal interaction of swirling jets. Fine dust is delayed by filtering elements 3, mounted on the axial nozzles 2 for the output of the purified gas. In the case of filter elements 3 shaped, for example conical, as shown in figure 3, decreases the hydraulic resistance to the outlet of the purified gas. The installation on the housing 4 of a vibrating surface 6 contributes to an increase in the efficiency of dust collection due to the phenomena of vibrotransport of large particles of dust and their deposition into the hopper 5 due to gravity.

Claims (4)

1. Vortex dust collector comprising a housing with a conical hopper, a dusty gas inlet device and nozzles for cleaning purified gas, characterized in that the dusty gas injection device is made in the form of at least two peripheral inlets, the nozzles for cleaning gas outlet are located at an angle of 30-180 ° relative to each other, and the angle between the axis of the inlet pipe of the peripheral input and the plane perpendicular to the axis of the pipe for the output of the purified gas is 10-30 °. 2. The vortex dust collector according to claim 1, characterized in that the housing is made toroidal. 3. The vortex dust collector according to claim 1, characterized in that the axial nozzles for outputting the purified gas are equipped with filter elements. 4. The vortex dust collector according to claim 1, characterized in that a vibrating surface is installed above the common hopper.

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