RU2050940C1 - Dust separator - Google Patents

Abstract

FIELD: removing dust from ventilation air. SUBSTANCE: dust separator has housing provided with a facility for swirling air supplied. The facility is constructed as a cylindrical horizontal chamber provided with the tangential inlet branch pipe and secured to the wall of the housing. The shutter separator is positioned in front of the inlet opening. The outlet opening of the housing is positioned either from the side of the housing opposite to the swirler or in the top wall, or in the axial outlet branch pipe. In the latter case, the housing is made up as a scroll, and the dust discharging duct is positioned tangentially. EFFECT: enhanced efficiency. 3 cl, 6 dwg

Description

 The invention relates to a device for cleaning ventilation air from dust and may find application in various industries and in the processing of agricultural products.

Known dust separator containing a housing with a device for swirling the input stream, a louvre separator located in front of the outlet, made in the form of blades located at an acute angle to the direction of motion of the swirling stream [1]
However, in the known dust separator, part of the cleaned air can re-enter the new flow, thereby destroying the swirling flow.

Known dust separator containing a housing with a device for twisting the input stream, a louver separator located in front of the axial outlet pipe of the housing [2]
However, in this dust separator, part of the dust, colliding with the perforation walls in the body, returns to the swirling flow, thereby violating it and leads to the passage of part of the dust into the outlet for purified air.

 The problem is solved due to the fact that in the dust separator containing the housing with the device for twisting the input stream, a louver separator located in front of the outlet of the housing, made in the form of blades located at an acute angle to the direction of movement of the swirling stream.

 The input flow swirling device is made in the form of a cylindrical horizontal chamber connected externally to the casing wall with a tangential inlet pipe, and the casing outlet is located on the opposite side of the casing in the upper wall.

 The problem is also solved due to the fact that in the dust separator comprising a housing with an input flow swirling device, a louvre separator located in front of the axial outlet pipe of the housing, according to the invention, the input flow swirling device is made in the form of a side of a cylindrical horizontal chamber connected externally to the housing with an opposite outlet pipe. with a tangential inlet pipe, and a body in the form of a snail with a dust extraction located tangentially.

 An increase in the inertial forces acting on the dust particles is achieved due to the fact that the dusty stream, arriving at high speed along the tangent to the cylindrical horizontal chamber, acquires a rotational movement, during which the suspended particles are thrown to the walls. Simultaneously with the rotation, the swirling flow moves axially towards the housing. After the swirling flow enters the body, its speed decreases, since the cross section of the body is much larger than the bore of the cylindrical horizontal chamber. In this case, under the action of inertial forces, suspended particles are separated from the flow and enter the dust outlet. The smaller part of the dust remaining in the swirling flow, which reaches the outlet for purified air, is separated by a louvre separator, which covers the outlet of the housing in the upper wall.

 In the embodiment of the device, the dust cleaning efficiency is further increased for two reasons: due to the directed movement of particles separated from the swirling flow to the dust extraction along the tangent to the cochlear-shaped housing and the location of the louver separator and the outlet of the housing concentrically to the axis of the coiled housing, where the dust concentration in the swirling stream is minimal.

 In FIG. 1 shows a proposed dust separator; figure 2 is the same, a top view; figure 3 section aa in figure 1; figure 4 option of the proposed dust separator; figure 5 view B in figure 4; Fig.6 section BB in Fig.4.

 The dust separator consists of a dust settling body 1, a cylindrical horizontal chamber 2 through which dusty air flows into the housing 1, the outlet of the housing 3 and the dust outlet 4. A tangential inlet pipe 5 is connected tangentially to its cylindrical horizontal chamber 2 in front of its generatrix 5. A louvre separator 6 is installed in front of the housing outlet 3, which consists of blades 7 fixed at an acute angle to the dusty stream.

 A variant of the dust separator consists of a dust settling chamber made in the form of a cochle-shaped housing 8, along which the dust extraction 9 is arranged tangentially. A cylindrical horizontal chamber 10 is installed on one side of the shell 8 and a branch pipe 11 is connected to the cylindrical horizontal chamber 11. tangentially to its generatrix, a tangential inlet pipe 12. Inside the housing 8, a louver separator 13 is connected and located coaxially with it to the branch pipe 11, the execution of which may be -cylindrical or conical. The louvre separator 13 consists of blades 14 elongated along its axis and fastened at an acute angle to the dusty stream.

 The dust separator operates as follows.

 A dusty air stream is supplied under pressure to a tangential inlet pipe 5, from which the stream flows at high speed into a cylindrical horizontal chamber 2, in which it acquires a rotational movement and moves in a spiral towards the housing 1. During the rotational movement, dust particles suspended in the stream are thrown to the walls of the cylindrical horizontal chamber 2 and together with the flow also spiral move towards the housing 1. When entering the housing 1, dust particles are separated from the flow by inertial forces and fall into outlet 4 for dust. The smaller part of the dust that remains in the swirling flow and reaches the louvre separator 6 is separated from the flow due to the inertial forces arising from the impact of dust particles in the blades 7 located at an acute angle to the flow. Separated dust particles fall into the dust outlet 4, and clean air passes between the blades 7 of the louvre separator 6 into the outlet 3 of the housing.

 A feature of the operation of the dust separator variant is as follows.

 When leaving the cylindrical horizontal chamber 10, dust particles under the action of inertial forces are separated from the swirling flow and move to the dust extraction 9 tangentially to the cochlear housing 8, thereby increasing the efficiency of the dust removal. The second feature is that the Central part of the swirling stream after leaving the cylindrical horizontal chamber 10 moves concentrically to the axis of the cochlear-shaped housing 8, covering the circular louvre separator 13, while the remaining dust particles are separated from it by inertial forces upon impact into the blades 14 and fall into the dust extraction 9, and the cleaned air enters the exhaust pipe 11. The dust removal efficiency in this case is increased due to the lower concentration of dust in the central part of the swirling flow a.

Claims (2)

 1. A dust separator comprising a housing with an input flow swirling device, a louvre separator located in front of the housing outlet, made in the form of blades arranged at an acute angle to the direction of movement of the swirling flow, characterized in that the input flow swirling device is made in the form of an external connected to the wall of the housing of the cylindrical horizontal chamber with a tangential inlet pipe, and the outlet of the housing is located on the opposite side of the housing in the upper wall nke.  2. A dust separator comprising a housing with an input flow swirling device, a louvre separator located in front of the axial outlet pipe of the housing, characterized in that the input flow swirling device is made in the form of a side of a cylindrical horizontal chamber with a tangential inlet connected to the outside of the output pipe, and the casing is made in the form of a snail with a dust extraction located tangentially.

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