RU2319534C1 - Device used for purification of the gaseous flow from the light impurities - Google Patents

Abstract

FIELD: agriculture; chemical industry; other industries; devices used for purification of the air flow from the light impurities.

SUBSTANCE: invention is pertaining to the devices used for purification of the air flow from the light impurities, for example, in the devices of pneumatic transportation of the bulk small-grain materials. The device contains the body, the inlet and outlet fitting pipes, the louver separator formed by the housing, the louver lattice and the adjacent wall connected to the inlet fitting pipe and having the outlet, the dust-settling chamber with the device used for withdrawal of the light impurities, connected by the hole with the louver separator, the air withdrawal chamber formed by the louver lattice and the separating wall and connected with the dust-settling chamber by the hole. At that in the upper part of the air-withdrawal chamber on the separating wall there is the window connecting it with the dust-settling chamber, and the diametral blower is installed in the upper part of the air-withdrawing chamber and its inlet window is connected to this camera. At that the outlet fitting pipe of the device is the delivery fitting pipe of the blower. The invention ensures development of the device for the air flow purification from the impurities at the smaller aerodynamic resistance, the decreased total and specific consumption of the power and more effective utilization of the overall dimensions of the dust separator.

EFFECT: invention ensures development of the device used for the air flow purification from the impurities at the smaller aerodynamic resistance, the decreased total and specific consumption of power at more effective utilization of the overall dimensions of the dust separator.

1 dwg

Description

The invention relates to a device for cleaning the air flow from light impurities, for example, in pneumatic systems of grain and seed cleaning machines, in devices for pneumatic transportation of bulk fine-grained materials.

A device for separating light impurities from the air stream [1], containing an inlet and outlet nozzles, a primary purification stage, having an air purifier and a primary sedimentary chamber, the working channel of the air purifier is formed by a spiral-shaped housing and a curved louvre grille located inside the housing, and a secondary cleaning stage consisting of a louvered air purifier with an inlet pipe and a secondary sediment chamber, while the inlet of the secondary air purifier is connected to the primary sediment hydrochloric chamber, and its output - to the secondary sediment chamber, and provided with a recirculation channel having a common wall with an adjacent primary settling vessel.

The disadvantage of this device is due to the high aerodynamic drag and, consequently, the increased energy consumption for air purification.

A device for separating light impurities from the air stream [2] is also known, consisting of an inlet pipe, an air purifier of the primary cleaning stage formed by a spiral-shaped body and a curved louvre grill located inside the housing, a primary sedimentary chamber, a secondary air purifier with an inlet pipe and a louvre grille , a secondary sedimentary chamber with a recirculation channel, an additional duct, an outlet pipe and a common output device.

The outlet window of the air cleaner is located above the primary sedimentary chamber. The inlet of the pipe is connected to the primary sedimentary chamber. The outlet of the secondary air purifier is installed above the secondary sedimentary chamber. The recirculation channel connects the secondary sedimentation chamber to the air purifier of the secondary cleaning stage using the suction window. An additional duct is located between the air purifiers of the primary and secondary cleaning stages. The inner wall of the additional air duct is made adjacent to the inlet pipe of the air purifier of the secondary cleaning stage. One end of this duct is connected to the air purifier of the primary cleaning stage through its louvre grille, and the second end to the outlet pipe.

This device for separating light impurities has a simpler design, but it has the same drawback as noted above - increased aerodynamic drag and energy consumption for air purification.

Known inertial air purifier [3], consisting of a housing; inlet and outlet nozzles; a louvre separator formed by a louvre grille and a housing with an outlet; a dust collecting chamber with a dust extraction device (for example, a lock gate) and an outlet formed by an adjacent and dividing wall. Outlets are located at the same level and form a countercurrent separator.

By the set of essential features, the inertial air purifier is closest to the claimed device and is taken as a prototype. With a rational ratio of the depth of the outlet openings and the ratio of the depth of the opening of the dust collecting chamber to the distance from the lower end of the louvre grill to the lower opening of the dust collecting chamber, the inertial dust separator provides a high degree of purification with relatively low material and energy costs.

At the same time, the following disadvantage is inherent to the inertial dust separator with the indicated design: in the dust precipitation chamber separated from the chamber formed by the louvre grating and the separation wall, a flat potential vortex field [4] is formed, which occupies a large part of the dust precipitation chamber in which the air-dust mixture ( air mixture) rotates in the opposite direction to the rotation of the clock hands. Along with this, there are two “small” vortex fields in the dust collecting chamber: one of them is located in the zone adjacent to the outlet of the dust collecting chamber and the lower part of the separation wall, and the second in the upper part of this chamber. In "small" vortex fields, the aerosol is rotated in the direction of rotation of the clock hands.

The presence of vortex zones in the inertial dust separator significantly increases the aerodynamic drag and, therefore, its total and specific energy consumption for cleaning the air flow.

The second disadvantage of the inertial dust separator prototype is due to the fact that it does not fully utilize the volume of the upper part of the chamber formed by the louvre grille and the separation wall, as a result of which the dimensions and metal consumption of the dust separator increase.

The objective of the invention is to eliminate the disadvantages inherent in the well-known louvered dust separator prototype, i.e. creation of a device for purification of air flow impurities with a lower aerodynamic drag, i.e. lower total and specific energy consumption and more complete use of the dimensions of the dust separator.

The problem is solved by eliminating the vortex zones in the dust chamber. For this, the upper part of the separation wall has a window, and a diametral fan is placed in the upper part of the chamber, formed by the louvre grille and the separation wall, which communicates with the camera by its inlet window.

The drawing shows a device for cleaning the air flow from light impurities.

The device consists of a housing 1 with an inlet pipe 2, a louvre separator 3 formed by a louvre grille 4, a connecting wall 5 and a wall of the housing 1, a dust precipitation chamber 6 with a device 7 for extracting light impurities (for example, a screw or airlock) and a diametrical fan 8. The louvre separator 3 in the lower part has an outlet 9 formed by the wall of the housing 1 and the adjacent wall 5. The louvre grille 4 and the dividing wall 10 form an air exhaust chamber 11, in the upper part of which a window 12 is made connecting the chamber with the dust chamber 6. The lower part of the exhaust chamber 11 has an outlet 13 formed by an adjacent wall 9 and a separation 10. The diametrical fan 8 is located in the upper part of the air outlet chamber 11, and its inlet window 14 is turned towards this chamber. The outlet pipe 15 of the device is formed by the discharge pipe of the diametrical fan 8.

A device for cleaning the air flow from light impurities works as follows. During operation of the diametrical fan 8, an air stream with light impurities extracted, for example, from the grain mixture in the pneumatic system of the grain cleaning machine or pneumatic grain conveying unit, is introduced into the louver dust separator 3 by the inlet 2, from which it passes between the plates of the louvre grate 4 and is cleaned of light impurities introduced into the air outlet chamber 11. Light impurities under the influence of inertia preserve the initial direction of motion and together with part of the air (10 ... 20% of the amount of entering the device) are directed to the outlet 9. In turn, part of this air, after exiting from the opening 9, is turned 180 ° and through the opening 13 enters the air exhaust chamber 11. Another part of the air and light impurities remaining in it (for example, dust particles ) due to the inertia force are introduced into the dust collecting chamber 6, in which impurities are deposited and the device 7 is brought out. The air flow in the dust-collecting chamber 6, having made a V-shaped movement, is introduced through the window 12 into the air supply chamber 11 and combined with the air flow received through the hole 13. Then the combined air flow is supplied to the window 14 of the diametrical fan 8, its flow part and the outlet the pipe 15 is displayed outside the device.

A sufficiently high degree of air purification from light impurities by the device is achieved due to the rational choice of its parameters. Elimination of the vortex zones in the dust chamber 6 and the placement of the diametrical fan 8 in the flow part of the device result in a decrease in the total and specific energy consumption for cleaning the air flow of the serviced machine, plant or equipment and more complete use of the device’s overall size.

Literature

1. USSR author's certificate No. 430870, cl. V01D 45/04, 1974.

2. USSR author's certificate No. 1725976, cl. V01D 45/04, 1992.

3. RF patent No. 2033845, cl. V01D 45/04, 1995 (prototype).

4. The manufacturer N.Ya. Aerodynamics. - M .: Nauka, 1964 .-- 814 p.

Claims (1)

A device for cleaning the air flow from light impurities, comprising a housing, an inlet and an outlet nozzle, a louvre separator formed by a housing, a louvre grille and an adjacent wall, connected to the inlet and having an outlet, a dust collecting chamber with a device for removing light impurities, connected to the hole with a louvre separator, an air exhaust chamber formed by a louvre grille and a dividing wall and communicated with an opening with a dust precipitation chamber, characterized in that A window is connected to the dust chamber on the dividing wall of the upper part of the air outlet chamber, a diametrical fan is installed in the upper part of the air outlet chamber, while its inlet window is connected to this chamber, and the outlet pipe of the device is a fan discharge pipe.