RU2258566C1 - Cyclone - Google Patents

Abstract

FIELD: dust collection; chemical, textile, food-processing, light and other industries for cleaning dust-laden gases.

SUBSTANCE: proposed cyclone has housing, peripheral inlet for gas flow made in form of inlet branch pipe, helical cover, bin and exhaust pipe for escape of cleaned gas. Gas flow peripheral inlet is made in form of inlet branch pipe whose axis is directed at angle relative to axis of housing and tangentially relative to surface of outlet branch pipe. Located at the top of cylindrical housing is helical cover; volute with filter element is secured on one end of cleaned gas outlet branch pipe.

EFFECT: enhanced efficiency and reliability; reduced usage of metals; reduction of vibro-acoustic activity of apparatus.

12 cl, 2 dwg

Description

The invention relates to techniques for dust collection and can be used in chemical, textile, food, light and other industries for the purification of dusty gases.

The closest technical solution to the claimed object is a cyclone from the book: “Gordon G.M. and other Dust collection and purification of gases, M., Metallurgy, 1968, pp.186-187 ", comprising a housing, a peripheral input of the gas stream, made in the form of an inlet pipe, a screw-shaped cover, a hopper and an outlet pipe for the outlet of the purified gas, moreover, the axis of the inlet pipe is directed at an angle to the axis of the housing and tangentially to the surface of the outlet pipe.

The disadvantage of the prototype is the relatively low efficiency of the dust collection process due to the lack of a filter element, as well as the large metal consumption and vibroacoustic activity of the apparatus as a whole.

The technical result of the invention is improving the efficiency and reliability of the dust collection process, as well as reducing the metal consumption and vibro-acoustic activity of the apparatus as a whole.

This is achieved by the fact that in the cyclone containing the housing, the peripheral input of the gas stream, made in the form of an inlet pipe, a screw-shaped cover, a hopper and an outlet pipe for the outlet of the purified gas, and the axis of the inlet pipe is directed at an angle to the axis of the body and tangent to the surface of the outlet a snail, at one end of the outlet of the purified gas a snail is fixed with a filter element made of a multifaceted, having a surface congruent to the snail outlet, and the hydraulic resistance of the filter the friction element is 15 ... 25% of the hydraulic resistance of the entire apparatus, and the material of the filter element has increased sound absorbing properties.

Figure 1 shows a General view of the cyclone, figure 2 - its profile projection.

The cyclone contains an inlet pipe 1, a screw-shaped cover 2, a housing 3, a hopper 4, an outlet pipe 5, a snail 6 for exiting purified gas and a filter element 7 disposed therein in the form of a multifaceted surface, the filter element being made multifaceted and has a surface congruent with the outlet snail hole. The hydraulic resistance of the filter element is 15 ... 25% of the hydraulic resistance of the entire apparatus, and the material of the filter element has increased sound absorbing properties.

The cyclone works as follows.

The dusty gas stream enters the cyclone through the pipe 1, swirls due to the tangential peripheral input of the screw-shaped cover 2 and moves further along a downward spiral line along the walls of the apparatus 3. As a result, dust particles under the action of centrifugal force move from the center of the apparatus to the periphery and, reaching the walls of the apparatus, are transported down to the conical part of the housing 3, and then to the hopper 4 to collect the captured dust. The purified air is discharged from the cyclone through the outlet pipe 5 and the cochle 6. In this case, light, finely dispersed dust particles not trapped in the hopper 4 are retained on the filter element 7, while the vibration-acoustic energy is reduced, since the filter element 7 is at the same time an aerodynamic silencer active (sorption) type. The dust collection process proceeds in the optimal hydrodynamic mode with the following ratios of the main structural parameters of the proposed device:

- the ratio of the diameter of the cylindrical part of the housing to the diameter of the outlet pipe of the purified gas is in the optimal range of values: D / d = 1.5 ... 1.9;

- the ratio of the diameter of the cylindrical part of the casing to the smaller diameter of the truncated cone of the conical part of the casing is in the optimal range of values: D / d ₁ = 3.2 ... 3.5;

- the ratio of the height measured from the axis of the outlet of the cochlea to the connector line of the cylindrical part of the hopper, to the height measured from the axis of the inlet pipe to the connector line of the cylindrical part of the hopper, is in the optimal range of values:

h / h ₁ = 1.15 ... 1.25;

- the ratio of the height measured from the axis of the inlet pipe to the connector line of the cylindrical part of the hopper, to the height of the cylindrical part of the hopper is in the optimal range of values: h ₁ / h ₂ = 3.0 ... 4.5;

- the ratio of the height measured from the axis of the outlet of the cochlea to the connector line of the cylindrical part of the hopper to the diameter of the cylindrical part of the housing is in the optimal range of values: h / D = 5.8 ... 6.9.

To reduce the vibro-acoustic activity of the apparatus and its metal consumption, as well as increase its reliability, the proposed device provides the following measures:

- cyclone parts are made of structural composite or polymeric materials, for example polyethylene, nylon, polyurethane using casting, stamping, molding;

- the helical elements of the cyclone parts are made by plastic deformation methods, for example extrusion or knurling on equipment having a helical shape-forming movement;

- on the helical elements of the parts of the cyclone and the surface in contact with the dusty gas stream, a wear-resistant layer is applied, for example by spraying methods or using galvanic equipment;

- a layer of soft vibration-damping material, for example, VD-17 mastic, is applied on the surface of the parts, and the ratio between the thickness of the metal and the vibration-damping coating is in the optimal range of values: 1 / (2.5 ... 4);

- the details of the cyclone are made reinforced or layered, and the surfaces of the layers in contact with the moving gas stream are made of materials having increased wear resistance and antifriction properties, and the properties of the reinforcement material are selected from the condition of reducing the vibroacoustic activity of the apparatuses;

- the details of the helical surfaces of the cyclone are made reinforced by molding or pouring helical wear-resistant elements into body parts or covers.

Claims (12)

1. The cyclone containing the housing, the peripheral input of the gas stream, made in the form of an inlet pipe, a screw-shaped cover, a hopper and an outlet pipe for the outlet of the purified gas, and the axis of the inlet pipe is directed at an angle to the axis of the housing and tangent to the surface of the outlet pipe, characterized in that at one end of the outlet of the purified gas a snail is fixed with a filter element made of a multifaceted, having a surface congruent to the outlet of the cochlea, filtering the hydraulic resistance its element is 15 ÷ 25% of the hydraulic resistance of the entire apparatus, and the material of the filter element has enhanced sound absorbing properties. 2. The cyclone according to claim 1, characterized in that the ratio of the diameter of the cylindrical part of the housing to the diameter of the outlet pipe of the purified gas is in the optimal range of values D / d = 1.5 ÷ 1.9. 3. The cyclone according to claim 1, characterized in that the ratio of the diameter of the cylindrical part of the body to the smaller diameter of the truncated cone of the conical part of the body is in the optimal range of values D / d ₁ = 3.2 ÷ 3.5. 4. The cyclone according to claim 1, characterized in that the ratio of the height measured from the axis of the outlet of the cochlea to the connector line of the cylindrical part of the hopper to the height measured from the axis of the inlet pipe to the connector line of the cylindrical part of the hopper is in the optimal range of values h / h ₁ = 1.15 ÷ 1.25. 5. The cyclone according to claim 1, characterized in that the ratio of the height measured from the axis of the inlet pipe to the connector line of the cylindrical part of the hopper to the height of the cylindrical part of the hopper is in the optimal range of values h ₁ / h ₂ = 3.0 ÷ 4.5 . 6. The cyclone according to claim 1, characterized in that the ratio of the height measured from the axis of the outlet of the cochlea to the connector line of the cylindrical part of the hopper to the diameter of the cylindrical part of the housing is in the optimal range of values h / D = 5.8 ÷ 6.9. 7. The cyclone according to claim 1, characterized in that the details of the cyclone are made of structural composite or polymeric materials, for example polyethylene, nylon, polyurethane using casting, stamping, molding. 8. The cyclone according to claim 1, characterized in that the helical elements of the parts of the cyclone are made by plastic deformation methods, for example extrusion or rolling on equipment having a helical form-forming movement. 9. The cyclone according to claim 1, characterized in that the wear elements of the cyclone parts and the surfaces in contact with the dusty gas stream are coated with a wear-resistant layer, for example by spraying methods or using galvanic equipment. 10. The cyclone according to claim 1, characterized in that a layer of soft vibration-damping material, for example, VD-17 mastic, is applied on the surface of the parts, the ratio between the thickness of the metal and the vibration-damping coating being in the optimal range of 1 / (2.5 ÷ 4). 11. The cyclone according to claim 1, characterized in that the details of the cyclone are reinforced or layered, and the surfaces of the layers in contact with the moving gas stream are made of materials having increased wear resistance and antifriction properties, and the properties of the reinforcement material are selected from the condition of reducing the vibroacoustic activity of the apparatus . 12. The cyclone according to claim 1, characterized in that the details of the helical surfaces of the cyclone are made reinforced by molding or pouring helical wear-resistant elements into body parts or covers.

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