RU2116842C1 - Cyclone - Google Patents

Abstract

FIELD: cyclones; may be used in cleaning of gas coming to atmosphere and recuperation of powder paint not settled on pained article. SUBSTANCE: cyclone has body, inlet and outlet pipes, axial outlet pipe in which perforated truncated cone is installed; device for withdrawal of dust fro ascending flow including dust-discharging pipeline and fairing with axial pipeline with nozzle for supply of gas auxiliary flow introduced into fairing conical hollow widening upward. Dust discharge pipeline is located in body along its axis and connected to lower part of fairing hollow. Nozzle for introduction of auxiliary gas flow is located along the axis of fairing opposite to dust-discharging pipeline. Large base of perforated truncated cone faces downward and embraces fairing upper part. Pipeline is connected with compressed air source, while dust discharge pipeline is connected to ejector connected with device consuming powder. EFFECT: higher degree of powder separation. 1 dwg

Description

 The invention relates to powder-collecting devices and is intended for the purification of the gas released into the atmosphere and the recovery of powder paint that has not settled on the product to be painted.

 Known cyclone (Uzhov V.N., Waldberg A.Yu., Myagkov B.M., Reshidov I.K. Dust cleaning of industrial gases. M: Chemistry, 1981, p. 87, Fig. 2.13c), containing housing, inlet and discharge pipes, hopper and outlet pipe in which the fairing is installed.

 The disadvantage of the cyclone is the clogging of the annular gap between the walls of the outlet pipe and the fairing with powder paint, its clumping, which leads to loss of powder, an increase in recovery costs and a decrease in fire and explosion safety. Periodic stops are required to clean the annular gap.

 The closest to the proposed technical essence and the achieved result is a cyclone (US patent 3060664, CL 55-127, 1962) containing a housing, inlet and discharge pipes, an axial outlet pipe in which a perforated truncated cone is installed, a device for collecting dust from upward flow, including dust removal pipe and fairing, in the conical cavity expanding to the top of which an axial pipeline with a nozzle for introducing an auxiliary gas flow is introduced.

 The disadvantage of the cyclone is the high dust content of the exhaust gas.

 The purpose of the invention is to increase the degree of separation of the powder.

 This goal is achieved by the fact that in the cyclone containing the housing, inlet and discharge pipes, an axial outlet pipe in which a perforated truncated cone is installed, a device for collecting dust from the upward flow, including a dust extraction pipe, a fairing, in which a conical cavity expanding towards the top is inserted axial pipeline with a nozzle for introducing an auxiliary gas flow, the dust extraction pipe is placed along the axis in the housing and is attached to the lower part of the fairing cavity, the auxiliary flow input nozzle and the gas is located along the axis of the fairing opposite the dust extraction pipe, with the larger base of the perforated truncated cone facing down and covering the upper part of the fairing.

 In a cyclone made in this way, the speed of the spiral-shaped gas flow in the outlet pipe decreases, and as a result of the interaction of the gas flow with the cowl and the perforated truncated cone, a part of the powder returns from the upward flow back to the downward spiral-shaped flow, followed by additional separation of some part of the powder from the gas flow. This helps to increase the degree of separation of the powder, reducing the load on the bag filter, which receives gas from the cyclone.

 The drawing shows a General view of the cyclone.

 The cyclone contains a housing 1, inlet 2 and unloading 3 pipes, an axial outlet pipe 4 with a diffuser 5, in which a perforated truncated cone 6 and a device for collecting dust from the upward flow, including a dust extraction pipe 7 and a fairing 8, are installed in a conical cavity expanding towards the top 9 which introduced an axial pipe 10 with a nozzle 11 for introducing an auxiliary gas stream. The dust extraction pipe 7 is placed in the housing 1 along the axis and is attached to the lower part of the cavity 9 of the cowling 8. The nozzle 11 for introducing the auxiliary gas stream is located along the axis of the cowling 8 opposite the dust removal pipe 7. The larger base of the perforated truncated cone 6 is facing down and covers the upper part of the cowling 8. The pipeline 10 is connected to a source of compressed air, and the dust extraction pipe 7 is connected to an ejector 12 connected to a powder consumption device, for example, to a bathtub in the case of using a cyclone in an installation for I am applying powder material.

 The cyclone works as follows. Under the influence of a fan (not shown), the mixture of gas and powder is sucked into the housing 1 through the inlet pipe 2. In the cylindrical part of the housing 1, the flow of the mixture of gas and powder acquires a downward spiral with increasing speed from the periphery to the center, while under the action of centrifugal forces of the particle the powder is carried out from the flow to the wall, and the secondary gas flow directed along the conical wall captures the powder and directs it down to the discharge pipe 3. Simultaneously from the discharge pipe 3, the mixture of gas and powder with reduced concentration of powder begins to move up the inner spiral. When the powder enters the diffuser 5, it interacts with the surface of the fairing 8, while its speed decreases, a part of the powder settles and is discharged by the gas flows to the discharge pipe 3. In the perforated cone 6, the “compression” of the flow occurs, this creates the conditions for intensive selection of the powder by the gas flow from the nozzle 11 into the cavity 9 of the fairing 8. Next, the powder enters the pipeline 7 and the ejector 12 is fed to the processing. After the perforated truncated cone 6, the gas stream has a slight dust content and stable linear velocities, due to which powder sticking to the pipe 4 degrees decreases sharply. When the upward stream interacts with the cowling 8, part of the stream is discarded to the periphery and re-subjected to centrifugal forces, with additional separation powder from gas.

 Compared with the known in the proposed cyclone, the degree of separation of the powder is increased, the dust content of the outgoing gas is reduced.

Claims (1)

 A cyclone comprising a housing, inlet and outlet pipes, an axial outlet pipe in which a perforated truncated cone is installed, an apparatus for collecting dust from the upward flow, including a dust extraction duct, a fairing, in which a axial conduit with a nozzle for introducing an auxiliary flow is introduced, expanding upward in a cavity gas, characterized in that the dust extraction pipe is placed in the housing along the axis and attached to the lower part of the fairing cavity, the nozzle for introducing an auxiliary gas stream is located the axis of the fairing duct pyleotvodnogo contrary, the larger base of the truncated cone of the perforated facing downward and covers the upper part of the fairing.