RU106147U1 - CYCLONE - Google Patents

Abstract

 1. A cyclone comprising a cylinder-conical housing with a lower dust outlet, inlet and outlet pipes, including at the end of the outlet nozzle a guide device consisting of one or more curved guide plates formed by the lateral surface of the exhaust pipe, characterized in that the guide device is made in this way that the larger radius of curvature of the guide plate is made equal to the radius of the outlet pipe, and its smallest radius of curvature is made smaller than this radius, and also with cone and fairing. ! 2. The cyclone according to claim 1, characterized in that the living cross-sectional area formed by the guiding flaps on the side surface of the outlet pipe is equal to the living cross-sectional area of the outlet pipe. ! 3. The cyclone according to claim 1, characterized in that the lower end of the guiding flaps is provided with a locking plate mounted perpendicular to the axis of the outlet pipe, having a cone with a vertex along the axis of the outlet pipe. ! 4. The cyclone according to claim 1 or 3, characterized in that the cone of the locking plate can be made depending on the angle of repose of the captured material.

Description

The utility model relates to dust-cleaning equipment and can be used in the construction materials industry, metallurgy and other fields of economy for cleaning gas from dust.

A known cyclone containing a cylindrical conical housing with a lower dust outlet, inlet and outlet pipes, at the outlet of which are guides in the form of plates arranged in such a way as to create a spiral direction of the flow of exhaust gases [RF patent 2324543]. However, due to the resistance and vortices arising when the nature of the flow in the outlet pipe changes, this element may not be efficient enough from the point of view of energy consumption.

The closest technical solution is the device of the outlet pipe equipped with guide shields and a locking plate at the end of the pipe. The flow inlet to the outlet pipe is organized into openings formed by the edges of the shields and the pipe body, which helps to improve the hydraulics of the flow and increase the overall energy efficiency of the apparatus [RF patent 2079379].

The disadvantage of this design is the difficulty in manufacturing and operation.

The purpose of the utility model is to increase the efficiency of the cyclone while maintaining minimal costs for implementation and operation.

This goal is achieved due to the fact that the cyclone containing the cylinder-conical body has an outlet pipe provided with a guide device that consists of guide shields formed by a part of the side surface of the outlet pipe, so that the axis of curvature of the guide plate is inclined to the axis of the outlet pipe and offset relative to her, while the larger radius of curvature of the guide plate is made equal to the radius of the outlet pipe, and its smallest radius of curvature is made smaller than this radius, and about btektelera. The guide device is made in such a way that the living cross-sectional area formed by the guiding flaps on the side surface of the outlet pipe is equal to the living sectional area of the outlet pipe. Also, the lower end of the guide flaps has a locking plate, which is a cone with a vertex along the axis of the outlet pipe for the removal of material coagulated in the exhaust pipe, as well as a fairing, to improve flow conditions. The cone of the locking plate can be made in various configurations, depending on the characteristics of the captured material.

The essence of the utility model is illustrated by drawings, in which Fig. 1 shows a cyclone having a cylinder-conical body, and Fig. 2 shows a section through an exhaust pipe of a cyclone explaining the essence of the guide device. The cyclone has a housing 1, an outlet pipe 2, in which a guide device 3 is provided, consisting of at least one guide plate 4, which serves to create an additional swirl of the dust and gas stream. Moreover, the axis of curvature of this shield 4 extends at an angle to the axis 5 of the outlet pipe 2, being offset from the latter. To optimize the flow conditions, the locking plate 7 is equipped with a fairing 8, as well as a cone 9.

The flow of dusty gas is twisted, falling into the cyclone through the tangentially located inlet pipe 6. Having passed down the length of the housing 1, the gas is cleaned and the flow changes its direction by 180 ° at the bottom of the cyclone. Thanks to the guiding device 3, the upward flow, while returning the hydraulic energy to the pressure energy, is sent to the outlet pipe 2. The flow acquires acceleration directed both in the axial direction of the outflowing medium and in the direction of the axis 5 of the outlet pipe 1 due to the installed guide device 3, consisting of guide plates 4.

Thus, the goal is achieved by manufacturing a guide device in the exhaust pipe, which helps to increase the overall energy efficiency of the apparatus, while maintaining the costs of implementation and operation.

Claims (4)

1. A cyclone comprising a cylinder-conical housing with a lower dust outlet, inlet and outlet pipes, including at the end of the outlet nozzle a guide device consisting of one or more curved guide plates formed by the lateral surface of the exhaust pipe, characterized in that the guide device is made in this way that the larger radius of curvature of the guide plate is made equal to the radius of the outlet pipe, and its smallest radius of curvature is made smaller than this radius, and also with cone and fairing. 2. The cyclone according to claim 1, characterized in that the living cross-sectional area formed by the guiding flaps on the side surface of the outlet pipe is equal to the living cross-sectional area of the outlet pipe. 3. The cyclone according to claim 1, characterized in that the lower end of the guiding flaps is provided with a locking plate mounted perpendicular to the axis of the outlet pipe, having a cone with a vertex along the axis of the outlet pipe. 4. The cyclone according to claim 1 or 3, characterized in that the cone of the locking plate can be made depending on the angle of repose of the captured material.