RU173820U1 - Dust collector with twists - Google Patents

Abstract

The utility model relates to devices used in industry, operating on the principle of separating heavy particles from gases by gravitational inertial forces (during gas spin-up or sharp rotation). The technical result of the utility model is to increase the efficiency of the dust collector. The essence of the utility model is that the dust collector comprising a housing, inlet and outlet pipes, a hopper, twists, while the outlet pipe is installed inside the housing and is perforated in the upper part of the housing in Total yield of purified gas, and inlet is provided in the form of spiral zakruchivatelyami stripper in the course of contaminated flow and on an upper housing cover installed membrane.

Description

The utility model relates to devices used in industry, operating on the principle of separation of heavy particles from gases by gravitational-inertial forces (during the promotion of gases or their sharp turn).

Known inertial dust collector (A.S. SU 936972, B01D45 / 00, published on 06/23/1982), comprising a housing, inlet and outlet pipes, a hopper with a shutter and a baffle plate.

 Closest to the utility model is a gravitational inertial dust collector (see patent RU 2143309, B01D45 / 00, publ. 12/27/1999) consisting of a housing, inlet and outlet pipe, hopper, additionally equipped with two snails that go into a spiral inlet channel made in the form of a curved curved structural element, profiled blades, corner-type hopper zone cutoffs arranged in a checkerboard pattern, the outlet pipe is equipped with a static flow swirl of four fastened x propellers convex blades and slits, with slits deflected blades turning cylinder, thus closing the gap, slit, and a diaphragm positioned over static zakruchivatelem of the four blades is adjustable from the outside of the dust collector.

A disadvantage of the known solution is the low dust collection efficiency of light dust particles.

The essence of the utility model lies in the fact that the dust collector containing the housing, the inlet and outlet pipes, hopper, curlers, while the outlet pipe is installed inside the housing and made perforated, the outlet of the purified gas is made in the upper part of the housing, and the inlet pipe is equipped with spiral curlers cut-off valves along the path of the contaminated stream and a membrane is installed on the upper case cover.

The technical result is an increase in the efficiency of dust collection.

This is achieved by the fact that the dust collector contains a housing, inside the inlet of which are twisted spiral shutoffs along the course of the contaminated stream in the form of a untwisted diaphragm.

The input stream of contaminated gas enters through the inlet pipe and "sticks" to the inner surface of each untwisting shut-off valve. Further, the flow propagates along this inner surface down a spiral. During the passage of a contaminated gas stream, the particles of dirt rub against the walls of the curler, lose mechanical energy and settle down, collecting in the dust bin. Fine dust, moving down, also enters the hopper. Gas penetrates through the perforation of the outlet pipe and then through the outlet of the purified gas located in the upper part of the housing. A membrane is installed on the top cover of the housing to protect against possible overpressure.

Purification of the gas flow from dust occurs due to additional swirling, which allows to increase the centrifugal velocity of the dusty air flow inside the cylinder, and, causing a sharp deceleration of particles inside the outlet pipe, increase the efficiency of dust collection.

Thanks to this design of the swirling device, the flow of dusty gas is always located near the inner wall, making a spiral motion, dropping down. In this case, the purified air passes through the perforation holes in the outlet pipe and rises up at a low speed.

This design of the dust collector allows you to capture coarse and medium-dispersed dust particles, but is especially effective for fine dust particles. The lower the rate of rise of the purified gas inside the last space, the more efficient the cleaning of the finely divided fraction.

The utility model is illustrated by drawings, where

figure 1 shows a General view of the dust collector;

figure 2 is a cross section of the upper part of the dust collector.

The dust collector contains a housing 1, the inlet pipe 2 of which is equipped with curlers 3 in the form of spiral cutters along the path of the contaminated stream, a membrane 5 is installed on the top cover 4 of the housing 1, a discharge pipe 6 is installed inside the housing 1. The area of the discharge pipe 6 is perforated 7. To the bottom part of the housing 1 is attached to the hopper 8 for collecting dust. In the upper part of the housing 1, the outlet 9 of the purified gas is made. The space 10 between the housing 1 and the exhaust pipe 6 is designed to lift the purified gas and is larger in volume than the space inside the pipe 6. When supplying dusty gas through the inlet pipe 2, the flow is tangential to the inner surface 11 of the exhaust pipe 6. To block dust from hopper 8 mounted washer 12.

The device operates as follows:

When dusty gas is supplied through the inlet pipe 2 by means of a blower fan, the flow is tangential to the inner surface 11 of the outlet pipe 6, dust particles are braked on the inner surface 11 and fall into the hopper 8. The purified gas penetrates through the perforation 7 of the outlet pipe 6, rises in space 10 and exits through the outlet pipe 6 of the purified gas. The speed in the volume of the outlet of the outlet pipe 6 and the speed of the gas rising inside the space 10 between the outlet pipe 6 and the housing 1 may differ, for example, ten times. This allows in this design of the dust collector to clean light fractions of dust that are entrained by the flow into the hopper 8. The dust from the hopper 8 does not enter the space 10, since the path is blocked by the washer 12.

Claims (1)

A dust collector comprising a housing, an inlet and outlet pipes, a hopper, swirls, characterized in that the outlet pipe is installed inside the housing and made perforated, the outlet of the purified gas is made in the upper part of the housing, and the inlet pipe is equipped with swirls in the form of spiral cutters along the path of the contaminated stream and a membrane is installed on the top case cover.

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