SU1263312A1 - Filter - Google Patents

Abstract

The invention relates to gas stream purification devices and allows an increase in the degree of gas purification. The filter includes a housing 1 with precipitating elements arranged therein, made in the form of conical coaxial surfaces 3 and 4 arranged along a helical line with a step decreasing in the course of the flow. Surfaces 4 are axially miscible. 1 hp ff, 3 ill. GO 05 CO with tsD

Description

The invention relates to devices for cleaning, gas flow and can be used in the building materials industry, in the metal} mining, chemical, and other industries, where pneumatic transport of dusty ⁵ substances is used.

The aim of the invention is to increase the degree of gas purification.

Figure 1 presents the filter, General view; figure 2 is a diagram of the movement of the gas stream through the labyrinth gap; in Fig.Z is a diagram of the movement of the gas stream through a helical channel.

The filter consists of a sealed housing 1, inside of which there is a labyrinth tint precipitator 2, made in the form of two coaxially located surfaces 3 and 4, forming a screw channel 5 with decreasing pitch and a labyrinth gap 6. The gas stream to be cleaned enters the filter through the opening 7 and ²⁰ whelping cleaned gas leaves through the openings 8. The filter is installed in the upper part of the hopper 9.

The filter works as follows.

The material to be cleaned by means of pneumatic conveying is fed into the hopper 9, in the upper part of which a filter is installed, and through the hole 7 it enters the labyrinth precipitator 2. At a low initial speed of movement, the gas flow moves through the labyrinth gap 6 to the outlet 8. In this case, the separation of dust particles occurs due to a change in the direction of flow and a decrease in its velocity when leaving the labyrinth gap 6. At a high initial velocity, the flow moves along the helical channel 35. Astits occurs due to centrifugal forces arising when the air flow moves along the screw channel 5, made with a decreasing step.

Simultaneous movement of the gas flow through the helical channel and the labyrinth gap is possible. Depending on the properties of the gas stream, size and concentration of dust particles in it, the size of the labyrinth gap 6 is established by moving the inner surface 4 along the axis of the screw channel 5, made with decreasing step in the direction of gas flow.

As the gas stream moves, the distance between the labyrinth gaps and the pitch of the screw channel decreases, resulting in an increase in the centrifugal flow forces acting on the dust particles and depositing them on surfaces 3 and 4. At the beginning of the flow movement, larger particles are deposited, leaving the most light, requiring large inertial costs for removal. The purified gas leaves through the openings 8. Precipitated particles through the openings 7 are poured into the hopper 9.

Claims (2)

Claim 1. A filter comprising a housing with precipitation elements placed in it, made in the form of two external and internal coaxially arranged surfaces, characterized in that, in order to increase the degree of gas purification, the precipitation surfaces are arranged along a helical line with a step decreasing along the flow direction . 2. Filter by π. 1, characterized in that the internal precipitation elements are made with the possibility of axial movement.