RU48992U1 - FILTER FOR CLEANING MELTED METAL - Google Patents

Abstract

The solution relates to metallurgy, in particular, to the design of filters for cleaning (refining) metals. A filter is proposed in which the filter element is made in the form of a slit lattice of parallel and vertically arranged plates having the shape of rectangular triangles, forming with their hypotenuses an inclined surface, with a pocket in its lower part for removable inclusions. This embodiment reduces the clogging of the filter with a high degree of metal purification.

Description

The solution relates to metallurgy, in particular, to the design of filters for cleaning (refining) metals.

As a prototype, a filtering device for molten metals was adopted (see RF patent No. 2227813, С 22 В 9/02, 2004). The device consists of a metal receiver with a hole for the passage of metal, a filter consisting of an insert filter element and a lower filter element covering the lower part of the receiver. A granular refractory filter material is located above the insert filter element. The filter elements are made of silica mesh.

The disadvantages of this filter are: low throughput and high clogging.

These shortcomings are eliminated by the proposed solution. The task at hand is the improvement of the filter design. EFFECT: reduced filter clogging with a high degree of purification of the cast metal.

This technical result is achieved by the fact that in the filter containing the housing in which the filter element is installed, the filter element is made in the form of a slit lattice of parallel and vertically arranged plates having the shape of rectangular triangles forming an inclined surface with their hypotenuses, with a pocket in its lower part for removable inclusions. Such a filter design provides high throughput (since the resistance to metal flow through the slot is 4 times lower than through the cell), and the slope is the removal of inclusions into the pocket under the influence of the current metal.

The high throughput is explained by the fact that a larger volume of metal passes through the slot than through the cell, and there are fewer surfaces that resist flow. The proposed filter is shown in the drawing:

Figure 1 - front view (without the front wall of the housing),

Figure 2 is a top view,

Figure 3 is a side view (without the side wall of the housing).

The filter comprises a housing 1 in which a filter element 2 is installed.

The filtering element 2 is made in the form of a slit lattice from parallel vertically arranged plates 3 in the form of rectangular triangles, forming with their hypotenuses an inclined surface 4, at the base of which a pocket 5 is made in the form of a groove for removable inclusions. The distance between the plates is 3 to 1 mm. The selection of this distance for various metals and alloys makes it possible to more reliably hold inclusions.

The filter works as follows. The poured metal passes through the filter and enters the mold, and harmful inclusions settle on the inclined surface 4 of the filter and, under the action of a stream of metal, are washed off along the inclined surface into the pocket 5.

The proposed design will ensure the complete exclusion of clogging of the filter and the possibility of its multiple use, and the simplicity of the design allows the filter to be used in various designs and devices, both during metal overflows and when pouring it into a mold.

This is tested on aluminum alloys, the result is positive, confirms the achievement of the technical result.

Claims (1)

A filter for cleaning molten metal, comprising a housing in which a filter element is installed, characterized in that the filter element is made in the form of a slit lattice of parallel and vertically arranged plates having the shape of rectangular triangles that form an inclined surface with their hypotenuses, with a pocket in its lower part for removable inclusions.