RU156910U1 - AEROSOL FILTER - Google Patents

Abstract

1. An aerosol filter comprising a housing, a highly efficient filter material arranged in a zigzag pattern, and separator-separators, characterized in that the separator-separator is frame-shaped, has a triangular shape in the base and is equipped with plates installed at the ends of the frame and with a given step along its height. 2. The aerosol filter according to claim 1, characterized in that the separators are installed alternately with the base to the top of the frame of a triangular shape. 3. The aerosol filter according to claim 1, characterized in that fiberglass mats are used as filter material. The aerosol filter according to claim 1, characterized in that the separator-separator is equipped with a wrapper stretched over the outer surface, except for the surface of the inlet channel of a rectangular shape, which is used as a glass grid.

Description

The utility model relates to aerosol filters for the purification of process air in the nuclear, chemical, electronic and other industries made on the basis of fibrous materials, mainly from mineral fibers, for example, fiberglass.

Known aerosol sorbent filter containing a housing in which is placed a zigzag folded filter material, in the folds of which are inserted separators-separators from corrugated aluminum sheet (RF patent No. 2192914, IPC B01D 39/16).

Known aerosol filter containing a housing in which filter elements are placed, between the folds of which are placed dividers of corrugated aluminum sheet (RF patent No. 2192916, IPC B01D 46/52).

Known filters of such structures have the following disadvantages.

Due to the presence of corrugated separators having a developed surface, significant aerodynamic losses occur during pumping of the medium, comparable with the resistance of the filter itself. In addition, the flow is divided into parts proportional to the number of corrugations and is sent in half the ratio to the opposite surfaces of the filter elements, as a result of which almost half of the filter surfaces are obscured, i.e. excluded from the filtering process.

The task to which the utility model is directed is to create an aerosol filter in which these shortcomings are eliminated, namely, aerodynamic losses are optimized, the surface of the filter material and its efficiency are increased, and the manufacturability is increased.

These tasks are solved in an aerosol filter according to a utility model, comprising a housing, a highly efficient filter material arranged in a zigzag pattern, and separator-separators, in which the separator-separator is made of a triangular frame in the base and is equipped with plates mounted at the ends of the frame and with a given step along it at the same time, the separators are installed alternately with the base to the top of the frame of a triangular shape, fiberglass mats are used as filter material, section The separator is equipped with a wrapper stretched on the outer surface, except for the surface of the input channel of a rectangular shape, which is used as a glass grid.

The essence of the utility model consists in the fact that the implementation of the separator-separator in the frame of a triangular shape at the base allows you to optimize aerodynamic losses by equalizing the pressure of the process air on the surface of the filter material when passing through the channel of a triangular shape, increases the surface of the filter material due to the possibility of laying along inclined guides the frame is triangular in comparison with the rectangular profile of the prototype separator, and to increase its efficiency and use due to the exclusion of shading surfaces in the hollow frame, the supply of the separator-separator with plates installed at the ends of the frame and with a given step along its height, separates and evens out the flows of the medium to be cleaned, which improves the cleaning efficiency, and the supply of the frame with a wrapper stretched over the outer surface, in addition to the surface of the input channel of a rectangular shape, it increases the manufacturability of production without compromising the operational characteristics of the filter.

The applicant is not aware of the design of the aerosol filter, which has essential features in the independent clause of the utility model formula, which confirms the compliance of the claimed utility model with the patentability criterion of “novelty”.

The proposed utility model is illustrated by drawings, where in FIG. 1 is a perspective view of an aerosol filter; FIG. 2 is a section AA, in FIG. 3 - design of the separator-separator.

The aerosol filter contains a housing 1, a highly efficient filter material 2, arranged in a zigzag pattern, separators-separators 3. The separator-separator 3 is frame-shaped and contains a rectangular input channel 4, triangular plates 5 installed at the ends 6 of the frame and inside with a predetermined step 7 its height, and the wrapper 8, stretched on the outer surface, except for the surface 9 of the rectangular shape of the input channel 4. Separators, separators 3 are installed alternately with the base 10 to the top 11 of the frame of a triangular shape.

Aerosol filter works as follows. To clean process air, the aerosol filter is built into airtight channels through which this medium is fed to the inlet of the aerosol filter. The passage of the medium through the triangular channels contributes to a more even planting of impurities in the filter material. Disposal of a used filter service life resource is carried out according to proven technologies.

The technical result when using the utility model is the ability to optimize aerodynamic losses, increasing the surface of the filter material and its efficiency and increasing the manufacturability of aerosol filters.

Claims (4)

1. An aerosol filter comprising a housing, a highly efficient filter material arranged in a zigzag pattern, and separator-separators, characterized in that the separator-separator is frame-shaped, has a triangular shape at the base and is equipped with plates mounted at the ends of the frame and with a predetermined pitch along its height. 2. The aerosol filter according to claim 1, characterized in that the separator-separators are installed alternately with the base to the top of the frame of a triangular shape. 3. The aerosol filter according to claim 1, characterized in that fiberglass mats are used as filter material. 4. The aerosol filter according to claim 1, characterized in that the separator-separator is equipped with a wrapper stretched over the outer surface, except for the surface of the inlet channel of a rectangular shape, which is used as a glass grid.

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