SU1681894A1 - Filter - Google Patents

Abstract

The invention relates to devices for filtering flowing media and can be used in the purification of liquids and gases by surface filtration elements. Its use allows to simplify the design, improve the manufacturability and the efficiency of regeneration of the filter element. In the filter containing the housing with the inlet and outlet nozzles, the ejector is placed in the inlet nozzle installed coaxially with the filter element. The bypass pipeline is installed coaxially with the filter element. 1 з п. Ф-лы, 3 Il.

Description

The invention relates to devices for filtering flowing media and can be used in the purification of liquids and gases by surface filtration elements.

The aim of the invention is to simplify the design, improve manufacturability and regeneration efficiency of the filter element.

FIG. 1 shows a filter in which the inlet with the ejector is connected to the housing coaxially with the filter element, and the bypass pipeline with a drainage pipe attached to it is connected to the housing between its wall and the filter element; in fig. 2 - the same, in which the inlet with the ejector is connected to the housing coaxially to the filter element, a neper / xnny pipeline and drainage pipe connected to the housing on the sides of the filter element; in fig. 3 - the same, in which the inlet with the ejector and the bypass pipe connected to the housing coaxially filter element, and the drain pipe connected to the bypass pipeline.

The filter includes a housing 1 with an inlet 2 and an outlet 3 of the FPG / bakami, a housing located in the cavity .--) filter element 4, an ejector 5, the reduced pressure cavity of which is connected by an overflow pipe 6 to a part of the cavity of the housing 1 connected to the inlet 2 and drainage pipe 7. The ejector 5 is placed in the inlet pipe 2, which is connected to the housing 1 coaxially with the filter element 4. In FIG. 1, an overflow pipe 6 with a drainage pipe 7 attached to it is connected to the housing 1 between its wall and the filter element 4. FIG. 2, the overflow pipe 6 and the drainage pipe 7 are connected to the housing 1 between its wall and the filter element 4 on the sides of the filter element 4. FIG. 3, the overflow pipe 6 is also connected to the housing 1 coaxially with the filter element 4, and the drainage pipe 7 is connected to the overflow pipe 6.

The device works as follows.

The current medium passes the inlet nozzle 2, zhejktiruet the current medium from the 2 parts of the cavity of the housing 1 communicated with the inlet nozzles and with an increased flow enters the cavity of the housing 1 and washes the filter element 4 After passing through the filter element 4 cleared current

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The medium in the outlet nozzle 3 is directed to the consumer. The current environment with a high content of contaminants is removed through the drainage nozzle 7 The filter with the ejector 5 placed in the inlet nozzle 2 has a simpler and more technologically advanced design. This is due to the fact that it is not necessary to implement structurally and technologically complex placement of the ejector 5 in the cavity of the housing 1 between its wall and the filter element 4, and additional elements that complicate the design and manufacture of the device The inlet nozzle 2 to the housing 1 coaxially with the filter element 4 ensures a uniform flow around the perimeter and a more efficient regeneration of the filter element 4 from the entrance side

When connecting the bypass duct 6 and the drainage nozzle 7 to the housing 1 along the sides of the filter element 4, the flow around the filter element 4 increases throughout its length, which also contributes to the regeneration efficiency

Connecting the overflow pipe 6 to the housing 1 coaxially with the filter element 4 makes it possible to further simplify the design and improve the manufacturability of the device, and also provides the greatest uniformity of flow around the filter element 4 over its entire length. Great simplicity and height

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The fabricability of the design is achieved by the possibility of the location of the outlet nozzle 3 in the middle part of the housing 1, whereas in other embodiments of the filter, the mandatory asymmetrical arrangement of at least one of the taps leads to a complication of the design and complicates its manufacture. The increased flow uniformity, combined with the effect of the proposed connection of the inlet 2 with the ejector 5, provides the most efficient regeneration of the filter element 4.

The proposed technical solution allows to simplify the design, improve the manufacturability of production and the efficiency of the regeneration of the filter element.

Claims (1)

Invention Formula A filter comprising a housing with inlet and outlet nozzles, a filter element, an ejector, the reduced pressure cavity of which is connected by an overflow pipe to a part of the housing cavity connected to the inlet nozzle, and a drainage nozzle, characterized in that, in order to simplify the design, improve the manufacturability and regeneration efficiency, the ejector is placed in the inlet pipe, installed coaxially with the filter element. A filter according to claim 1, characterized in that the overflow pipe is coaxial with the filter element. Rig.2 1 6 it / / R Fig. 3