RU2617076C2 - Dropper (options) - Google Patents

Abstract

FIELD: satisfaction of human life necessities.

SUBSTANCE: dropper includes a base with openings, filtering sections composed of filter cells, output channel in the form of a coil having portions oriented at angles to each other, diminishing in the direction from the inlet to the outlet of the output channel.

EFFECT: reduced dropper clogging, which makes it possible to increase the period of its operation.

13 cl, 3 dwg

Description

The invention relates to a device for dispensing a fluid flow rate and can be used, in particular, in agriculture and in the mining of metals by heap leaching.

Known dropper, including placed on the base of the filter in the form of a set of parallel filter cells, the input of which is the input of the dropper, and the output channel in the form of a coil connecting the filter output with the holes in the base (US 4960584, US 5005806, US 5030279).

In well-known droppers, solid particles of impurities present in the water, not retained by the filtering cells, enter directly into the outlet channel and, ultimately, clog it, stopping the dropper.

The technical result from the use of the proposed options for the implementation of droppers is to reduce the clogging of the dropper, making it possible to increase its life.

The specified technical result is achieved by the fact that in the dropper, including a filter placed on the base, the entrance of which is the input of the dropper, and the output channel in the form of a coil connecting the filter output with the holes in the base, the coil contains sections parallel to each other or oriented at angles to each other to a friend decreasing in the direction from the entrance to the output of the output channel.

The specified technical result is also achieved by the fact that in the dropper, including the filter placed on the base, the entrance of which is the input of the dropper, and the output channel connecting the filter output to the holes in the base, the output channel is made with sockets at one or both ends thereof.

The specified technical result is also achieved by the fact that in the dropper, including a filter placed on the base, the input of which is the input of the dropper, and the output channel connecting the filter output with the holes in the base, the filter is made in the form of N filter sections, the inputs of which are the input of the filter, and the outputs are connected to the input of the output channel through the channels of the filter sections located on different sides of the output channel, N is a natural number, N≥2.

In all embodiments, the dropper filter can be made in the form of N filter sections, the inputs of which are the input of the filter, and the outputs are connected to the input of the output channel through the channels of the filter sections, N is a natural number.

In all embodiments of the dropper, the filter sections can be located on one side of the outlet channel or on its opposite sides (including, in equal amounts). The capacity of the output channel must be not less than the total capacity of the filter sections.

In all embodiments, droppers, one or more filter sections can be made in the form of a set of parallel filter cells.

In all embodiments of the dropper, the orientation of the cells of at least two filter sections located on one side of the outlet channel can be mutually orthogonal.

In all embodiments of the dropper, the output channel can be made in the form of a coil with sockets.

In all embodiments of the dropper, the coil may contain sections parallel to each other or oriented at angles to each other, decreasing in the direction from the entrance to the output of the output channel.

In all embodiments of the dropper, the base can be made in the form of a curved plate bounded by imaginary coaxial semi-cylindrical surfaces.

In FIG. 1a, b shows a general view of a dropper from different sides; in FIG. 2 - dropper with the orientation of the coil sections parallel to each other in expanded form; in FIG. 3 - dropper with the orientation of the coil sections at angles to each other, decreasing in the direction from the entrance to the output channel, in expanded form.

The dropper contains a base 1 with holes 2, filter sections 3, consisting of filter cells 4, a coil 5 with sections 6.

A dropper works as follows.

A liquid flow enters the dropper installed inside the pipeline with the holes 2 in the base 1 aligned with the holes in the walls of the pipeline, part of which branches into the filter cells 4 of the filter sections 3. The liquid passes through the filter cells 4, where it is cleaned of particles of various impurities , enters the coil 5, and through the holes 2 in the base 1 flows out in the form of drops from the pipeline.

The output channel in the form of a coil 5 with sockets at the ends, sections 6 parallel to each other or oriented at angles to each other, decreasing in the direction from the inlet to the outlet of the coil 5, provides a gradual decrease in the pressure of the fluid flow (necessary for droplets), which leads to a decrease in clogging of the coil 5, which increases with a sharp decrease in the pressure of the fluid flow due to the intensification of the liquid process of insoluble chemicals (in particular calcium).

The separation of the filter into filter sections 3 with separate outputs in the presence of an output channel with a throughput of at least the total channel capacity of the filter sections 3 ensures uninterrupted operation of the dropper in case of clogging of the individual filter sections 3.

The mutually orthogonal orientation of the filter cells 4 of the filter sections 3, located on one side of the output channel, makes it possible to place the largest number of filter sections 3 in a given volume while maintaining the desired ratio between the total throughput of the filter sections 3 and the throughput of the output channel.

The implementation of the base 1 in the form of a curved plate bounded by imaginary coaxial half-cylindrical surfaces (for example, in the form of a half-cylinder wall), simplifies the design of the dropper.

Claims (13)

1. A dropper containing a filter placed on the base, the input of which is the input of the dropper, and an output channel in the form of a coil, the input of which is connected to the output of the filter, characterized in that the coil contains sections oriented at angles to each other, decreasing in the direction from the entrance to the output of the output channel. 2. A dropper according to claim 1, characterized in that the filter is made in the form of N filter sections, the inputs of which are the input of the filter, and the outputs are connected to the input of the output channel through the channels of the filter sections, N is a natural number. 3. A dropper according to claim 2, characterized in that one or more filter sections are made in the form of a set of parallel filter cells. 4. A dropper according to claim 3, characterized in that the orientation of the cells of at least two filter sections located on one side of the output channel is mutually orthogonal. 5. A dropper according to any one of paragraphs. 1-4, characterized in that the output channel is made with sockets at one or both ends. 6. A dropper according to any one of paragraphs. 1-4, characterized in that the base is made in the form of a curved plate. 7. A dropper containing a filter located on the base, the input of which is the input of the dropper, and an output channel, the input of which is connected to the output of the filter, characterized in that the output channel is made with sockets at one or both ends thereof. 8. The dropper according to claim 7, characterized in that the filter is made in the form of N filter sections, the inputs of which are the input of the filter, and the outputs are connected to the input of the output channel through the channels of the filter sections, N is a natural number. 9. A dropper according to claim 8, characterized in that one or more filter sections are made in the form of a set of parallel filter cells. 10. A dropper according to claim 9, characterized in that the orientation of the cells of at least two filter sections located on one side of the output channel is mutually orthogonal. 11. A dropper according to any one of paragraphs. 7-10, characterized in that the output channel is made in the form of a coil. 12. A dropper according to claim 11, characterized in that the coil contains sections parallel to each other or oriented at angles to each other, decreasing in the direction from the entrance to the output of the output channel. 13. A dropper according to any one of paragraphs. 7-10, characterized in that the base is made in the form of a curved plate.

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