RU200439U1 - FUEL MIXER - Google Patents

Abstract

The utility model relates to devices for mixing liquids and can be used in the chemical and petrochemical industries, as well as in the automotive industry. The fuel mixer-dispenser includes a composite pipeline equipped with a removable cover and consisting of hollow upper and lower conical parts facing the horizontal axis of symmetry of the mixer-dispenser, a branch pipe for the main liquid installed in the upper part of the pipeline at right angles to its axis of symmetry, a branch pipe for a liquid with a lower flow rate, located coaxially in the pipeline and perforated with holes along a helical line along its entire length, with a total area of holes equal to or greater than its cross-sectional area, a partition installed in the pipeline, rigidly fixed to the branch pipe for a liquid with a lower flow rate and made in the form of a tape wound on a branch pipe for a liquid with a lower flow rate with the same pitch of winding the tape along the entire length of the branch pipe, and the wound tape is made of variable diameter with a decreasing diameter of turns in the direction from the horizontal axis of symmetry of the mixer-dispenser towards the smaller bases of the upper and lower conical parts of the pipeline, and an additional branch pipe with holes installed inside the branch pipe for a liquid with a lower flow rate coaxially to it, and the holes in the additional branch pipe and the branch pipe for a liquid with a lower flow are made of the same diameter, while in the upper part the additional branch pipe is rigidly fixed in the cover, and the branch pipe for a liquid with a lower flow rate, it is installed for rotation around an additional branch pipe. The utility model provides an improvement in the quality of regulation of the added liquid supply to the main liquid flow and the quality of mixing of two different liquid streams. 2 ill.

Description

The utility model relates to devices for mixing liquids and can be used in the chemical and petrochemical industries, as well as in the automotive industry, for mixing liquids of variable flow rates.

Known mixer-metering fuel [Liquid mixer. Patent RU No. 2230882. - Publ. 20.06.2004], including branch pipes, one of which is made for the mixed fluid with a lower flow rate, and a pipeline with an installed baffle. A branch pipe for a liquid with a lower flow rate is placed coaxially in the pipeline and is perforated along a helical line along its entire length with a total area of perforation holes equal to or greater than the sectional area of the branch pipe. The pipeline baffle is made in the form of a tape wound on a perforated branch pipe with the formation of a spiral channel for the main liquid flow and with the possibility of preventing this liquid flow from blocking the liquid flow with a lower flow rate in the branch pipe.

However, the known device has a disadvantage, which can be attributed to the impossibility of regulating the supply of the mixed liquid with a lower flow rate when changing the supply of the main liquid.

The technical result of the utility model is to increase the regulation of the added liquid supply to the main liquid flow.

The technical result is achieved by the fact that the pipeline is made composite, consisting of hollow upper and lower conical parts. The upper and lower conical parts with a large base point to the horizontal axis of symmetry of the fuel mixer-dispenser. The baffle in the pipeline is made with the same pitch of tape winding along the entire length of the branch pipe for a liquid with a lower flow rate, and the wound tape is made of variable diameter with a decreasing diameter of turns in the direction from the horizontal axis of symmetry of the fuel mixer-dispenser towards the smaller bases of the upper and lower conical parts of the pipeline. The pipeline is equipped with a removable cover. The main fluid connection is installed in the upper

parts of the pipeline at right angles to the axis of its symmetry. The baffle is rigidly fixed to the fluid nozzle at a lower flow rate. An additional branch pipe with holes is installed coaxially inside the branch pipe for a liquid with a lower flow rate. The holes in the additional branch pipe and the branch pipe for the liquid with a lower flow rate are made of the same diameter. In the upper part, the additional branch pipe is rigidly fixed in the lid, and the branch pipe for a liquid with a lower flow rate is installed with the possibility of rotation around the additional branch pipe.

FIG. 1 shows a fuel mixer-metering device, FIG. 2 - section A-A.

The fuel metering mixer contains a pipeline 1 with a baffle 2 installed in it, a pipe 3 for the main liquid and a pipe 4 for a liquid with a lower flow rate. The branch pipe 4 for a liquid with a lower flow rate is perforated with holes 5 along a helical line along its entire length, with a total area of holes 5 equal to or greater than the sectional area of the branch pipe 4 for a liquid with a lower flow rate. The branch pipe 4 for a liquid with a lower flow rate is located coaxially in the pipeline 1.

The pipeline 1 is made composite, consisting of hollow upper 6 and lower 7 conical parts. The upper 6 and lower 7 conical parts with a large base face the horizontal axis of symmetry of the fuel mixer-metering unit. The partition 2 is made in the form of a tape and is rigidly fixed to the branch pipe 4 for a liquid with a lower flow rate. The baffle 2 in the pipeline 1 is made with the same pitch of winding the tape along the entire length of the branch pipe 4 for a liquid with a lower flow rate, and the wound tape is made of variable diameter with a decreasing diameter of turns in the direction from the horizontal axis of symmetry of the fuel mixer-dispenser towards the smaller bases of the upper 6 and lower 7 tapered pipeline parts.

The pipeline 1 is equipped with a removable cover 8, which is screwed into the upper part of the pipeline 1. The branch pipe 3 for the main fluid is installed in the upper part of the pipeline 1 at right angles to its axis of symmetry. Inside the branch pipe 4 for a liquid with a lower flow rate, it is installed coaxially

additional branch pipe 9 with holes 10. Openings 10 in additional branch pipe 9 and holes 5 in branch pipe 4 for liquid with a lower flow rate are made of the same diameter. In the upper part, the additional branch pipe 9 is rigidly fixed in the cover 8 of the pipeline 1, and in the lower part the additional branch pipe 9 is fixed with a retaining ring 11 inserted into the groove 12 of the additional branch pipe 9. An elastic element 13 is installed between the branch pipe 4 for a liquid with a lower flow rate and the pipeline 1, with the possibility of rotation of the branch pipe 4 with a lower flow rate around the additional branch pipe 9. The elastic element 13 is made in the form of a strip spring and is fixed on the outer surface of the branch pipe 4 for a liquid with a lower flow rate and on the inner surface of the pipeline 1 by means of screws 14. The elastic element is selected in such a way that the twisting force of the ribbon spring was identical to the pressure of the supplied fluid flow.

The fuel mixer-dispenser also contains limiters 15 and 16, which are fixed, respectively, on the outer surface of the pipe 4 for a liquid with a lower flow rate and on the inner surface of the lower 7 conical part of the pipeline 1.

The fuel metering mixer operates as follows. In the initial state, when there is no supply of liquids to the branch pipe 3 for the main liquid and the additional branch pipe 9, the holes 5 of the branch pipe 4 for the liquid with a lower flow rate and the holes 10 of the additional branch pipe 9 are not overlapped with each other, and the restrictor 15 rests against the restrictor 16.

The liquid with a lower flow rate (additionally mixed) is fed into the inner cavity of the additional branch pipe 9. The main liquid flow is fed through the branch pipe 3 to the pipeline 1, in which the main liquid flow passes through the spiral channel formed by the partition 2, wound on the perforated branch pipe 4, and the inner wall pipeline 1. The rectilinear motion of the main fluid is converted in pipeline 1 into rotational motion in a spiral with angular acceleration. The created moment from the friction force of the main fluid on the partition 2, rigidly fixed

on the branch pipe 4 for a liquid with a lower flow rate, turns the branch pipe 4 for a liquid with a lower flow rate around the additional branch pipe 9 by a certain angle. In this case, the holes 5 of the branch pipe 4 for a liquid with a lower flow rate and the holes 10 of the additional branch pipe 9 partially overlap, and the additionally admixed liquid flows in thin streams along the entire length of the perforated branch pipe 4 perpendicular to the flow of the main liquid. In this case, the main flow of the liquid entrains thin streams of the mixed liquid and intensively mixes with it. With the maximum supply of the main liquid through the nozzle 3 and its maximum pressure on the baffle 2, the nozzle 4 for the liquid with a lower flow rate is turned to a maximum angle relative to the additional nozzle 9 so that the holes 5 of the nozzle 4 for the liquid with a lower flow and the holes 10 of the additional nozzle 9 completely match. In this case, the maximum supply of the mixed liquid to the main liquid flow occurs.

Thus, depending on the values of the main liquid supply and its pressure on the baffle 2, the branch pipe 4 will rotate at a different angle relative to the additional branch pipe 9, changing the relative position of the holes 5 and 10, and, accordingly, the amount of the supplied mixed liquid.

An increase in the regulation of the supply of the mixed liquid to the main liquid flow is achieved due to the coaxial installation of the additional branch pipe 9 inside the branch pipe 4 for the liquid with a lower flow rate, the holes of which are identical to the openings of the branch pipe 4, with the possibility of rotation of the branch pipe 4 with a lower flow rate around the additional branch pipe 9. In addition, an elastic element in the form of a strip spring, the twisting force of which is identical to the pressure of the supplied flow of the main fluid, and fixed between the nozzle 4 and the pipeline 1, allows the nozzle 4 to be rotated by a certain angle and overlap the holes 5 and 10 with the required area. In this case, the portions of the supplied mixing liquid will correspond to the proportions of the main liquid flow.

The execution of the pipeline 1 from hollow upper 6 and lower 7 conical parts, with the upper 6 and lower 7 conical parts with a large base facing the horizontal axis of symmetry of the fuel mixer-dispenser, as well as the implementation of a partition 2 in pipeline 1 with the same tape winding step, but with a decreasing the diameter of the turns in the direction from the horizontal axis of symmetry of the fuel mixer-metering device towards the smaller bases of the upper and lower conical parts of the pipeline, allows to reduce the angular flow rate of the mixed liquids of the upper 6 conical part (from the nozzle 3 to the horizontal axis of symmetry of the fuel metering mixer) and increase the angular the flow rate of liquids in the lower 7 conical part (from the horizontal axis of symmetry of the fuel metering mixer to the elastic element 13).

This improves not only the quality of regulating the supply of the mixed liquid to the main liquid flow, but also the quality of mixing of the two liquids.

Claims (1)

Mixer-metering fuel, including a pipeline with a partition installed in it, a branch pipe for the main liquid, a branch pipe for a liquid with a lower flow rate, a branch pipe for a liquid with a lower flow rate is perforated with holes along a helical line along its entire length, with a total area of holes equal to or greater than the area section of a branch pipe for a liquid with a lower flow rate, and is located coaxially in the pipeline, the baffle in the pipeline is made in the form of a tape wound on a branch pipe for a liquid with a lower flow rate, characterized in that the pipeline is made of composite, consisting of hollow upper and lower conical parts, the upper and the lower conical parts with a large base face the horizontal axis of symmetry of the mixer-dispenser of fuel, the baffle in the pipeline is made with the same pitch of winding the tape along the entire length of the pipe for liquid with a lower flow rate, and the wound tape is made of variable diameter with a decreasing diameter of turns in the direction from the horizontal axis of symmetry sm the fuel metering medium towards the smaller bases of the upper and lower conical parts of the pipeline, the pipeline is equipped with a removable cover, the branch pipe for the main liquid is installed in the upper part of the pipeline at right angles to the axis of its symmetry, the partition is rigidly fixed on the branch pipe for the liquid with a lower flow rate, inside the branch pipe for a liquid with a lower flow rate, an additional branch pipe with holes is installed coaxially with it, the holes in the additional branch pipe and the branch pipe for the liquid with a lower flow rate are made of the same diameter, and in the upper part the additional branch pipe is rigidly fixed in the cover, and the branch pipe for the liquid with a lower flow rate is installed with the possibility of rotation around the additional pipe.

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