RU91929U1 - FUEL MIXER-DOSER - Google Patents

Abstract

A fuel metering mixer, including a pipeline with a partition installed in it, a nozzle for the main liquid, a nozzle for a liquid with a lower flow rate, a nozzle for a liquid with a lower flow rate, is perforated with holes along a helical line along its entire length and placed coaxially in the pipeline, the partition in the pipeline is made in the form of a tape wound on a nozzle for a liquid with a lower flow rate, characterized in that the partition is rigidly fixed to a nozzle for a liquid with a lower flow rate, inside the nozzle for a liquid with a lower consumption ohm coaxially with it, an additional nozzle with holes is installed, an elastic element is installed in the lower part of the pipeline between the liquid nozzle with a lower flow rate and the pipeline, a plate is rigidly mounted between the partition and the elastic element on the outer surface of the liquid nozzle with a lower flow rate, and on the inner surface of the pipeline limiters are installed, and the limiters are installed at the same level with the plate, and the free end of the plate is located between the limiters.

Description

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

Known liquid mixer [1], including nozzles, one of which is made for mixed liquid with a lower flow rate, and a pipeline with a mounted partition. A nozzle for liquid with a lower flow rate is placed coaxially in the pipeline and is perforated along a helical line along the entire length with a total area of perforation holes equal to or greater than the cross-sectional area of the nozzle. The pipeline partition is made in the form of a tape wound on a perforated nozzle with the formation of a spiral channel for the main fluid flow and with the possibility of obstructing the liquid flow from this fluid flow blocking at a lower flow rate in the nozzle.

However, the known device has a disadvantage, which can be attributed to the impossibility of regulating the supply of the mixed fluid with a lower flow rate when changing the supply of the main fluid, as well as the lack of supply of additionally mixed fluid at a low flow rate of the main fluid.

The purpose of the utility model is to increase the regulation of the supply of the mixed liquid to the main fluid stream.

This goal is achieved by the fact that the partition is rigidly fixed to the nozzle for liquid with a lower flow rate. An additional nozzle with holes is installed coaxially inside the nozzle for liquid with a lower flow rate. In the lower part of the pipeline between the liquid nozzle with a lower flow rate and the pipeline install an elastic element. A plate is rigidly mounted rigidly between the baffle and the elastic element on the outer surface of the liquid nozzle with a lower flow rate, and stoppers are installed on the inner surface of the pipeline, the restraints being installed at the same level with the plate, and the free end of the plate is placed between the stoppers.

In Fig. 1, a fuel dispenser is shown, in Fig. 2 is a section A-A (the supply of additionally mixed liquid is minimum), in Fig. 3 is a section A-A (the supply of additionally mixed liquid is maximum).

The fuel metering mixer comprises a pipe 1 with a partition 2 installed therein, a pipe 3 for the main liquid and a pipe 4 for the liquid with a lower flow rate. The pipe 4 for a liquid with a lower flow rate is perforated with holes 5 along a helical line along its entire length and placed coaxially in the pipe 1. In the upper part, the pipe 1 is closed by a cover 6. The partition 2 is made in the form of a tape and is rigidly fixed to the pipe 4 for a liquid with a lower flow rate . An additional nozzle 7 with holes 8 is coaxially mounted inside the nozzle 4 for liquid with a lower flow rate. In the upper part, the additional nozzle 7 is rigidly connected to the cover 6 of the pipe 1, and in the lower part, the additional nozzle 7 is fixed with a locking ring 9 inserted into the groove 10 of the additional nozzle 7. The holes 8 in the additional pipe 7 and the holes 5 in the pipe 4 for liquid with a lower flow rate are made of the same diameter.

Between the pipe 4 for liquid with a lower flow rate and the pipe 1 is installed an elastic element 11, made in the form of a tape spring. The elastic element 11 is fixed on the outer surface of the nozzle 4 for liquid with a lower flow rate and on the inner surface of the pipe 1 by means of screws 12. The elastic element is selected so that the twisting force of the tape spring is identical to the pressure force of the supplied fluid.

A plate 13 is installed between the partition 2 and the elastic element 11 on the outer surface of the liquid nozzle 4 with a lower flow rate. On the inner surface of the pipe 1, stops 14 and 15 are installed at the same level with the plate 13. The free end of the plate 13 is located between the stops 14 and 15.

The fuel metering mixer operates as follows. In the initial state, when the plate 13 abuts against the abutment 14, the holes 5 of the pipe 4 for a lower flow rate and the holes 8 of the additional pipe 7 are partially closed to each other. In this position, the main fluid is supplied through the pipe 3 to the pipe 1 and a constant minimum fluid supply with a lower flow rate (additionally mixed) by thin streams along the entire length of the pipe 4 into the internal cavity of the additional pipe 7. The main fluid flow passes through a spiral channel formed by the partition 2 wound around the perforated pipe 4 and the inner wall of the pipe 1. An additionally mixed liquid passes through holes 5 and 8 and enters the spiral channel of the perpendi to the main fluid flow. The movement of the main and additionally mixed liquid is converted into a spiral rotational movement with angular acceleration, while mixing.

The created moment from the friction force of the flow of the main fluid against the baffle 2, rigidly fixed to the fluid nozzle 4 with a lower flow rate, rotates the fluid nozzle 4 with a lower flow rate around the additional nozzle 7 by a certain angle. In this case, the holes 5 of the nozzle 4 for liquid with a lower flow rate and the holes 8 of the additional nozzle 7 overlap at a larger angle, and the additionally mixed liquid of the perforated nozzle 4 enters perpendicular to the flow of the main liquid in a larger volume. In this case, the main fluid flow carries the trickles of the mixed liquid and intensively mixes with it. When the maximum supply of the main fluid through the pipe 3 and its maximum pressure on the partition 2, the pipe 4 for liquid with a lower flow rate is rotated to the maximum angle relative to the additional sleeve 6 so that the holes 5 of the pipe 4 for a lower flow rate and the holes 8 of the additional sleeve 7 completely coincide, and the plate 13 abuts against the stop 15. In this case, the maximum flow of additionally mixed liquid to the main fluid flow occurs.

Thus, depending on the values of the supply of the main fluid and its pressure on the baffle 2, the pipe 4 will rotate at a different angle relative to the additional sleeve 6, changing the relative position of the holes 5 and 8, and, accordingly, the amount of supplied mixed liquid.

Improving the regulation of the supply of the mixed fluid to the main fluid flow is achieved by coaxially installing an additional nozzle 7 inside the nozzle 4 for liquid with a lower flow rate, the holes of which are identical to the holes of the nozzle 4. In addition, the elastic element is made in the form of a tape spring, the twisting force of which is identical to the pressure force the feed stream of the main fluid, and fixed between the pipe 4 and the pipe 1, allows you to rotate the pipe 4 at a certain angle and block the holes 5 and 8 among themselves the required area. In this case, portions of the supplied mixed liquid will correspond to the proportions of the flow of the main liquid.

The source of information

1. The liquid mixer. Patent RU No. 2230882. - Publ. June 20, 2004

Claims (1)

A fuel metering mixer, including a pipeline with a partition installed in it, a nozzle for the main liquid, a nozzle for a liquid with a lower flow rate, a nozzle for a liquid with a lower flow rate, is perforated with holes along a helical line along its entire length and placed coaxially in the pipeline, the partition in the pipeline is made in the form of a tape wound on a nozzle for a liquid with a lower flow rate, characterized in that the partition is rigidly fixed to a nozzle for a liquid with a lower flow rate, inside the nozzle for a liquid with a lower consumption ohm coaxially with it, an additional nozzle with holes is installed, an elastic element is installed in the lower part of the pipeline between the liquid nozzle with a lower flow rate and the pipeline, a plate is rigidly mounted between the partition and the elastic element on the outer surface of the liquid nozzle with a lower flow rate, and on the inner surface of the pipeline limiters are installed, and the limiters are installed at the same level with the plate, and the free end of the plate is located between the limiters.