RU145024U1 - STATIC MIXER - Google Patents

Abstract

A static mixer consisting of an inlet and an outlet, a mixing chamber, in which an inlet pipe is mounted for supplying a component to be mixed, characterized in that the mixing chamber is provided with identical spiral elements offset from each other along the axis of the mixing chamber by a distance L, in spiral elements throughout along the length of the mixing chamber, a through hole is made, tapering from the entrance to the middle of the mixing chamber and expanding towards the exit.

Description

The utility model relates to the field of mixing liquids and can be used in agriculture for the preparation of solutions of liquid fertilizers, in the oil refining industry, in the chemical industry, in the food industry, etc.

Known static mixer according to No. RU 118878 U1 containing a tubular body with a narrowing in the middle part, dividing it into nozzles for supplying the first of the mixed flows and removal of the mixture, with a turbulence plate installed in the narrowed part. In the proposed device, the liquid after passing through the narrowed area at the outlet enters the zone of a sharp increase in pressure, this leads to a loss of energy, therefore it is advisable to reduce the expansion angle of the outlet of the mixer.

The prototype of the utility model is a cavitation type mixer No. 2158627 RU MPK B01F 5/08, which includes a working chamber of constant cross section, inlet and outlet pipes located on the same axis as the working chamber along the flow direction and made in the form of a confuser and diffuser, respectively, mixing elements installed in the working chamber, and the supply pipe of the additive component of the mixture. The use of mixing elements in the form of partitions with multi-jet nozzles increases the hydraulic resistance at the inlet and leads to a loss of energy in the expansion area, while the flow rate is lost, therefore, the component can be supplied only by force, the subsequent mixing element causes additional flow resistance.

The proposed device provides a new technical effect - combining the mixing process and the absorption of the mixed component in one operation, without increasing the hydraulic resistance.

The technical effect is achieved by the fact that identical spiral elements are installed in a cylindrical mixer with a diameter equal to the diameter of the flow channel, offset from each other along the axis of the mixer by a distance L. Through the entire length of the mixer, there is a through hole in the profile repeating the shape of a venturi. An inlet pipe is located in the center of the mixing chamber. The design of the mixer allows the mixing component to be fed by ejection.

In FIG. 1 shows a diagram of a static mixer.

The static mixer consists of an inlet 1, a mixing chamber 2, into which an inlet pipe 3 is mounted for supplying a component to be mixed; spiral elements 4 and exit 5. The spiral elements are screw elements with a through hole in the center, which narrows along the liquid towards the middle of the mixing chamber and expands from the center to the outlet of the chamber, fixed to the inner surface of the flow chamber.

The device operates as follows. The main fluid flow enters through inlet 1, where the pressure decreases, and increasing the velocity of the fluid, getting into the mixing chamber, the fluid swirls in a spiral, passing through the spiral elements 4, while the flow is partially divided into two, the first swirls on the surface of the spiral. The second flow passes through the hole in the spiral, and a channel is formed which has less resistance than the channel in the form of a continuous tube, due to the smaller area of contact of the liquid with the inner edge of the spiral, the flow rate of the liquid in the narrowing region increases and the pressure decreases. Under the action of vacuum from the inlet pipe 3, the mixed component is absorbed. The first stream, twisting in a spiral, at the exit 5 into the free space picks up the second stream and qualitatively mixes the resulting mixture.

Thus, the use of spiral elements allows you to combine the mixing and absorption of the mixed component in one operation, without increasing the hydraulic resistance.

Claims (1)

A static mixer consisting of an inlet and an outlet, a mixing chamber, in which an inlet pipe is mounted for supplying a component to be mixed, characterized in that the mixing chamber is provided with identical spiral elements displaced relative to each other along the axis of the mixing chamber by a distance L, in spiral elements throughout along the length of the mixing chamber, a through hole is made, tapering from the entrance to the middle of the mixing chamber and expanding towards the exit.