RU2079351C1 - Mixer - Google Patents

Abstract

FIELD: mixer of liquid components. SUBSTANCE: this device can be used in engines for producing emulsions of liquid and alternative fuels. Passages in head piece of mixer are reducing in diameter from inlet to outlet. Shape of passages look like screws of left- and right- hand threading. Installed at outlet from passages are blades of left- and right- hand spiral direction so that liquid flows when passing through passage and between blades encounter opposite flows. EFFECT: high efficiency. 4 dwg

Description

 The invention relates to a device for mixing liquid fractions and can be used in the engine industry for the preparation of emulsions of diesel and alternative fuels.

 The closest in technical essence and the functions performed to the invention is a cavitation mixer / 1 /.

 The disadvantage of this mixer is the low quality of mixing liquid fractions, especially at low speeds through the mixer.

 Significant differences of the invention from the known ones are that the channels in the nozzle in the nozzle of the mixer are made smaller in diameter from the entrance to the exit, the shape of the channels resembles screws of the left and right windings, so that adjacent liquid flows when passing through the channel and between the blades traffic.

 It is known that high-quality mixing of two fluid flows is possible with their oncoming movement at a sufficient speed.

 The implementation of the channels in the nozzle of the mixer decreasing in diameter from inlet to outlet allows you to increase and provide sufficient for mixing flow rates at the output, even at low speed at the input.

 The implementation of the channels in the form of screws of the left and right rotation ensures the oncoming movement of adjacent fluid flows at the outlet of the nozzle, which contributes to their high-quality mixing.

 The installation of blades with left and right coils at the outlet of the channels additionally gives the neighboring fluid flows rotation around the axis in opposite directions, which also contributes to their high-quality mixing.

 In FIG. 1 shows a mixer, front view; in FIG. 2 and 3 view of the nozzle from the entrance side; and exit to FIG. 4 view of the channel from the exit side on an enlarged scale. The mixer has an inlet pipe 1, an outlet pipe 2, a cylindrical nozzle 3 with channels 4 made therein. At the outlet of the channels, blades 5 are installed.

 The mixer operates as follows.

 An inhomogeneous liquid flow enters the mixer from the inlet pipe 1 and moves towards the cylindrical nozzle 3. Here it is divided by channels 4 into several flows. When the fluid flow moves through channel 4 due to a decrease in the diameter of the channel to the outlet, the flow velocity increases, while due to the shape of the channel, the flow acquires rotational motion. Passing through the blades 5 with left or right winding, the fluid flow additionally begins to rotate around its own axis.

 Thus, when passing through the nozzle channels, two adjacent fluid flows from entrance to exit increase their speed, begin to rotate around their own axis in opposite directions, and the helical shape of the channels are directed towards each other. All this provides high-quality mixing of the component fluid flows.

Claims (1)

 A mixer comprising a flow chamber with inlet and outlet nozzles and a nozzle made in the form of a cylindrical disk with through channels installed perpendicular to the axis of the flow channel, characterized in that it is equipped with left and right winding blades mounted at the output of adjacent channels made with decreasing diameter in the direction of flow and having the form of a screw with a left and right direction of rotation in adjacent channels.

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