SU1620153A1 - Injector foir spraying lubricant - Google Patents

Abstract

The invention relates to ferrous metallurgy and can be used to spray liquid materials when supplying technological lubricant and coolant to the working surface of the rolls of wide strip hot and cold rolling mills. The purpose of the invention is to increase the efficiency of the cooling rolls by increasing the dispersion and uniformity of the spray. For this purpose, in a nozzle for spraying lubrication, a tube is mounted on the outer surface of the housing. The axial line of the nozzle tube is inclined to the axial line of the nozzle body. The axial line of the air torch at an acute angle crosses the axial line of the liquid torch of the lubricant, breaks the continuous stream of lubricant into small drops. 1 hp f-ly, 2 ill. and (L

Description

The invention relates to ferrous metallurgy and can be used for spraying flowable materials when applying process lubricants and coolants to the working surface of the rolls of hot and cold rolling broadband mills.

The purpose of the invention is to increase the efficiency of the cooling rolls by increasing the dispersion and uniformity of the spray.

FIG. 1 shows the nozzle section; in fig. 2 - the same, top view.

The nozzle for spraying lubricant comprises a housing 1 and a tube 2 having nozzles 3 and 4 and diameters D and d respectively, and a line for supplying lubricant and air. Nozzles 3 and 4 are located on the same vertical axis. Along the nozzle length, the nozzles 3 and 4 are spaced apart from each other, depending on the condition of shutting the jet to the surface where the lubricant is supplied (a is the angle of the jet plume of the lubricant, p is the angle of the jet plume).

The tube 2 is installed on the outer surface of the housing 1. Moreover, the axial line of the nozzle 4 of the tube 2 is inclined to the axial line of the nozzle 3 of the housing 1.

The angle at the inclination of the axial line of the nozzles 4 of the tube 2, to the axial line of the nozzles 3 of the housing 1 can be chosen to be 15-30 °.

A spray nozzle operates as follows.

In the tube 2 serves compressed air, which expires in the external environment through the nozzle

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with

4 with a diameter d, having an angle (5 opening the air plume

The lubricant (emulsion) entering the interior of the housing 1 flows to the external medium through nozzles 3 with a diameter D, having an angle a of the flare of the liquid medium.

The axial line of the air jet crosses the center line of the liquid emulsion torch at an angle y, breaks the continuous flow of the emulsion into small droplets. In this case, the small droplet torch, receiving acceleration from the air torch, deviates slightly to the side, but the working surface of the roll reaches and has a cooling effect and a lubricating effect. If it is necessary to apply the flare of crushed particles to the old place, it is necessary to slightly turn the body 1 of the nozzle towards the installation of the air supply tube 2.

When applying a liquid lubricant through the nozzle housing 1, it flows out of the nozzles with 3 continuous jets. The effect of such lubrication on the roll surface is minimal, since the relatively large thickness of the lubricant layer itself washes off and is carried away by wastewater. Hence, low cooling surface of the roll. Entering the jet of liquid lubrication air torch leads to the breaking of a continuous jet of lubricant into small drops. Each drop, falling on the heated surface of the roll, immediately evaporates water from its volume, extracting heat from the roll.

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1

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The cooling effect of the heated roll surface increases even with minimal lubricant consumption.

When the air supply from the workshop line is cut off, no emulsion is disintegrated. The roll surface lubricates, but its cooling efficiency decreases. The roller operator is notified of the absence of air and a decrease in the roll cooling rate, as indicated by the pressure gauge (or by some other signal). Rolling can continue but maybe at a slightly reduced speed. The nozzle works without blocking its nozzles 3 and 4. With the air supply, the nozzle works with a greater degree of cooling efficiency.

Claims (2)

1. A sprayer for lubricating a grease, 0 comprising a housing, a tube having nozzles, and a line for supplying lubricant and air, characterized in that, in order to increase the cooling efficiency of the rolls by increasing the dispersion and uniformity of spraying, the tube is mounted on the outer surface of the housing, the axial line of the nozzles of the tube being inclined to the axial line of the nozzles of the housing. 2. The injector according to claim 1, characterized in that the angle of inclination of the axial line of the nozzles of the tube 0 to the center line of the nozzles of the body is from 15-30 °. FIG. g