SU621386A1 - Nozzle with scanning jets - Google Patents

Description

one

The invention relates to a technique for spraying liquids and can be used to evenly irrigate rectangular surfaces of a given size (for example, during coking, dyeing, water cooling, sprinkling, etc.) and spraying process liquids and solutions in column vessels.

A known flat jet nozzle comprising a fluid supply pipe and a slotted nozzle for the passage of fluid 1.

A disadvantage of the known nozzle is uneven irrigation due to alternation of zones with excessive density of irrigation with zones with insufficient density of irrigation.

Closer to the invention is a scanning jet nozzle comprising a vertically mounted distribution pipe for supplying irrigation fluid, a cylindrical body freely mounted thereon with radial channels for the passage of fluid, and a support element.

The disadvantage of such a nozzle is that it creates several rotating cylindrical jets, therefore the surface of the product will be irrigated very unevenly, since the zones with the maximum irrigation density on the axis of the jet will alternate with the zones having a minimum (or zero) irrigation density in the areas between jets, the irrigation uniformity will also depend on the distance between the nozzle and the surface to be treated. In addition, the design of the nozzle eliminates the possibility of adjusting the geometry of the aggregate torch or adjusting it to the dimensions of the treated surface, and also does not allow irrigation of individual local areas of a given size.

The purpose of the invention is to improve the uniformity of irrigation of the product surface.

This is achieved due to the fact that the radial channels of the housing are made curved with outlet openings in the form of slots located along the cylinder forming lines, and the distribution pipe is made with a longitudinal slit, the height of which corresponds to the length of the slots.

The nozzle creates a running flat jets whose width and path of run exactly correspond to the size of the irrigated surface. The jets follow one after the other, while ensuring a very uniform

irrigation of a given area or the entire surface.

A scanning jet nozzle is shown in the figure.

FIG. 1 - front view; in fig. 2 - the same, top view. The nozzle consists of a cylindrical body 1, a lid 2 with screws 3, a distribution pipe 4 and an oior element of the Cornus containing a Hi-Rhead 5 and a fixing washer 6.

Cornus 1 is mounted on a vertically simulated distribution pipe 4 and rests on bearing 5, fixed by washer 6, on top of the case by means of screws 3 is closed by a cover 2.

The casing has radial curvilinear channels 7 with outlet openings in the form of a neck, radiating along its shape; it has a cylinder with a longitudinal slot 8 in the distribution pipe, the height of which corresponds to the length of the cuts of the casing.

The forsuika works as follows: the irrigating fluid is supplied to the distribution pipe 4 and through slot 8 enters curvilinear channels 7, which are wide in the housing 1. The channels are bent so that the liquid leaves them almost tangential to the outer diameter of the housing. A certain moment of reaction force of the outgoing jet is created, and the body (closed by the lid 2) begins to rotate around its own axis. At the same time, the inlet of the channel, gradually moving, is outside the slot 8 and the fluid is no longer accessible, and the idle channel gets into the slot, etc. To reduce the resistance, the bearing 5, which is located on the distribution pipe 4 is fixed by the washer 6 in such a way that the upper end of the distributor device almost touches the groove a of the cover 2. The irrigation density can be controlled by the width and number of channels, and the size of the irrigated surface can be adjusted by the height of Thief slot 8 (with

distance to irrigation surface).

The use of a nozzle can ensure uniform irrigation of the treated surface (or a given

parts of the surface), and therefore, improve the quality of the product.

Claims (2)

1. USSR author's certificate number 143735, cl. B 05B 1/06, 1960. 2. USSR author's certificate number 371983, cl. On 05/13/06, 1971.