RU1780848C - Sprayer for liquid - Google Patents

Abstract

Use, pneumatic spraying of various liquids, can find application in chemical, medical, A., fff VS // & energy, food and other industries while improving spray quality by improving the classification of droplets by size. The inventive nozzle is equipped with a node for changing the bore of the axial hole of the nozzle, made in the form of mounted on the output end of the nozzle 11 with the possibility of angular rotation of the ring 13 pivotally mounted on its end surface facing the gas 8 and liquid 4 nozzles having curved lobes located in slot 17 made in the nozzle body, protrusions 16. The sprayer is also equipped with a nozzle 5, one end of which is placed in the liquid nozzle, and the other in the lower part of the cavity cage 11. Fluid nozzle 4 formed covering gas 8 and protruding with respect to its end. 2 silt; h h fc x4 00 0 00 4b 00 rig. 1

Description

The invention relates to equipment for pneumatically spraying various liquids, in particular flotation reagents in the mining industry. It can find application in the chemical, medical, energy, food industries, as well as in other sectors of the national economy.

A known nozzle for spraying liquid fuel comprising a housing for supplying fuel, a union nut, a sealing washer and a flexible tube, an insert deforming under fuel pressure.

The main disadvantage of this nozzle is the poor spray quality.

A pneumatic atomizer is known, comprising a housing with channels for supplying liquid and gas, a diaphragm with openings in the form of wedge slots and a swivel nozzle surrounding it with radial holes.

The main disadvantage of this atomizer is the poor spray quality.

Of the known devices, the closest in technical essence and the achieved result to the claimed one is a liquid atomizer selected as a prototype, comprising a housing with gas and liquid inlets, a liquid and gas nozzle and mounted on the outlet end of the housing with the possibility axial movement of nozzles for controlling dispersion of the spray having an axial outlet (4).

The main disadvantage of this atomizer is the insufficient amount of atomization due to the impossibility of changing the flow cross section of the outlet.

The purpose of the invention is to improve spray quality by improving the classification of droplets by size.

This goal is achieved in that the liquid atomizer comprising a housing with gas and liquid supply tubes, liquid and gas nozzles and mounted on the outlet end of the housing with the possibility of axial movement of nozzles for controlling dispersion of the spray, having an axial outlet, is provided with a flow passage change unit the cross section of the axial hole of the nozzle, made in the form of a nozzle mounted on the output end with the possibility of angular rotation of the ring with pairs mounted on the end face of attached to the gas and liquid nozzles, curved petals having protrusions located in the nozzle made in the nozzle body, and nozzles for ejecting condensate of large droplets, one end of which is placed in the liquid nozzle and the other at the bottom of the nozzle cavity, while the liquid nozzle is made covering the gas and protruding relative to its end.

In FIG. 1 shows a vertical section of a spray gun; in FIG. 2 is a section AA in FIG. 1.

The liquid atomizer includes a housing 1 with gas supply 2 and liquid 3 tubes and a liquid nozzle 4 with a side nozzle B for ejecting condensation of large droplets, axially mounted central gas tube 6 with radial holes 7 in the wall and gas nozzle 8 at the outlet the end. On the axis of the gas tube, an adjustment needle 9 with a swirl 10. hinges 14 on its inner end surface with curved petals 15 having protrusions 16 located in the slot x 17 made in the nozzle body.

The liquid nozzle 4 is made covering the gas nozzle 8 and protruding relative to its end. The second end of the pipe 5 is located in the lower part of the cavity of the nozzle 11.

The sprayer operates as follows.

In the body of the atomizer 1 through tubes 2 and 3, gas is supplied under excess pressure and liquid flows by gravity. The liquid in the annular gap between the housing 1 and the central gas tube b enters the liquid nozzle 4. Gas enters the central gas tube 6 through the radial holes 7, swirls by the swirler 10 and enters the liquid nozzle 8 through the gas nozzle 8, where it encounters the liquid. it captures and sprays it in the direction of the outlet 12 of the nozzle 11 in the form of a rotating aerosol stream forming a spray torch (cone). In this case, the largest drops of liquid under the action of centrifugal forces are concentrated in the peripheral part of the spray cone. When passing through the opening 12, the aerosol stream is divided into two parts. The central part of the stream containing small drops

liquids are dispensed for their intended use. The peripheral part of the stream, containing the largest drops, tilts the edges of the hole 12 to the sides and moves along the inner surface of the nozzle body 11 in the opposite direction, rubbing the liquid phase, which is collected in the lower part of the nozzle cavity and is vented through the nozzle 5 into the liquid nozzle 4 for re-spraying. The air stream 10 that has lost the liquid phase is ejected into the central zone, where it is mixed with the central stream and removed from the nozzle. Adjusting the spray quality is carried out by changing the size of the flowing peripheral part of the aero-115 ash flow by moving the nozzle body 11 along the central axis to one side or the other and changing the bore of the bore 12. Thus, to reduce the bore of the bore, the movable ring 20 13 with reinforced on it, the axes 14 are turned counterclockwise (Fig. 2). The protrusions 16 of the curved lobes 15 are held in the slots 17 of the housing 11, and the free ends of the lobes 25 are moved to the center of the hole 12, reducing its cross section. To increase the bore of the bore 12, the movable ring 13. is turned clockwise., 30

Providing the nozzle with a unit for changing the flow passage of the nozzle outlet and the design of this unit as a flap mechanism expands the range of dispersion control

dust and allows you to more accurately cut off the sub-standard part of the spray nozzle, which improves the quality of the spray. Providing a liquid nozzle with a nozzle for ejecting condensate of large droplets from the lower zone of the nozzle cavity allows for non-waste liquid spraying.

Claims (1)

SUMMARY OF THE INVENTION A liquid atomizer comprising a housing with gas and liquid supply tubes, a liquid and gas nozzle, and mounted on an outlet end of the housing for axially moving nozzles to control dispersion of a spray having an axial outlet, wherein In order to improve the quality of spraying by improving the classification of droplets by size, the sprayer is equipped with a unit for changing the bore of the axial opening of the nozzle, made in the form of a nozzle mounted on the outlet cradle with the possibility of angular rotation of the ring with pivotally mounted on its end surface facing the gas and liquid nozzles, curved petals having protrusions located in the nozzle made in the nozzle body, and a nozzle for ejecting condensate of large drops, one end of which is placed in the liquid nozzle and the other in the lower part of the cavity of the nozzle, while the liquid nozzle is made covering the gas and protruding relative to its end. 17 fig 2