RU2015347C1 - Air-stream atomizer - Google Patents

Abstract

FIELD: fluid spraying equipment. SUBSTANCE: atomizer has body with branch pipe for supply of compressed air, pipe for supply of fluid having flexible ring on outer surface for forming the shape of air nozzle, bushing in end face part and spraying head in form of truncated cone installed on adjusting spring in pipe for liquid supply. EFFECT: higher efficiency in dust control in underground mines, quarries, metallurgical works and concentration plants. 3 cl, 5 dwg

Description

 The invention relates to techniques for spraying liquids and can be used in various industries, including for the control of fine dust in underground mines, quarries, metallurgical plants, processing plants.

 Known atomizer for dust removal during operation of mining machines, including a housing, a head with a Central hole, a water supply fitting and a reflector mounted coaxially with the Central hole of the head [1].

 The disadvantages of this nozzle are the low efficiency of dust suppression, poor crushing of liquid droplets, the complexity of the design due to the external arrangement of the device, designed to reduce the degree of contamination of the atomizer.

 Closest to the proposed technical essence (prototype) is a pneumatic nozzle containing a housing mounted on its axis with the possibility of axial movement of the tube for supplying fluid with a glass covering it and an air nozzle formed by annular conical protrusions made at the output ends of the inner surface of the housing and the outer surface of the glass, equipped with a spray nozzle mounted on the outlet end of the pipe for supplying liquid, made with tangential channels and vym nozzle, liquid supply pipe is mounted for axial movement relative to the glass [2].

 The disadvantage of this nozzle is the low efficiency of dust suppression due to the operating parameters of the liquid jet, namely: low atomization volume due to the design features of the protrusions, since they have a constant unregulated angle of the air nozzle, which does not allow to increase the diameter of the nozzle, and therefore, fill the entire volume dusty space.

 In the prototype, droplets of liquid when spraying hit the inner walls of the glass, while losing some of the kinetic energy and, falling into the surrounding space in the form of an irrigation torch, cannot provide coverage with the active effect of the dusty volume. The mixing of droplets with air occurs with insufficient collision of air and water particles when leaving the nozzle, since the direction of air and water flows is almost co-directed. In addition, the nozzle for supplying compressed air is made at a right angle, as a result of which the air passing through it hits the glass, while losing some of the kinetic energy, reducing the efficiency of the nozzle. The design of the spray device proposed in the prototype does not exclude the possibility of its clogging when using industrial water (clogging of tangential channels).

 The aim of the invention is to increase the efficiency of dust suppression by increasing the range of adjustment of the water-air torch and increasing reliability in operation by eliminating the possibility of clogging of the nozzle.

This goal is achieved in that the pneumatic nozzle containing the housing with a nozzle for supplying compressed air, mounted axially with the possibility of axial movement of the pipe for supplying liquid, at the end of which there are spray nozzles and an air nozzle formed by the protrusion of the housing and the pipe for supplying liquid, is provided elastic ring and sleeve, the spray nozzle is made in the form of a truncated cone and moves along the axis due to the tensile action of the spring, the elastic ring is mounted externally th surface of the pipe, the end of the pipe is equipped with a sleeve made with the possibility of axial movement relative to the pipe. Moving the sleeve allows you to change the configuration of the elastic ring, and hence the air nozzle. Furthermore, pnevmoforsunka provided with a duct formed so that the compressed air flow to the nozzle is directed at an angle ^of 45 ° relative to the longitudinal axis tangentially.

The nozzle is such that changing the relative position of the protrusions of the body and the water supply pipe equipped with a shear and the elastic ring mounted on its outer surface, the shape of which is regulated by the sleeve, allows you to control the parameters of the water-air torch: power, volume, range, opening angle, angle of impact of dust particles and water, dispersion of liquid particles, etc. - by changing the direction of the air flow, as well as its twisting due to the tangent directed at an angle of 45 ^{about the} duct relative to the longitudinal axis.

 If the nozzle is formed by the inner surface of the spray device and the truncated cone mounted on the spring, the fluid pressure in the water supply pipe increases sharply, while the force acting on the fluid side of the cone increases, as a result of which the spring stretches and the mechanical suspension is ejected from the device along with the fluid. In addition, the design provides the ability to control fluid flow by changing the spring tension using a special rod located on the truncated cone of the spray device.

The design of the nozzle, providing a helical twisting of the torch due duct arrangement angle 45 ^o and mixing compressed air with liquid flame outside the injector, improves water-air flame parameters: increase of its long range, bulk, opening angle, the probability of collision of the dust particles and the water dispersion liquid of account of the kinetic energy of compressed air - by supplying air through a nozzle with an adjustable profile. Use in the design of an elastic ring allows you to get a water-air torch with an opening angle of up to 180 ^about .

The direction of the air duct 45 ^{of the} air promotes twisting of the incoming, increasing the air flow rate due to the elliptical orbit of air movement. In this case, the linear swirling velocity of the flow v = ω r, i.e. non-uniformity and more than with tangential input, since the small radius of the ellipse is equal to the radius of the circle (inner section of the body), and the larger is larger than this value, which leads to increased turbulization of the water-air flow. Due to intensive mixing inside the plume, the probability of collision of water droplets with dust particles increases and, consequently, their effective deposition. Water droplets and dust particles receive additional kinetic energy sufficient to overcome the forces of surface tension, which greatly facilitates the wetting of dust and especially its difficult to catch fine particles. In addition, the presence of an air envelope at the boundary of the water-air torch, provided by the proposed nozzle design, determines the active intake of dusty air by lowering the air pressure inside the torch (according to the Bernoulli law), which significantly increases the efficiency of dust suppression.

 The proposed pneumatic nozzle, in comparison with similar ones, has significant differences, which make it possible to regulate the parameters of the water-air torch over a wide range by changing the relative position of the housing and supplying an elastic ring capable of changing its configuration of the water supply pipe over the outer surface. In addition, the proposed design eliminates the possibility of clogging by using a truncated cone connected to the spring in the spray device and a rod fixed in the cone, which helps to increase the efficiency of dust suppression and expand its field of application. The nozzle can be used to effectively suppress dust in any technological processes associated with the emission of dust.

 In FIG. 1 shows a pneumatic nozzle, a longitudinal section; in FIG. 2 is a variant of the mutual arrangement of the body and the nozzle spraying liquid, explaining a method of forming a water-air torch, a longitudinal section; in FIG. 3 and 4 - the same, other positions of the nozzle relative to the housing; in FIG. 5 - regulation of the spring tension of the water spray nozzle.

 The pneumatic nozzle for suppressing fine dust (Fig. 1) contains a housing 1 with a water supply pipe 2 coaxially located in it, communicating through a shank 3 with a water supply, at the end of which there is a water-spraying nozzle in the form of a truncated cone 4 with a rod 5 located therein, regulating due to the rotation of the nut 6 (Fig. 5), the tension of the spring 7, fixed by a special device 8 in the water supply pipe. In addition, the end of the water supply pipe 2 is provided with a sleeve 9 that is axially movable relative to the pipe 2, and the outer surface of the pipe end is surrounded by an elastic ring 10 in contact with the sleeve 9. A change in the position of the sleeve 9 is accompanied by a change in the configuration of the elastic ring 10 (Fig. 2- 4). The housing 1 and the water supply pipe 2, provided on the outer surface with an elastic ring 10 capable of changing its configuration, form an annular nozzle 11 with an adjustable profile, the cavity 12 of which is connected through a duct 13 to a source of compressed air. At the nozzle exit on the inner surface of the casing and the outer surface of the water supply pipe 2, annular protrusions 14 are made for changing the direction of the air stream forming the torch.

 The regulation of the tension of the spring 7 is due to the rotation of the nut 6, leading to the translational movement of the rod 5 (Fig. 5).

 Fixation of the pipe 2 relative to the walls of the housing 1 in any of the positions (Fig. 1-4) is carried out by hoses on the shank 3 and the duct 13, which serve to supply water and compressed air.

 The nozzle works as follows.

 Through the pipe 2, the liquid is supplied and presses on the truncated cone 4 due to the tensile action of the spring 7, as a result, the cone 4 moves to the end of the nozzle and the liquid is sprayed into the surrounding space through the cone-shaped space. Compressed air through the air duct 13 enters the cavity between the housing 1 having an annular protrusion 14 on the inner surface and the water supply pipe 2 provided with an elastic ring 10 on the outer surface and flows through the profiled edges of the nozzle 11 into the atmosphere, forming an annular stream, which, meeting with the torch of the sprayed liquid, picks it up, giving its kinetic energy to the liquid droplets, partially mixes with the liquid and then spreads in space in the form of a water-air torch.

Provides structural duct direction at an angle of ^about 45 promotes turbulence in the airflow and increasing the probability of collision of the liquid droplets with dust particles.

 The torch parameters created by the pneumatic nozzle: range, volume, opening angle, dispersion of liquid particles, their residence time in air, etc. - are determined by the relative position of the elements forming the annular nozzle. Some options for controlling the air flow using a protrusion on the inner surface of the housing and a protrusion formed by an elastic ring on the outer surface of the water supply pipe are shown in FIG. 2-4.

 The annular protrusion of the nozzle of the water supply pipe is recessed relative to the protrusion of the housing (Fig. 2). In this case, the maximum amount of energy is transferred to the liquid torch by air. There is a preload of the liquid stream. The annular protrusions are in the same plane (Fig. 3). The torch has maximum range, the air stream moves at first in a straight line, and then erodes. The annular protrusion of the nozzle of the water supply pipe is advanced forward relative to the housing (Fig. 4). In this case, the air leaves the nozzle with a conical stream, and the angle of the solution is controlled by the profile of the air nozzle. In addition, in each of the options (Fig. 2-4), the parameters of the water-air torch are adjusted by changing the shape of the protrusion formed by an elastic ring. The protrusion can take a variety of forms, which allows you to increase the range of adjustment of the profile of the air nozzle.

 Depending on the relative position of the body provided with the ring protrusions and the nozzle of the water supply pipe, as well as the shape of the elastic protrusion, the parameters of the created water-air torch change, which makes the design universal and makes it possible to apply it in various fields of technology. For example, a pneumatic nozzle can be used to effectively suppress hard-to-catch finely dispersed dust that is harmful to the human body by communicating the kinetic energy of air to the water-air torch, turbulence of the water-air torch, creating a low pressure zone inside the torch, etc. by adjusting the profiled nozzle of the nozzle.

 The use of a pneumatic nozzle reduces the dust content in the air and improves the working conditions of miners.

Claims (2)

 1. PNEUMATIC NOZZLE, comprising a housing with a nozzle for supplying compressed air, mounted along the axis of the housing with the possibility of axial movement of the pipe for supplying liquid, at the end of which there is a spray nozzle, and an air nozzle formed by a protrusion of the body and a pipe for supplying liquid, characterized in that, in order to increase the adjustment range of the torch and increase the reliability of the nozzle, it is equipped with an elastic ring for adjusting the shape of the air nozzle and the sleeve, and the spray nozzles are made in the form a truncated cone mounted on one end of a spring installed inside the fluid supply pipe, the other end of which is secured inside the pipe, with an elastic ring for adjusting the shape of the air nozzle mounted on the outer surface of the fluid supply pipe, and a sleeve mounted on the end of the supply pipe liquids with the possibility of axial movement.  2. The nozzle according to claim 1, characterized in that the nozzle for supplying compressed air is located tangentially to the inner surface of the housing and at an angle to its longitudinal axis.

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