RU152472U1 - CENTRIFUGAL NOZZLE - Google Patents

Abstract

A centrifugal nozzle comprising a housing with an inlet, a swirl made in the form of a cylindrical cup turned upside down, mounted relative to the housing with an annular gap, with tangential throttle openings evenly spaced along the annular wall of the swirl, a cap, a nozzle insert in the lower part of the housing and an outlet conical opening case, and the nozzle hole of the nozzle insert and the outlet conical hole of the body are aligned with the cylindrical surface of the head hitter, characterized in that the swirl is installed in the nozzle cap by means of a threaded connection, the tangential throttle holes are made in the form of slots located along a descending multi-start spiral, the nozzle insert with a spherical inner surface is rigidly mounted at the outlet of the swirl with the formation of an adjustable gap relative to the inner surface of the housing, moreover, the diameter of the nozzle hole is not larger than the smaller diameter of the outlet conical hole, the inlet is made tangent key to the inner surface of the casing, and on the outer surface of the bottom of the swirler, a turnkey recess is made in the form of a polyhedron.

Description

The technical solution relates to devices for spraying liquids, solutions and is intended for use in circulating water cooling systems, which are used in the power industry, chemical, petrochemical, metallurgical industries, as well as in mass transfer processes of chemical technology.

The prior art design of a centrifugal wide-flare nozzle / US Pat. for invention RU 2383821, IPC F23D 11/04, 2010 /, comprising a housing with a swirl chamber, the housing being made with an inlet in the form of a confuser and a throttle hole coaxial with it, and the swirl chamber is made in the form of a cylindrical cup, the axis of which in the plane of the drawing, perpendicular to the axis of the inlet and throttle openings in the profile plane is located tangentially with respect to the swirl chamber, and a nozzle insert is located coaxially with the swirl chamber, inside of which are successively arranged and three calibrated holes coaxial with each other and the cylindrical surface of the swirl chamber: a conical hole, a central cylindrical and outlet cylindrical hole, the diameter of the central cylindrical hole of the nozzle insert equal to the diameter of the upper base of the truncated cone of the conical hole, while the nozzle nozzle insert is made of solid materials: tungsten carbide, ruby, sapphire, while the ratio of the diameter d _{2 of the} cylindrical hole of the nozzle insert to the diameter d ₁ throttle the second hole of the nozzle body lies in the optimal range of values: d ₂ / d ₁ = 1.4 ÷ 2.22; the ratio of the diameter d _{3 of the} outlet cylindrical hole of the nozzle insert to the diameter of the central cylindrical hole lies in the optimal range of values: d ₃ / d ₂ = 1.5 ÷ 2.5; the ratio of the outer diameter D _{1 of the} nozzle insert to the diameter D of the lower base of the truncated cone of the conical hole of the insert lies in the optimal range of values: D ₁ / D = 1.2 ÷ 1.8; the ratio of the length L of the nozzle body to the length L _{1 of the} inlet confuser lies in the optimal range of values: L / L ₁ = 2.0 ÷ 2.5.

The reasons that impede the achievement of a given technical result include the low spraying efficiency of the entire torch, the inlet in the form of a confuser increases the hydraulic resistance, the absence of a bevel in the outlet cylindrical hole does not provide a wide angle of spraying the liquid, reducing the density of the irrigation of the sprayed liquid. The high cost of manufacturing the nozzle, as the nozzle insert is made of tungsten carbide, ruby, sapphire.

A known design of an ejection centrifugal nozzle with a tangential inlet and a variable cross section of the output nozzle / US Pat. for utility model RU 124890, IPC B05B 1/34, F23D11 / 06, F23D11 / 36, 2013 /, comprising a housing, a swirl chamber, an output nozzle with a variable cross section, and an inlet opening located tangentially on the side surface of the swirl chamber made in the form of a cylinder and a coaxially located confuser attached to it, with the axis of the swirl chamber in the plane of the drawing perpendicular to the axis of the inlet, the output nozzle formed by the swirl of the swirl chamber and an external diffuser interconnected inside the swirl chamber Ikhreniya placed a cylindrical hollow rod, which is installed with the ability to control the cross-sectional area of the output nozzle.

The achievement of the technical result is hindered by the low spraying efficiency of the entire flame; when the hollow cylindrical rod is fully screwed in, fine spraying with droplet diameter less than 1 mm is formed, which causes increased drop entrainment when cooling the water, in addition, a change in the cross-sectional area of the nozzle outlet nozzle does not significantly affect the liquid spray itself, when the hollow cylindrical rod is fully screwed in, the smallest sectional area of the outlet nozzle is formed, therefore, the hydraulic th resistance.

Known design of a centrifugal nozzle / US Pat. for utility model RU 134829, IPC B05B 1/34, 2013 /, comprising a housing, a lid with a swirler and a hole for supplying liquid placed inside, while the housing contains two detachable covers made in the form of cylindrical glasses, each of which is equipped with a liquid supply fitting component and cylindrical pads with external and internal threads, respectively, in the upper cover there is a swirl made in the form of a cylindrical glass with at least two levels of tangential holes and a shoulder between them, supported by the bottom of the top cover through an elastic member to form the upper annular gap, the bottom lid is coaxial cylindrical surface shaped washer with an annular groove to form the lower annular gap nozzle and the inner cavity.

The reasons that impede the achievement of a given technical result include the complexity of manufacturing the nozzle design, the lack of a chamfer in the nozzle outlet nozzle does not provide a wide angle of atomization of the liquid, reducing the irrigation density of the atomized liquid, low atomization efficiency of the entire torch, the presence of two nozzles on the nozzle complicates the process of connecting the nozzle to to the collector, there is no possibility of cleaning the nozzle without stopping work.

The closest to the proposed technical solution and adopted for the prototype is a centrifugal nozzle / pat. According to the invention RU 2326743, IPC B05B 1/34, 2008 /, comprising a housing, a cover with a swirl arranged inside and a hole for supplying liquid, the housing being made with an inlet, and between the housing and the cover there is a swirl made in the form of an inverted bottom up a cylindrical cup mounted relative to the housing with an annular gap, moreover, at least two rows of throttle openings are made in the swirl, and at least two swirls are evenly spaced along the annular wall in each row I have a tangential throttle aperture, and a nozzle insert with a calibrated conical hole coaxial with the cylindrical surface of the swirl and a taper, the inverse conicity of the conical washer of the insert, and the nozzle insert of the nozzle made of solid materials: tungsten carbide, ruby sapphire.

The desired technical result cannot be achieved, since it is difficult to design the nozzle, the manufacture of the nozzle insert of the nozzle from solid materials: tungsten carbide, ruby, sapphire increases the cost of manufacturing the nozzle, the low consumption of the sprayed liquid at a sufficiently high pressure, therefore, the energy consumption for spraying the liquid increases , low spraying efficiency of the entire torch, there is no possibility of cleaning the nozzle without stopping operation.

The problem to which the claimed technical solution is directed is to develop a centrifugal nozzle design that meets modern requirements for the quality of liquid atomization, reducing energy consumption.

The technical result of the proposed centrifugal nozzle is to increase the cooling efficiency of the liquid circulating water supply.

The technical result provided by the above set of features is achieved by the fact that the centrifugal nozzle comprises a housing with an inlet, a swirl made in the form of a cylindrical cup turned upside down, mounted relative to the housing with an annular gap, with tangential throttle openings evenly spaced along the swirl ring wall, a cover, a nozzle insert in the lower part of the housing and an outlet conical opening of the housing, the nozzle opening being a nozzle of the insert and the outlet conical opening of the housing are aligned with the cylindrical surface of the swirl, the swirl installed in the nozzle cover by means of a threaded connection, the tangential throttle openings are made in the form of slots located along a descending multi-start spiral, the nozzle insert with a spherical inner surface is rigidly mounted at the exit of swirl, with the formation of an adjustable gap relative to the inner surface of the housing, and the diameter of the nozzle hole is not olshe smaller diameter output of the conical hole, an inlet hole is formed tangentially to the inner surface of the housing and the outer surface of the bottom of the swirler turnkey a recess in the form of polyhedron.

The installation of the swirl in the nozzle cover by means of a threaded connection allows you to change the position of the swirl inside the nozzle body, that is, to adjust the gap between the nozzle insert and the inner surface of the body, thereby changing the range of the torch, the area of the irrigated surface, the contact time of the sprayed liquid with air, the density of irrigation due to changes in the productivity of the peripheral swirling fluid flow, where the process of spraying the fluid is ultimately regulated and, consequently, the eff ktivnost coolant water recycling.

The implementation of the tangential throttle holes in the form of slots and their location along a descending multi-start spiral allow filling the hollow space of the swirl with fluid simultaneously simultaneously over its entire height, while ensuring swirling of the fluid flow inside the swirl, which creates an axial swirling fluid flow, which increases the efficiency of atomization of the entire fluid and thereby increases the cooling efficiency of the liquid circulating water supply.

Rigidly mounted at the outlet of the swirl, with the formation of an adjustable gap relative to the inner surface of the casing, the nozzle insert with a spherical inner surface and the diameter of the nozzle orifice is not larger than the diameter of the outlet conical hole, allows to reduce the hydraulic resistance of the peripheral swirling fluid flow and to completely fill the adjustable swirling peripheral fluid flow a gap that eliminates the formation of stagnant zones above the nozzle insert.

The inlet opening tangentially to the inner surface of the housing rotates the peripheral fluid flow, as a result of which the spraying of the entire flame increases, and therefore, the cooling efficiency of the sprayed liquid increases.

Performing a turnkey depression in the form of a polyhedron on the outer surface of the bottom of the swirl allows using the key to change the position of the swirl inside the nozzle, therefore, to regulate the process of spraying the liquid and thereby increase the cooling efficiency of the circulating water supply liquid. Also, using the key, you can completely unscrew the swirl from the nozzle cover and clean it if it becomes clogged, without removing the nozzle from the manifold pipe, which saves time on cleaning the nozzle.

In FIG. 1 shows a main view of a centrifugal nozzle, a longitudinal section, in FIG. 2 - centrifugal nozzle, right view.

The centrifugal nozzle comprises a housing 1 with an inlet 2, a swirl 3 made in the form of a cylindrical cup turned upside down 4, mounted relative to the housing 1 with an annular gap 5, with tangential throttle openings 6 uniformly spaced along the annular wall of the swirl 3, cover 7, nozzle insert 8 in the lower part of the housing 1 and the outlet conical opening 9 of the housing 1, wherein the nozzle opening 10 of the nozzle insert 8 and the outlet conical opening 9 of the housing 1 are aligned with the cylindrical the surface of the swirl 3. Swirl 3 is installed in the nozzle cover 7 by means of a threaded connection 11. The tangential throttle holes 6 are made in the form of slots located along a descending multi-start spiral. The nozzle insert 8 with a spherical inner surface is rigidly mounted at the outlet of the swirl 3 with the formation of an adjustable gap 12 relative to the inner surface of the housing 1. The diameter of the nozzle hole 10 is not larger than the smaller diameter of the outlet conical opening 9. The inlet 2 is made tangentially to the inner surface of the housing 1. On the outer surface of the bottom 4 of the swirler 3 made a recess 13 turnkey 14 in the form of a polyhedron.

The centrifugal nozzle operates as follows.

The liquid under pressure through the inlet 2 enters the nozzle, where due to the tangential location of the hole 2 to the inner surface of the nozzle body 1, a part of the liquid swirls in the annular gap 5, forming a peripheral swirling fluid flow, and the other part of the liquid enters the tangential throttle openings 6, thanks with which the fluid swirls inside the swirler 3, forming an axial swirling fluid flow. The peripheral swirling fluid flow passing through an adjustable gap 12, and the axial swirling fluid flow passing through the nozzle hole 10 of the nozzle insert 8, are removed from the outlet conical hole 9 of the nozzle body 1 in the form of a cone cone, completely filled with small drops of sprayed liquid. By installing the swirl 3 in the nozzle cover 7 by means of a threaded connection 11, it is possible to change the position of the swirl 3 inside the nozzle body 1 depending on the specific technological conditions of the process, where the atomization of the liquid is regulated and its cooling efficiency is increased. When performing tangential throttle holes 6 in the form of slots and their location along a descending multi-start spiral, the liquid simultaneously fills the entire height of the swirl 3, acquiring a rotational movement, which allows to increase the efficiency of atomization and cooling of the liquid. A nozzle insert 8 with a spherical inner surface rigidly mounted at the outlet of the swirler 3, which forms an adjustable gap 12 relative to the inner surface, where the diameter of the nozzle orifice 10 is not larger than the diameter of the outlet conical orifice 9, reduces hydraulic resistance when overcoming the peripheral fluid flow of the gap 12, and also, the liquid completely fills this gap 12, excluding stagnant zones. When supplying liquid to the inlet 2 tangentially to the inner surface, the liquid spins around the swirl 3, as a result of which the spraying efficiency of the entire flame increases.

By changing the position of the swirl 3, which is installed in the nozzle cover 7, by means of a threaded connection 11 using a wrench 14, which is inserted into a recess in the form of a polyhedron, made on the outer surface of the bottom of the swirl 3, the gap 12 between the nozzle insert 8 and the inner surface of the housing 1 is regulated nozzles, which means that the range of the torch, the area of the irrigated surface, the contact time of the sprayed liquid with air, the density of the irrigation, that is, the process of spraying the liquid, are changed. In the event of nozzle clogging with a key 14, the swirl 3 is unscrewed and the nozzle is cleaned, without stopping the entire spraying process and without unscrewing the nozzle itself from the manifold nozzle, which can significantly save time.

Thus, the inventive centrifugal nozzle allows you to adjust the spraying process and by improving the quality of the liquid spray, provided by the imposition of two swirling flows with an adjustable gap, increases the efficiency of spraying the liquid and, as a result, increases the efficiency of cooling the liquid of the circulating water supply.

Claims (1)

A centrifugal nozzle comprising a housing with an inlet, a swirl made in the form of a cylindrical cup turned upside down, mounted relative to the housing with an annular gap, with tangential throttle openings evenly spaced along the annular wall of the swirl, a cap, a nozzle insert in the lower part of the housing and an outlet conical opening case, and the nozzle hole of the nozzle insert and the outlet conical hole of the body are aligned with the cylindrical surface of the head hitter, characterized in that the swirl is installed in the nozzle cap by means of a threaded connection, the tangential throttle holes are made in the form of slots located along a descending multi-start spiral, the nozzle insert with a spherical inner surface is rigidly mounted at the outlet of the swirl with the formation of an adjustable gap relative to the inner surface of the housing, moreover, the diameter of the nozzle hole is not larger than the smaller diameter of the outlet conical hole, the inlet is made tangent key to the inner surface of the casing, and on the outer surface of the bottom of the swirler, a turnkey recess is made in the form of a polyhedron.

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