RU2450208C1 - Spray unit of rotary burner for liquid fuel - Google Patents

Abstract

FIELD: power engineering.

SUBSTANCE: spray unit comprises a spray sleeve fixed at the end installed as capable of rotating a driven hollow shaft, the end of which, protruding into a cavity of the spray sleeve, is made as capable of fixation of a spray nut on it, coaxially with a longitudinal axis of the spray sleeve. The driven hollow shaft is made as capable of rotation with frequency of 7500-8000 rpm. The spray sleeve is installed in the cavity of a controlled outlet nozzle (arranged in the form of a cone), arranged as capable of reciprocal displacement along a hub of a fan impeller and fixed with the spray nut, by means of a threaded joint with the possibility to replace the spray sleeve of one length and/or taper with a spray sleeve of another length and/or taper, besides, the controlling outlet nozzle coaxially covers the spray sleeve, and its rear side faces the boiler furnace. The surface of the fan impeller facing the spray sleeve is equipped with a cylindrical ledge coaxial with the axis of rotation of the hollow shaft, at the same time the bottom of the spray sleeve is equipped with a ledge, with a cylindrical bore in the end, arranged with the capability of tight fit on the cylindrical ledge of the fan impeller. In the spray nut wall there are spray holes arranged preferably as equidistant from each other. The rear side of the spray nut is equipped with a circular groove, the outer edge of which is made as capable of tight adjacency to the surface of the spray sleeve bottom. In the bottom of the spray sleeve there is a through hole capable of connecting the circular groove cavity and cavity of the fan 6 impeller jacket. In the volume of the spray nut, in gaps between spray holes, there are through air directing openings arranged as preferably equidistant from each other, and their longitudinal axes are aligned along the axis of symmetry of the spray nut, which matches the longitudinal axis of the driven hollow shaft, preferably at the angle to the surface of the spray sleeve.

EFFECT: invention provides for high-quality spraying of highly viscous heavy fuel with extended duration of burner operation intervals between treatments of the spray sleeve.

1 dwg

Description

The invention relates to the field of power engineering, in particular to rotary burners designed to supply any type of liquid fuel and air to boiler furnaces, and can be used in various industries where fuel-burning devices are used.

Known atomizing unit of a rotary burner (SU No. 781496, F23D 11/06, 1975), intended for atomization and combustion of liquid, mainly viscous, fuel, comprising a housing with an air supply pipe and a rotor with a fuel pipe and a spray, coaxially to which a fan is mounted on the hollow shaft. A drive is connected to the hollow shaft with a fan mounted on it and a fuel line with a spray mounted on it, which ensures their rotation in opposite directions.

The fan swirling air in the direction opposite to the rotation of the fuel sheet increases the quality of its atomization, but does not provide the degree of dispersion necessary for complete combustion of the fuel. However, the disadvantage of this nozzle is the non-compact design due to the execution of the drive.

Also known is a spray assembly of a rotary burner for liquid fuel, comprising a spray cup fixed at an end mounted for rotation of the drive hollow shaft, the end of which protruding into the cavity of the spray cup, is configured to fix the spray nut on it, coaxially with the longitudinal axis of the spray cup while in the wall of the spray nut are made, preferably equally spaced from each other spray holes, while the spray cup is coax flax mounted in the cavity of the exhaust pipe of the casing of the fan impeller (see RF patent No. 2203449, 2003).

In the known solution, in the conditions of burning highly viscous heavy fuels, a sufficient degree of dispersion is not provided, in addition, when burning highly viscous fuel in alternating conditions, the burner shuts down intensively forms a deposit on the surface of the spray nozzle, which degrades the parameters of the fuel atomization and requires more frequent stops to clean it surface.

The task to which the proposed technical solution is directed is to ensure the stability of the spray parameters of high-viscosity heavy fuel.

The technical result achieved by solving the problem is expressed in ensuring high-quality spray of high-viscosity heavy fuel, with an increase in the duration of the burner operation periods between cleanings of the spray cup.

The problem is solved in that the spray node of a rotary burner for liquid fuel, containing a spray cup fixed at the end mounted for rotation of the drive hollow shaft, the end of which protruding into the cavity of the spray cup, is configured to fix the spray nut on it, coaxially with the longitudinal axis of the spray nozzle, while in the wall of the spray nut made preferably spray holes equally spaced from each other, while spraying the blower cup is coaxially mounted in the cavity of the exhaust pipe of the fan impeller casing, characterized in that the drive hollow shaft is rotatable with a frequency of 7500-8000 rpm, the surface of the fan impeller facing the spray cup is provided with a cylindrical protrusion coaxial with the axis the rotation of the hollow shaft, while the bottom of the spray cup is equipped with a protrusion, with a cylindrical recess in the end, made with the possibility of a tight fit on the cylindrical protrusion of the impeller and, at the same time, the back side of the spray nut is provided with an annular groove, the outer rim of which is made to fit snugly against the bottom surface of the spray cup, and a through hole is made in the bottom of the spray cup with the possibility of communicating the cavity of the ring groove and the cavity of the casing of the fan impeller, in addition in the volume of the spray nut, in the spaces between the spray holes, preferably through equal to each other, through air guide holes are made parts whose longitudinal axes are oriented along the axis of symmetry of the spray nut, preferably at an angle to the surface of the spray nozzle.

A comparative analysis of the set of essential features of the proposed technical solution and the set of essential features of the prototype and analogues indicates its compliance with the criterion of "novelty".

The features of the characterizing part of the claims provide the solution to the following functional tasks:

The signs "... the drive hollow shaft is made to rotate with a frequency of at least 7500-8000 rpm ..." provide high-quality atomization of high-viscosity heavy fuels by increasing the energy characteristics of the atomizer.

Signs "... the surface of the fan impeller facing the spray cup is provided with a cylindrical protrusion coaxial with the axis of rotation of the hollow shaft, while the bottom of the spray cup is equipped with a protrusion with a cylindrical recess in the end made with a tight fit on the cylindrical protrusion of the fan impeller ... "Provide reliable fixation of the spray cup at the end of the fan impeller and, accordingly, on the hollow shaft, despite the high speed of its rotation.

The signs "... the back side of the spray nut is provided with an annular groove, the outer rim of which is made to fit snugly against the surface of the bottom of the spray cup ..." provide the formation of an annular "air distribution" channel on the side of the spray nut facing the bottom of the spray cup after assembly of the device and preloading the spray nuts to the bottom surface of the spray cup.

The signs "... a through hole is made in the bottom of the spray nozzle with the possibility of communicating the cavity of the annular groove and the cavity of the casing of the fan impeller ..." provide air supply to the annular "air distribution" channel from the cavity of the casing of the fan impeller.

The signs "... in the volume of the spray nut ... made through ... air guide holes, the longitudinal axes of which are oriented along the axis of symmetry of the spray nut ..." provide air outlet from the annular "air distribution" channel into the cavity of the spray cup.

Signs indicating that in the volume of the spray nut the through air guide holes "are placed in between the spray holes" preclude premature mixing of fuel and air entering through the air guide holes.

Signs indicating that the through air holes “are made preferably equidistant from each other” provide a uniform distribution of air entering through the air holes along the perimeter of the inner surface of the spray nozzle.

Signs indicating that the longitudinal axes of the through-hole air holes “are oriented along the symmetry axis of the spray nut, preferably at an angle to the surface of the spray nozzle” provide a uniform distribution of air entering through the air guide holes along the perimeter of the inner surface of the spray nozzle and, in addition, provide an increase the length of the blown zone of its inner surface for a sharper decrease in the temperature of the surface of the glass when it stops and is smart shenii fouling on its surface.

The invention is illustrated in the drawing, which shows a General view of the spraying unit of the rotary burner for liquid fuel, a longitudinal section.

The drawing shows: the spray cup 1, the hollow shaft 2, the spray nut 3, the longitudinal axis 4, the adjustable exhaust pipe 5, the impeller 6 of the fan, the cylindrical protrusions 7 and 9 of the impeller 6 of the fan and the bottom 8 of the spray cup 1, respectively, the bottom 8 of the spray cup 1, the spray holes 10 of the nut 3, the annular groove 11, the outer rim 12, the through holes 13, the casing 14, the through air guide holes 15, their longitudinal axis 16 and the guides 17.

The spray assembly of a rotary burner for liquid fuel contains a spray cup 1 fixed to an end mounted for rotation of the drive hollow shaft 2, the end of which protruding into the cavity of the spray cup 1, is configured to fix the spray nut 3 on it, coaxially with the longitudinal axis 4 spray cup 1. The drive hollow shaft 2 is made with the possibility of rotation with a frequency of 7500-8000 rpm

Theoretical studies have shown that a further increase in the number of revolutions does not reduce the dispersion of the spray, causing an increase in energy consumption. The spray cup 1 is located in the cavity of the regulating exhaust pipe 5 (made in the form of a cone), is mounted with the possibility of reciprocating movement on the hub of the impeller 6 of the fan and is fixed by the spray nut 3, by means of a threaded connection with the possibility of replacing the spray cup 1 of the same length and / or taper on the spray cup of a different length and / or taper, moreover, the control outlet 5 coaxially covers the spray cup 1, and its rear side is facing pke boiler. The surface of the impeller 6 of the fan, facing the spray cup 1, is provided with a cylindrical protrusion 7, coaxial with the axis of rotation 4 of the hollow shaft 2, while the bottom 8 of the spray cup 1 is equipped with a protrusion 9, with a cylindrical recess in the end, made with a tight fit on the cylindrical ledge 7 of the fan impeller. Preferably, the spray holes 10 are made equally spaced from each other in the wall of the spray nut 3. The rear side of the spray nut 3 is provided with an annular groove 11, the outer rim 12 of which is made to fit snugly against the surface of the bottom 8 of the spray cup 1. In the bottom 8 of the spray cup 1 made through hole 13 with the possibility of communication of the cavity of the annular groove 11 and the cavity of the casing 14 of the impeller 6 of the fan. In the volume of the spray nut 3, in the spaces between the spray holes 10, preferably, the through air holes 15 are equally spaced from each other, the longitudinal axes 16 of which are oriented along the symmetry axis of the spray nut 3, coinciding with the longitudinal axis 4 of the drive hollow shaft 2, preferably under angle to the surface of the spray cup 1, which ultimately, when air is supplied through them, leads to cooling of the spray cup 1 from the temperature pressure from the boiler furnace and decrease in agar during operation and removal of the boiler from working condition.

The operation of the spray node of the rotary burner is as follows.

The rotation of the spray cup 1, mounted on the hollow shaft 2, is carried out from the electric drive installed on the hollow shaft 2 (not shown). Liquid fuel, heated to a temperature of (80 ... 90) ° C (depending on the viscosity of the fuel and its brand), under excess pressure (1.0 ... 3.0) kgf / cm ^{2 is} fed through a fuel supply unit (not shown) to the internal the cavity of the spray nut 3, from where it is sprayed onto the surface of the conical spray nozzle 1. When the hollow shaft 2 is rotated by the electric drive, and therefore, the spray nut 3 and the impeller 6 of the fan are rotated by centrifugal force, the fuel is evenly distributed over the wall of the spray nozzle 1 in a ton film and, due to the taper, is fed to the edge of the spray cup 1, flowing evenly with a certain dispersion, where it is picked up by a stream of air entering the gap between the spray cup 1 and the regulating exhaust pipe 5 (air is blown by the blades of the impeller 6 of the fan and twisted due to the impact guides 17). Intensive atomization of the fuel occurs, while the resulting finely dispersed component of the fuel is fed into the flare and combustion zone.

Claims (1)

A spray assembly of a rotary burner for liquid fuel, comprising a spray cup fixed at an end mounted to rotate a drive hollow shaft, the end of which protruding into the cavity of the spray cup, is configured to fix the spray nut on it, coaxially with the longitudinal axis of the spray cup, in this case, preferably spray holes are made equally spaced from each other in the wall of the spray nut, while the spray cup is coaxially mounted in the cavity of the exhaust pipe of the casing of the impeller of the air supply fan, characterized in that the drive hollow shaft is rotatable with a frequency of 7500-8000 rpm, the surface of the air supply wheel facing the spray cup is provided with a cylindrical protrusion coaxial with the axis of rotation the hollow shaft, while the bottom of the spray cup is equipped with a protrusion with a cylindrical groove in the end, made with the possibility of a tight fit on the cylindrical protrusion of the impeller of the air supply, while I side of the spray nut is equipped with an annular groove, the outer rim of which is made with the possibility of tight fit to the bottom surface of the spray nozzle, and in the bottom of the spray nozzle there is a through hole with the possibility of communication of the cavity of the annular groove and the cavity of the casing of the impeller of the air supply fan, in addition spatter nuts, in the spaces between the sprinkler holes are preferably made equally spaced from each other through the air guide opening Ia, the longitudinal axes of which are oriented along the axis of symmetry of the spray nuts preferably at an angle to the surface of the spray nozzle.