RU102756U1 - ROTARY LIQUID FUEL BURNER - Google Patents

Abstract

The utility model relates to the field of power engineering, and is intended to supply liquid (preferably heavy) fuel, used oil and air to boiler furnaces and can be used in various industries where fuel-burning devices are used. The burner contains a housing, in the cavity of which a hollow shaft is mounted for rotation from the drive, one end of which is connected to the fuel supply unit, and a spray cup is mounted coaxially to the shaft, into the volume of which the output end of the hollow shaft is equipped with a spray nut and a fan impeller primary air supply, rigidly fixed to the hollow shaft in the cavity of the casing, equipped at the end with a regulating exhaust pipe 8 coaxially covering the spray cup, the back of which abzhena air supply channel with the cavity of the housing. In this case, the burner is equipped with a means of supplying secondary air. The hollow shaft is rotatable at a frequency of 7500-8000 rpm. The hollow shaft is mounted in bearings housed in an oil bath installed in the body cavity coaxially with the hollow shaft. The surface of the primary air supply impeller facing the spray cup is provided with a cylindrical protrusion coaxial with the axis of rotation of the hollow shaft. The bottom of the spray cup is provided with a protrusion, with a cylindrical recess in the end, made with the possibility of tight fit on the cylindrical protrusion of the impeller of the primary air supply, while the back side of the spray nut is provided with an annular groove, the outer rim of which is made with a tight fit to the bottom surface of the spray cup. 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 impeller of the primary air supply fan, and preferably through the spacing of the air holes in the spaces between the spray holes are preferably equally spaced apart, the longitudinal axes of which are oriented along the axis of symmetry of the spray nut, preferably at an angle to the surface of the spray nozzle. In addition, the spray cup is mounted with the possibility of reciprocating movement along the hub of the fan impeller and secured with a spray nut by means of a threaded connection with the possibility of replacing the spray cup of one length and / or taper with a spray cup of a different length and / or taper. Moreover, on the inner surface of the casing of the impeller of the primary air supply fan, straightening guides of the primary air flow are made from the side of the exhaust pipe. In addition, the primary air flow guides are made radially curved in the direction opposite to the direction of rotation of the fan impeller. In addition, the secondary supply channel is equipped with an air damper and is configured to supply flue gases into it.

The design provides a stable flame when burning any type of fuel, including highly viscous, while almost complete combustion of heavy, highly viscous fuels occurs, which determines the efficiency of the claimed burner compared to known designs up to 5%. The burner is characterized by simplicity, reliability, the absence of wearing parts and components, repair of the burner is almost reduced to the timely replacement of rolling bearings and seals (purchased products). 2 ill.

Description

The utility model relates to the field of power engineering, namely to rotary burners designed to supply liquid (preferably heavy) fuel, used oil and air to boiler furnaces and can be used in various industries where fuel-burning devices are used.

Known rotary nozzle (SU No. 781496, F23D 11/06, 1975), designed for spraying and burning liquid, mainly viscous, fuel, containing 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.

A rotary burner for liquid fuel is also known, comprising a housing in the cavity of which a hollow shaft is mounted rotatably from the drive, one end of which is connected to the fuel supply unit, and a spray cup is mounted coaxially to the shaft, the volume of which the output end of the hollow shaft is open, equipped with a spray nut and the impeller of the primary air supply fan, rigidly fixed to the hollow shaft in the cavity of the casing, the exhaust pipe of which coaxially covers the spray cup, and the rear I side of which is provided with an air supply passage, wherein the burner is provided with means for supplying secondary air, (RU 2083921, F23D 11/04, 1997).

In the known burner, the design of the air supply system is complicated, including the presence of a special fan for supplying secondary air, the burner has very significant dimensions due to the design of the drive, while the design uses a large number of wearing parts, which leads to insufficient reliability and durability of the device. In addition, in the combustion of highly viscous heavy fuels, a sufficient degree of dispersion is not provided.

The task to which the proposed technical solution is directed is to ensure the stability of the spray parameters of high-viscosity heavy fuel and to approach stoichiometric fuel burnup, i.e. decrease in excess air ratio.

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 a rotary burner for liquid fuel, comprising a housing, in the cavity of which a hollow shaft is mounted with the possibility of rotation from the drive, one end of which is connected to the fuel supply unit, and a spray cup is mounted coaxially with the shaft, the output of which is open the end of the hollow shaft, equipped with a spray nut and the impeller of the primary air supply fan, rigidly fixed to the hollow shaft in the cavity of the casing, the outlet pipe of which coaxially covers the spray the cup, and the back side of which is equipped with an air supply channel, while the burner is equipped with a secondary air supply means, characterized in that the hollow shaft is rotatable with a frequency of 7500-8000 rpm, while the hollow shaft is mounted in bearings placed in an oil bath installed in the body cavity coaxially with the hollow shaft, the surface of the primary air supply impeller facing the spray cup is provided with a cylindrical protrusion coaxial with the axis of rotation of the hollow shaft, while the bottom is sprayed the nozzle is provided with a protrusion, with a cylindrical recess in the end, made with the possibility of tight fit on the cylindrical protrusion of the impeller of the primary air supply, while the back side of the spray nut is provided 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 a through hole is made in the bottom of the spray cup with the possibility of communicating the cavity of the annular groove and the cavity of the casing of the impeller of the feed fan primary air, moreover, in a volume of spray nut in between the spray holes are made, preferably, equidistant from each other through the air guide hole, 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. In addition, the spray cup is mounted with the possibility of reciprocating movement along the hub of the fan impeller and secured with a spray nut by means of a threaded connection with the possibility of replacing the spray cup of one length and / or taper with a spray cup of a different length and / or taper. Moreover, on the inner surface of the casing of the impeller of the primary air supply fan, straightening guides of the primary air flow are made from the side of the exhaust pipe. In addition, the primary air flow guides are made radially curved in the direction opposite to the direction of rotation of the fan impeller. In addition, the secondary supply channel is equipped with an air damper and is configured to supply flue gases into it.

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 search results showed that the claimed utility model does not follow explicitly from the prior art for the specialist, since the influence of the transformations provided for by the essential features of the claimed utility model is not revealed from the prior art defined by the applicant, which provides a positive reaction to achieve a technical result - ensuring high-quality spray highly viscous heavy fuel with an increase in the duration of the burner operation periods between atomization spray cleanings Kan.

The utility model is illustrated by drawings, where Fig. 1 shows a general view of the burner (longitudinal section), and Fig. 2 shows an enlarged atomizing unit A.

The drawings show the housing 1, the hollow shaft 2, the fuel supply unit 3, the spray cup 4, the spray nut 5, the impeller 6 of the primary air supply fan, the casing 7, the adjustable exhaust pipe 8, the air inlet channel 9, the secondary air supply means 10, the bearings 11 , oil bath 12, cylindrical protrusions 13 and 16, axis of rotation of the hollow shaft 2, bottom 15 of the spray cup 4, spray holes 17, annular groove 18, side 19, through hole 20, air guide holes 21, their longitudinal axes 22, lance 23 elek troprivod 24, drain pipe 25, primary air flow guides 26, primary and secondary air supply channels 27 and 28, air flow swirl 29, the drawings also show the regulating gates 30 and 31 of the primary and secondary air, damper 32.

A rotary burner for liquid fuel (see Fig. 1) comprises a housing 1, in the cavity of which a hollow shaft 2 is mounted rotatably from the drive, one end of which is connected to the fuel supply unit 3, and a spray cup 4 is mounted coaxially with the shaft, in the volume of which the output end of the hollow shaft 2 is open, equipped with a spray nut 5 and the impeller 6 of the primary air supply fan, rigidly fixed to the hollow shaft 2 in the cavity of the casing 7, equipped at the end with a regulating outlet pipe 8 coaxially covering of the spray nozzle 4, the back side of which air supply channel 9 is connected with the cavity casing 7. In this case the burner is provided with means 10 for secondary air (secondary air supply fan).

The hollow shaft 2 is made to rotate at a frequency of 7500-8000 rpm (theoretical studies have shown that a further increase in the speed does not lead to a decrease in dispersion of the spray, causing an increase in energy consumption). The hollow shaft 2 is mounted in bearings 11 located in an oil bath 12 installed in the cavity of the housing 1 coaxially with the hollow shaft.

The spray cup 4 (see Fig. 2) is located in the cavity of the regulating outlet pipe 8 (made in the form of a cone), is mounted with the possibility of reciprocating movement along the hub of the impeller 6 of the primary air supply fan and secured with a spray nut 5, by means of a threaded connection the possibility of replacing the spray cup 4 of one length and / or taper with a spray cup of another length and / or taper, and the control outlet 8 coaxially covers the spray cup 4 , and its back side is facing the boiler furnace. The surface of the impeller 6 of the primary air supply fan, facing the spray cup 4, is provided with a cylindrical protrusion 13 coaxial with the axis of rotation 14 of the hollow shaft 2, while the bottom 15 of the spray cup 4 is provided with a protrusion 16, with a cylindrical recess in the end, made with a tight fit on the cylindrical protrusion 13 of the impeller 6 of the primary air supply fan. Preferably, the spray holes 17 are made equally spaced from each other in the wall of the spray nut 5. The back of the spray nut 5 is provided with an annular groove 18, the outer flange 19 of which is made to fit snugly against the surface of the bottom 15 of the spray cup 4. In the bottom 15 the spray cup 4 has through holes 20 with the possibility of communicating the cavity of the annular groove 18 and the cavity of the casing 7 of the impeller 6 of the primary air supply fan. In the volume of the spray nut 5, in the spaces between the spray holes 17, preferably through air guide holes 21 are made equally spaced from each other, the longitudinal axis 22 of which are oriented along the symmetry axis of the spray nut 5, coinciding with the longitudinal axis 4 of the drive hollow shaft 2, preferably under angle to the surface of the spray cup 4, 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 a decrease in n agar during operation and removal of the boiler from working condition.

A rotary burner device (RGU) (Fig. 1) is installed on the lance 23, and an electric drive is installed on the RGU 24. A fresh oil filling tube (not shown) and a waste oil drain pipe 25 are located on the housing 1 of the rotary burner device. On the lance 23 are the installation pipe of the photocell, as well as the installation pipe for supplying electrodes for igniting the fuel and the pipe for visual observation (not shown). On the inner surface of the casing 7 of the impeller 6 of the primary air supply fan, from the side of the adjustable outlet pipe 8, straightening guides 26 of the primary air flow are made, made radially curved in the direction opposite to the direction of rotation of the impeller 6 of the primary air supply fan. The secondary air supply channel 28 is provided with an air swirl 29 and is configured to supply flue gas recirculation into it.

The device operates as follows.

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 the fuel supply unit 3 into the internal cavity of the spray nut 5, from where it is sprayed onto the surface of the conical spray cup 4. When the hollow shaft 2 is rotated by the electric drive 24, and, consequently, by the rotation of the spray nut 5 and the impeller 6 of the primary air supply fan, the fuel is uniformly distributed over the wall under the action of centrifugal force about the cup 4 into a thin film and, due to the taper, is fed to the edge of the spray cup 4, flowing evenly with a certain dispersion, where it is picked up by a stream of primary air entering the gap between the spray cup 4 and the regulating outlet pipe 8 (the primary air stream is blown by the impeller blades 6 of the primary air supply fan, and twisted due to the impact of the guides 26). Air is sucked into by the impeller 6 of the primary air supply fan through the primary air supply channel 27 through the control gate 30. Intensive atomization of the fuel occurs, while the resulting finely divided component of the fuel is fed into the flare and combustion zone. The final combustible mixture is formed by mixing the volume of atomized liquid fuel (obtained as a result of the "operation" of the primary air supplied by the fan impeller 6) and the volume of secondary air pumped by the secondary air supply fan 10. Secondary air passing through channel 28 bypassing the control gate 31, the swirl 29 of the air movement and the damper 32, enters the furnace and finally forms the flame of fuel combustion. The quantitative part of the fuel component fed to the combustion for a given capacity of the boiler installation is regulated by a fuel valve located in the fuel supply unit 3 (not shown in the drawing).

The stability and quality of the flame is achieved by the optimal proportions of the fuel supply, the speed of the primary air (creating the torch) and the amount of secondary air, in order to maintain a minimum coefficient of excess air, and by adjusting the gate of the boiler exhaust fan (not shown) set the length and angle of the flame.

The proposed design of the burner provides a stable flame when burning any type of fuel, including highly viscous, while almost complete combustion of heavy high-viscous fuels occurs, which leads to the efficiency of the claimed burner compared to known designs up to 5%. The design is characterized by simplicity, reliability, the absence of wearing parts and components, the repair of the burner is almost reduced to the timely replacement of rolling bearings and seals (purchased products). The possibility of installing interchangeable glasses and nozzles makes this burner universal, it can be used in technological and heating boilers, as well as in grain drying units, in the preparation of asphalt mixtures, in brick firing, etc.

Claims (5)

1. A rotary burner for liquid fuel, comprising a housing in the cavity of which a hollow shaft is mounted for rotation from the drive, one end of which is connected to the fuel supply unit, and a spray cup is mounted coaxially to the shaft, into the volume of which the output end of the hollow shaft is open, equipped with a spray nut, and the impeller of the primary air supply fan, rigidly fixed to the hollow shaft in the cavity of the casing, the exhaust pipe of which coaxially covers the spray cup, and the back side The second one is equipped with an air supply channel, the burner is equipped with a secondary air supply means, characterized in that the hollow shaft is rotatable with a frequency of 7500-8000 rpm, while the hollow shaft is mounted in bearings placed in an oil bath installed in the housing cavity coaxial to the hollow shaft, the surface of the primary air supply 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 provided with a protrusion with a cylindrical recess in the end, made with the possibility of tight fit on the cylindrical protrusion of the impeller of the primary air supply, while the back side of the spray nut is provided 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 made a through hole with the possibility of communication of the cavity of the annular grooves and the cavity of the casing of the impeller of the primary air supply fan, in addition, bemsya nut sparger in between the spray holes are preferably equidistant from each other through the air guide hole, 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. 2. The rotary burner according to claim 1, characterized in that the spray cup is mounted for reciprocating movement along the hub of the fan impeller and secured with a spray nut by means of a threaded connection with the possibility of replacing the spray cup of one length and / or taper with a spray cup of a different length and / or taper. 3. The rotary burner according to claim 1, characterized in that on the inner surface of the casing of the impeller of the primary air supply fan from the side of the exhaust pipe, straightening guides of the primary air flow are made. 4. The rotary burner according to claim 1, characterized in that the primary air flow guides are radially curved in the direction opposite to the direction of rotation of the fan impeller. 5. The rotary burner according to claim 1, characterized in that the secondary air supply channel is provided with an air damper and is configured to supply flue gases to it.