RU2203449C1 - Rotary burner for liquid fuel - Google Patents

Abstract

FIELD: thermal engineering. SUBSTANCE: burner designed to completely burn liquid fuel of any kind has L-shaped base member with its horizontal part mounting electric motor whose shaft is provided with coaxial through drilling passing fuel- feed pipe. Outlet end of shaft mounts high-pressure fan impeller and spray cup enclosed by coaxial nozzle mounted on fan shroud. Supporting plate is hinged to base member and secured on furnace with aid of mounting pins. EFFECT: enhanced completeness of fuel combustion and flame stability. 10 cl, 4 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 the furnaces of medium and low power boilers, and can be used in various industries where fuel-burning devices are used.

State of the art
Known rotary nozzle (see ed. Certificate. 781496, publ. 23.11.80), designed for spraying and burning liquid, mostly viscous, fuel, containing a housing with an air inlet pipe and a rotor with a fuel pipe and a spray, coaxially to which a fan is installed on the hollow shaft 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.

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

 As a prototype of the proposed solution, a constructive solution was adopted for a rotary burner for liquid fuel (see patent RU 2083921, publ. 07/10/97), comprising a housing, an engine that rotates coaxially mounted sprinkler and the impeller of the fan, closed from the back with a housing wall, and on the working side - a fan casing on which the nozzle is fixed. The sprayer of the known burner is made in the form of a hollow sleeve with a spray conical cup at the end part. A fuel supply tube is coaxially installed inside the hollow sleeve, one end of which, open into the spray cone cup, is made with a nozzle, and the second is connected to the liquid fuel supply system. The housing is connected with a base plate made with an opening through which coaxial spray cup and nozzle are passed.

 Compared with the previous analogue, the design solution of the prototype provides fine atomization of fuel, which allows to increase the completeness of its combustion and, therefore, improve the economic performance of the device. At the same time, the design of the air supply system is complicated in the known burner, the burner has very significant dimensions due to the design of the drive, and a large number of wearing parts are used in the design, which leads to insufficient reliability and durability of the device.

SUMMARY OF THE INVENTION
The claimed invention solves the problem of creating a rotary burner, characterized by simplicity of design and compactness, allowing the burner to be used as a portable device and significantly expanding its functionality and at the same time providing fine atomization of fuel.

 To solve this problem, in a rotary burner for liquid fuel, containing an engine mounted on the housing element, with a shaft connected to which a coaxially mounted spray cup is connected, into the volume of which the output end of the fuel supply pipe is connected, connected by the input end to the liquid fuel supply system, and the supply fan of the supply fan primary air, closed on the back with a housing wall, and on the working side with a fan casing, on which a nozzle is installed coaxially to the spray cup, blown through the hole of the base plate associated with the housing element, according to the claimed invention, the housing element is made L-shaped with the possibility of installation on its horizontal part of the engine, the shaft of which is made with a through coaxial groove through which the fuel supply tube is passed, and with the output end which the fan impeller and the spray cup are rigidly mounted, while the case wall is rigidly attached to the vertical part of the housing element, which covers the back side the impeller of the fan, and one side of the base plate is pivotally attached, the opposite side of which is made with an element of its fixation relative to the housing element.

 The problem is solved by the above set of essential features, since the design and the relationship of the above elements of the rotary burner provides a very compact placement of its main components and parts, which allows to obtain small dimensions of the device, and thanks to just such a layout and design of the elements, efficient atomization of the fuel with the formation of fine dispersion is achieved , and the ability to control the proportions of the fuel and air supply (as secondary, supplied between about fan casing and the base plate, and a tertiary supplied between the baseplate and the wall of the boiler) provides a stable and high-quality flame retardant is almost complete combustion of the fuel.

 The main essential feature of the claimed invention, which, in conjunction with the other foregoing features of the device, is the achievement of the above technical result, is the implementation of the motor shaft with a through coaxial groove and the installation of a fuel supply tube in this groove. This solution made it possible to install the fan impeller and the spray cup directly on the motor shaft and, firstly, significantly reduce the dimensions of the device, and secondly, to ensure the optimal aerodynamic regime for the process of dispersing the fuel and creating a fully combustible combustible mixture.

 The implementation of the L-shaped housing element is also an essential feature of the claimed invention, since it allowed rational arrangement of all burner components and at the same time ensure the supply of primary air to the fuel spray zone, and secondary and tertiary air to the flame combustion zone. At the same time, it was possible to use the hinged installation of the base plate, which, along with obtaining the main technical result, led to an improvement in the operating and maintenance conditions of the burner, namely: if there is no need to dismantle the burner, it is enough to disconnect the base plate on one side and by turning the burner on the hinges to carry out appropriate work.

 In a particular embodiment of the inventive burner, the spray cup is mounted on the hub of the fan impeller and is connected to it by means of a threaded connection with the possibility of replacing the spray cup. This makes it possible to use, depending on the type and quality of fuel, a spray cup of such length and taper that will determine the most complete burning of fuel and the economical operation of the burner.

 For the same purpose, to ensure the maximum degree of dispersion of fuel particles and, consequently, increase burner efficiency, the nozzle is mounted on the fan casing by means of a threaded connection and with the possibility of adjusting movement relative to the axis of rotation of the fan, i.e. the nozzle has the ability to fix a fixed position along the axis of the motor shaft. However, this allows you to set it in a position that provides for a specific type of fuel and a specific combustion chamber the optimal angle and the optimal length of the flame. In addition, the claimed solution implies the possibility of completing and replacing a nozzle of the same length and taper with a nozzle of other specified sizes, which, together with the possibility of selecting and installing a spray cup also with a certain length and taper, makes it possible to vary fuel consumption and select the optimal burner operating conditions, depending on e.g. seasonality (outdoor temperature).

 For unobstructed supply of primary air, a casing wall attached to the vertical part of the casing element and covering the fan impeller on the rear side is made with a window in the area of the motor shaft, which opens the zone of the impeller into the atmosphere, while flow guides are placed on the inner surface of the fan casing primary air, which in order to provide the necessary direction and in order to obtain a certain degree of compaction of the air flow are made radial but curved in a direction opposite the rotational direction of the fan impeller.

 For a specific implementation of the proposed solution, it is advisable to perform longitudinal protrusions on the inner surface of the nozzle and at an angle to its cylindrical generatrix, which prevent further swirling of the primary air flow and provide an optimal aerodynamic regime for spraying a film of fuel flowing from the edge of the spray cup and to create the necessary shape of the torch flame.

 Preferred is the implementation of the housing element of the frame structure. On the one hand, this ensures the economical use of material for the casing element, on the other hand, the frame structure, which leaves the engine open, helps to cool the engine and blow it with air currents.

 A possible embodiment of the fixing element of the base plate relative to the housing element is its implementation in the form of a rod, one end of which is rigidly attached to the base plate, and the other is made with the possibility of bolt connection with the housing wall, which covers the fan casing from the back side.

 To install the burner in the working position with respect to the furnace, the base plate is made with holes for installation on mounting elements made in the form of pins attached to the combustion chamber, and it is possible to adjust the position of the burner relative to the furnace, i.e. it can be approached or can be moved away from the furnace, which allows you to adjust the flow of tertiary air.

 A window in the case wall that opens the area of the impeller into the atmosphere forms a primary air supply channel; the base plate, by means of which the burner is fixed to the boiler, pivotally mounted on the vertical part of the housing element, in working condition forms a secondary air supply channel with the fan casing, and when installed on mounting elements in the form of pins, forms a tertiary air supply channel with the boiler wall.

The invention is illustrated by drawings, in which:
figure 1 presents a General view of the burner, a longitudinal section;
figure 2 is a section aa in figure 1;
figure 3 is a view of B in figure 1;
figure 4 - nozzle, a longitudinal section.

Information confirming the possibility of carrying out the invention
A rotary burner for liquid fuel comprises a housing element 1 made in the form of an L-shaped frame structure made of metal corners. An electric motor 2 is installed on the horizontal part of the housing element 1, which rotates the impeller 3 of the fan and the spray cup 4. The shaft 5 of the electric motor 2 is hollow with a through coaxial groove through which the fuel supply pipe 6 for supplying liquid fuel is freely passed. One end of the fuel supply tube 6 is connected to the liquid fuel supply system 7 (the entire liquid fuel supply system is not shown in the drawing), and the other end is installed with the possibility of supplying fuel to the conical surface of the spray cup 4, which is made in the form of a sleeve with a conical inner surface expanding in the direction of the open end. The spray cup 4 is threadedly mounted on the hub of the fan impeller 3, installed by keyway at the output end of the hollow shaft 5 of the electric motor 2. The impeller 3 of the fan is closed from the working side by a casing 8, and with the back by a case wall 9 welded to the vertical part of the frame designs 1. A nozzle 10 is installed on the fan casing 8, coaxially covering the spray cup 4 and made with longitudinal protrusions 11 placed at a certain angle to the generatrix the morning surface of the nozzle facing the cup 4. Due to the thread through which the nozzle is mounted on the casing 8, it has the possibility of a fixed change in position relative to the spray cup 4, as well as the possibility of replacing one nozzle with another. The casing wall 9 is made with an opening 12 that provides primary air to the fan impeller 3, the blades of which are bent in the direction of rotation, while on the inner surface of the casing 8 facing the impeller 3 of the fan, the primary air flow guides 13 are made, made radially curved in the direction opposite to the direction of rotation of the impeller 3. The burner is mounted on the furnace 14 by means of a base plate 15, which is pivotally connected to the vertical part of the casing by one side frame 1 and is equipped with an element for fixing it on the other side with respect to the burner body, which is made in the form of a bolt fixing the base plate with the body wall 9. Holes 16 are made in the base plate 15, the installation of the burner relative to the furnace is carried out by mounting the support plate 15 through holes 16 on the pins 17 and fixing it on the pins with nuts (not shown).

 The installation of the base plate in relation to the housing element is pivotally, and with respect to the furnace on the pins and with the possibility of moving the base plate along the length of the pins, there is free space between the fan casing and the base plate and between the base plate and the fire wall of the furnace, which are the secondary and tertiary feed channels air.

 The device operates as follows.

Liquid fuel, heated to a temperature of 80-90 ^o C, under an overpressure of 0.5-1.0 kgf / cm ² is fed through a fuel supply pipe 6 to the inner surface of the conical spray cup 4, mounted together with the impeller 3 of the high-pressure fan at the outlet the end of the hollow shaft 5 of the electric motor 2. When the shaft 5 is rotated, and therefore the spray cup 4 and the fan impeller 3 rotate under the action of centrifugal force, the fuel spreads uniformly along the wall of the spray cup 4 into a thin film and Due to the taper, it is fed to the edge of the glass, flowing off from which in uniform portions, the fuel is picked up by a stream of air entering the gap between the glass 4 and the nozzle 10 and blown by the blades of the impeller 3 of the high pressure fan, while the flow of forced air is sealed due to the action of the guides 13 made on the inner surface of the casing 8. There is an intensive dispersion of fuel, while the resulting dispersion of fuel is fed into the zone of formation of the combustible mixture and the combustion zone. The combustible mixture is formed by mixing liquid fuel sprayed with primary air supplied by the impeller 3 of the high-pressure fan and secondary air coming from the atmosphere due to the free space between the base plate 15 and the casing 8 using natural draft. The stability and quality of the flame is achieved by the optimal proportions of the fuel supply, secondary air (between the fan casing and the base plate), tertiary air (between the base plate and the boiler wall) and the adjustment of the boiler exhaust fan gate (not shown in the drawing). However, changing the position of the nozzle 10 with respect to the spray cup, as well as supplying fuel, it is possible to adjust the length and angle of the flame.

 The above design provides a stable flame when burning any type of liquid fuel: fuel oil, crude oil, diesel fuel, kerosene, while almost complete combustion of the fuel occurs, which makes the claimed burner economical compared to known designs up to 32%. 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 of the electric motor. The possibility of installing interchangeable glasses and nozzles makes this burner universal, it can be used not only in heating boilers, but also as part of grain drying units, when preparing asphalt mixtures, when firing bricks, etc.

Claims (10)

 1. A rotary burner for liquid fuel, comprising an engine mounted on the housing element, with a shaft connected to which a coaxially mounted spray nozzle is connected, into the volume of which the output end of the fuel supply pipe connected by the input end to the liquid fuel supply system and the impeller of the primary air supply fan are open, closed on the back with a housing wall, and on the working side with a fan casing, on which a nozzle is passed through a hole about a pore plate associated with the housing element, characterized in that the housing element is L-shaped with the possibility of installation on its horizontal part of the engine, the shaft of which is made with a through coaxial groove through which the fuel supply tube is passed, and with an output end on which it is rigid a fan impeller and a spray cup are installed, while a cabinet wall is rigidly attached to the vertical part of the housing element, covering the fan impeller from the back, and articulated and connected one side of the base plate, the opposite side of which is made with an element of its fixation relative to the housing element.  2. The burner according to claim 1, characterized in that the spray cup is mounted on the hub of the fan impeller and connected to it 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 burner according to claim 1 or 2, characterized in that the nozzle is mounted on the fan casing by means of a threaded connection and with the possibility of adjusting movement longitudinally along the axis of the motor shaft.  4. The burner according to claim 1, or 2, or 3, characterized in that the air supply channel to the impeller of the fan is made in the form of a window in the housing wall in the area of the motor shaft.  5. A burner according to any one of claims 1 to 4, characterized in that on the inner surface of the fan casing the primary air flow guides are made.  6. The burner according to claim 5, characterized in that the primary air flow guides are made radially curved in the direction opposite to the direction of rotation of the fan impeller.  7. The burner according to any one of claims 1 to 6, characterized in that longitudinal protrusions are made on the inner surface of the nozzle at an angle to the generatrix.  8. The burner according to any one of claims 1 to 7, characterized in that the housing element is made of a frame structure.  9. The burner according to any one of claims 1 to 8, characterized in that the fixing element of the base plate relative to the housing element is made in the form of a rod, one end of which is rigidly attached to the base plate, and the other is made with the possibility of bolt connection to the housing wall.  10. A burner according to any one of claims 1 to 9, characterized in that the base plate is made with holes for installation on mounting elements made in the form of pins attached to the combustion chamber.

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