KR0146942B1 - Rotary heater burner - Google Patents

Abstract

The rotary heater flow burner structure according to the present invention supports the preheating heater 12 therebetween through a sheath burner 23 installed in the external burner body 10 and simultaneously generates heat generated from the preheating heater 12. The heat recovery member 13 and the heat recovery member 13 to recover the inside to absorb the heat in the burner at the same time while maintaining a constant interval with the inner circumference of the outer burner body 10 of the secondary combustion air A water pipe support member 9 forming a passage, and a water pipe 8 supported by an outer circumference of the water pipe support member 9 to receive heat from the water pipe support member 9 and to eject water vapor radially; Therefore, oxidation of the burner due to the heat of combustion can be prevented, and the microcomputer can be prevented from malfunctioning due to the decrease of the current value caused by the oxide film of the frame rod, and also by mixing with flame and water vapor. There is an effect that can increase the efficiency.

Description

Rotary Burner Structure of Rotary Heater

1 is a cross-sectional view showing a conventional burner structure.

2 is a cross-sectional view showing an oil burner structure of the present invention.

3 is an exploded perspective view showing the main parts of the oil burner structure of the present invention of FIG.

* Explanation of symbols for main parts of the drawings

8: water pipe 8a: water vapor ejection hole

8b: bend portion 9: water pipe support member

9a: groove 9b: stone tongue

9c: screw hole 9d: reinforcement

10: Obu burner body 12: Preheating heater

13: heat recovery member 23: sheath burner

The present invention relates to a flow burner structure of a rotary heater, and in particular, the water supplied by the water pipe is evaporated by the heat inside the burner to induce vaporization, thereby extending the life of the frame rod and at the same time prevent oxidation of the burner. In addition, it is related to the rotary burner structure of the rotary heater which can increase the heating effect.

In the conventional burner structure, as shown in FIG. 1, a first flange portion 40a is bent outwardly on the upper side of the outer burner body 40, and a plurality of screw holes are formed in the first flange portion 40a. 40b) is formed, and the thermistor 41 is installed in the horizontal direction so as to be in close contact with the side surface of the preheating heater 42 which acts as a heat source through the side surface, so as to detect the vaporization temperature and the constant temperature in the burner. In order to compensate, the preheat heater 42 is installed in accordance with a signal of a microcomputer (not shown), and the lower side circumference is formed by the second flange portion 40c bent inward so that the guide hole 40d is formed. It is formed, and the combustion air is introduced.

In addition, a heat recovery member 43 is formed on the upper surface of the first flange portion 40a of the outer burner body 40 by bending a thick iron plate by press working. That is, the heat recovery member 43 is formed so that the flange portion 43a is bent outward on the upper side so that a plurality of screw holes 43b are drilled in the flange portion 43a, so that the outer burner body 40 The first plan of the flange portion 43a of the heat recovery member 43 and the outer burner body 40 is provided to coincide with the plurality of screw holes 40b drilled on the first flange portion 40a. The flange portion 43a extending inwardly with respect to the portion in contact with the branch portion 40a has a plurality of discharge holes so as to discharge secondary combustion air that is induced to rise through the guide hole 40d of the outer burner body 40. 43c) is drilled, and a plurality of screw holes (not shown) are drilled in the stepped portion 43d, which is formed to be bent downward from the flange portion 43a so that the burner head member to be described later is placed. The heater supporting portion 43f is perpendicular to the lower side of the portion 43d. Track is formed, while wrapped around the outer periphery of the preheater 42 is to support the preheater 42 to a predetermined height.

The cover burner body 44 is placed on the upper surface of the flange portion 43a of the heat recovery member 43. That is, the cover burner body 44 has support holes (not shown) to support the igniter 45 and the frame rod 46, respectively, and the outer burner body 40 and the heat recovery member 43 are formed therein. A flange portion 44a in which a plurality of screw holes 44b are drilled to coincide with a plurality of screw holes 40b and 43b respectively drilled in the above and to be fastened and assembled by the fastening screw 47. Is formed, and the inclined portion 44c narrowed from the lower direction to the upper direction is bent at the inner side of the flange portion 44a. At this time, the bent portion (44c) is formed to be separated from the flange portion of the base spout (base spout) to be described later at a predetermined interval so that a plurality of holes drilled in the step portion 43d of the heat recovery member 43 at the interval The blowing pressure is increased while guiding the secondary combustion air discharged through the discharge hole 43c.

On the other hand, a base spout 48 is placed on the upper surface of the step portion 43d of the heat recovery member 43. That is, the base saout 48 has a thickness substantially similar to the thickness of the heat recovery member 43, and the flange portion 48a is vertically upwardly at the edge so as to secondary the primary gas by receiving combustion work. Is bent, and a plurality of screw holes drilled in the stepped portion 43d of the heat recovery member 43 are provided in the horizontal portion (not shown) which is horizontally inward with respect to the lower side of the flange portion 48a. It is to be fastened and assembled as a fastening bolt 47a by drilling a screw hole (unmarked), which coincides with (not shown), and also upwards toward the inner upper side with respect to the horizontal part where the screw hole is drilled. A recess (not shown) is formed in the portion where the through hole (not shown) is formed by forming, and the base spout 48 is formed in the through hole drilled in the recess. A guide spout (51) for guiding the combustion heat at the same time by receiving the emitter and zoom to the first chagihwa chagihwa 2 gas to the rectifying action and resistance to the flow of gas is sandwiched and fixed by means of a defect for the lighting.

At this time, the guide spout 51 is formed in a cylindrical shape and a plurality of discharge holes 51a are formed on the upper surface thereof to resist and rectify the flow of the secondary gas.

In addition, a net spout 52 having a discharge hole (not shown) is formed at a side circumference to rectify and mix the fully vaporized gas on the upper surface of the base spout 48, and the guide spout 51. It is inserted into the recess (not shown) of the base spout 48, and also in the upper portion of the horizontal portion (not shown) of the base spout 48 (not shown) As the mixed gas discharged through the igniter is ignited by the discharge of the igniter 45, a burner head member 50 having a plurality of flame holes 50a formed therein is fastened and assembled while pressing the net pout 52 to form a flame. A two-ply metal mesh 49 is fixedly attached to the inner circumference of the burner head member 50.

A sheath burner 53 is provided inside the heater support 43f of the heat recovery member 43 via the preheat heater 42. That is, the sheath burner 53 is formed with an induction hole (not shown) in the center of the flange portion bent inward to the lower side to induce the rising combustion air, the bottom surface of the flange portion the sheath burner The heater cover member 54 is fastened and assembled to surround the lower outer side of the 53 and the heat recovery member 43 to cover the periphery of the preheat heater 42 to maintain the ambient temperature, for example, the normal vaporization condition temperature.

In addition, a motor 57 is provided on the flange portion 54a of the heater cover member 54 by first and second motor supports 55 and 56, and a motor (top) of the motor 57 is provided. The motor shaft 57a rotated according to the driving force of the 57 is formed through the induction hole (not shown) of the heater cover member 54 and the induction hole (not shown) of the sheath burner 53. Spray plate 58 to allow the tip portion to be inserted into the mixing space chamber formed by the base spout 48 and the heat recovery member 43, and to form a fine gap therebetween at the tip portion of the motor shaft 57a. And cover plate 59 are provided.

In addition, a blower body 60 is provided below the outer burner body 40. That is, the blower body 60 has a flange portion 60a formed inwardly with respect to the upper side thereof, and the flange portion 60a is mutually connected to the second flange portion 40c formed under the outer burner body 40. Abuts and is fixed.

At this time, the nozzle pipe 61 is provided as a through hole (not shown) which is bent on the circumferential surface of the blower body 60. That is, one end of the nozzle pipe 61 is exposed to the outside through the through hole of the blower body 60, and one end thereof is connected to the electronic pump 68 installed in the fuel tank 66. It is connected to the nozzle 61a inserted into the spray plate 58 through each of the guide holes (not shown) which are drilled in the heater cover member 54 and the bottom of the sheath burner 53. .

Reference numeral 62 denotes an air blowing fan for combustion, 63 an air filter, 64 a blower case, 65 a leg member, and 67 a blower motor.

The conventional burner structure configured as described above turns on the main switch (not shown) so that the preheat heater 42, which is interposed between the heat recovery member 43 and the sheath burner 53, has a time of about a few seconds. And preheating the sheath burner 53 to maintain the normal vaporization condition temperature, the thermistor 41 detects the normal vaporization condition temperature to operate the electronic pump 68 and the blower motor 67 according to a signal of a microcomputer (not shown). It is activated.

At this time, when the liquid fuel pumped by the electromagnetic pump 68 is injected from the nozzle 61a installed in the spray plate 58 through the nozzle pipe 61 along the path indicated by the white arrow, the liquid fuel is a motor ( By the rotation of the spray plate 58 and the cover plate 59 interlocked by the rotational force of the 57 is raised upward along the inclined surface of the inner surface of the spray plate 58 and the spray plate 58 and the cover plate 59 and The atomized liquid fuel is ejected through a minute gap formed between the vaporized liquid fuel and vaporized in contact with the preheating heater 42 provided on the outer circumferential surface of the sheath burner 53.

In addition, when the air for combustion is supplied to the mixed space along the path indicated by the black arrow in conjunction with the drive of the blower motor 67, the air for combustion is preheated heater 42 provided on the outer circumferential surface of the sheath burner 53. It is heated in contact with, and mixed with vaporized liquid fuel to form gas mixture.

In addition, the mixed gas is burner head through the discharge hole 51a of the guide spout 51 fixedly coupled to the base spout 48 by the combustion air supply pressure and the rotation of the spray plate 58 and the cover plate 59. While being radially dispersed by a rounding part (not shown) formed to be concave to perform the venturi action while being raised to the center of the upper surface of the member 50, it is discharged to the outside through a plurality of salt holes 50a at high speed, and thus the igniter ( 46 is initially ignited by the spark discharge to form a flame, and the flame is formed between the guide hole 40d of the outer burner body 40 and the flange portion 54a of the heater cover member 54. The flange portion 48a of the inclined portion 44c of the cover burner body 44 and the base spout 48 through the plurality of discharge holes 43c which are raised through the plurality of discharge holes 43c of the heat recovery member 43 while being raised through the stepped portion 43d. With the gap formed between As Ex 2 chayeon second combustion air by the use of the incomplete combustion state it is anger is completely burned and the heat of combustion to form a high-temperature without a harmful gas, the heat of combustion is such that rising and whole heat (not shown).

However, in the burner structure of the conventional rotary peter, when the combustion is performed by using a mixed gas using only combustion air and oil liquid (petroleum), the external burner body 40 is corroded or the frame rod is corroded by the combustion heat. (46) is easily oxidized by the heat conduction caused by the heat of combustion, and lowers the insulation resistance, and in the durability test, the current value is decreased by the oxide film, which causes the malfunction of the microcomputer (not shown), and also the burner by the flame. There was a problem that the inclined portion 44c of the body 44 was easily deteriorated to shorten the life of the material.

Accordingly, the present invention has been made to solve the above problems, and an object of the present invention is that water supplied to a water pipe is vaporized by the heat of combustion so that the vaporized steam is combusted with a mixed gas formed in the burner. It prevents oxidation of external burner body and frame rod by the heat of combustion and at the same time, it reduces current value by oxide film during durability test and prevents malfunction of the microcomputer and also deteriorates the cover burner body by flame. It is to provide a flow burner structure of rotary heater which can prevent the shortened life.

In order to achieve the above object, the flow burner structure of the rotary heater according to the present invention supports heat preheating heaters through the sheath burner installed in the external burner body and recovers heat generated from the preheating heater. A water pipe support member for accommodating the member and the heat recovery member inside to absorb heat in the burner and maintaining a constant distance from the inner circumference of the outer burner body to form a passage for the secondary combustion air; and the water pipe support member It is supported by the outer circumference of the water pipe, characterized in that consisting of a water pipe for receiving the heat of the water to eject the radially steam.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is a cross-sectional view showing the oil and gas burner structure of the present invention, and FIG.

2 and 3, the reference numeral 10 is an outer burner body having a generally cylindrical shape, and the first flange portion 10a is bent outwardly on the upper side of the outer burner body 10. A plurality of screw holes 10b are formed in the first flange portion 10a, and a horizontal direction is provided in the side circumference such that the thermite sheet 11 is in close contact with the side surface of the preheating heater 12 that acts as a heat source. Installed in the burner, and configured to control the preheating heater 12 according to a signal of the microcomputer (not shown) to compensate for the vaporization temperature and the constant temperature in the burner, and the lower side circumference is formed to be bent inwardly. The guide hole 10d is formed by the flange portion 10c, and the combustion air flows in.

In addition, the upper surface of the second flange portion (10c) bent to the inner bottom of the outer burner body 10 receives the heat of the preheating heater to be described later to heat the water pipe (8) accommodated in the outer middle circumference as the water pipe ( 8) The water pipe support member 9 is mounted on the inner circumferential surface of the outer burner body 10 at regular intervals so as to eject water vapor from the water vapor, and is assembled.

That is, the water pipe 8 is formed in a circular ring shape, a plurality of water vapor ejection holes 8a are drilled at regular intervals on the outer circumference thereof, and one end of the circular ring shape extends in a horizontal direction. By forming the bent portion 8b in the vertical direction, the end of the bent portion 8b is connected to a water suction pump (not shown) and connected to a water tank installed on one side of the connection tank (not shown) via the water suction pump. It is installed.

In addition, the water pipe support member (9) is formed in a cylindrical shape, the reinforcement portion formed with a groove (9a) toward the upper side to allow the water pipe (8) to be seated at a moderate height with respect to the outer peripheral surface of the cylindrical shape 9b is integrally formed, and the reinforcement part 9b in which the screw hole 9c was formed partially is integrally formed in the lower part of this protrusion part 9b.

On the other hand, the cover burner body 14 is placed on the upper surface of the first flange portion (10a) of the outer burner body (10). That is, the cover burner body 14 is provided with a support hole (not shown) to support the igniter 15 and the frame rod 16, respectively, and a plurality of holes drilled in the outer burner body 10 therein. A flange portion 14a is formed in which a plurality of screw holes 14b are drilled so as to coincide with the two screw holes 10b and to be fastened and assembled by the fastening screw 17. An inclined portion 14c is bent at a portion that is narrowed upward from the flange portion 14a with respect to the inside of 14a. At this time, the bent inclined portion 14c is spaced apart from the outer peripheral surface with respect to the upper end of the above-described water pipe support member 9 at regular intervals so that the water pipe support member 9 and the outer burner body 10 It is designed to guide the secondary combustion air sucked into the gap between the valve and to increase the ejection pressure.

In addition, a heat recovery member 13 capable of bending the iron plate by press working is inserted into the thickness of the water pipe support member 9 from the middle of the inner circumferential surface of the water pipe support member 9 to the same thickness as the thickness of the water pipe support member 9. That is, the heat recovery member 13 is formed by bending the flange portion 13a outward on the upper side thereof, and a plurality of screw holes 13b are drilled in the flange portion 13a so that the burner head member described later is placed. The heater support part 13c is bent so that it may be perpendicular to the lower side with respect to the inner side of the flange part 13a, and the preheat heater 12 is enclosed in the inner circumference of the heater support part 13c while wrapping the preheat heater 12 at a predetermined height. It is supported.

A sheath burner 23 is installed inside the heater support part 13c of the heat recovery member 13 via the preheat heater 12. That is, an induction hole 23b is formed in the center of the flange portion 23a bent inwardly in the sheath burner 23 so as to induce combustion air to be raised to the induction hole 23b. The flange portion 23a is in close contact with the second flange portion 10c of the outer burner body 10 and is assembled.

The base spout 18 is placed on the upper surface of the flange portion 13a of the heat recovery member 13. That is, the base spout 18 has a screw hole 18b corresponding to the plurality of screw holes 13b formed in the heat recovery member 13 in the flange portion 18a, and is fastened by the fastening bolt 17a. The concave portion 18c, which is to be assembled and is raised upward toward the inner upper side with respect to the flange portion 18a on which the screw hole 18b is drilled, is formed with a through hole (not shown) in the center thereof. It is formed by processing.

At this time, the through hole (not shown) bored in the concave portion 18c receives combustion heat from the base spout 18 to secondaryize the primary gas, and at the same time resists and rectifies the gas flow. Guide spouts 21 for guiding the operation are fitted and fixedly coupled by means such as welding. That is, the guide spout 21 is formed in a cylindrical shape, and a plurality of discharge holes 21a are formed on the upper surface thereof to resist and rectify the flow of secondary gas.

In addition, a net spout (22) having a discharge hole (22a) formed at a side circumference to finely rectify and mix the vaporized and heated mixed gas on the upper surface of the base spout (18) is the guide spout (21). ) Is mounted on the recessed portion 18d of the base spout 18.

In addition, the upper portion of the flange portion 18a of the base spout 18 has a flame as the mixed gas discharged through the discharge hole 22a of the net spout 22 is initially ignited by spark discharge of the igniter 15. A burner head member 20 having a plurality of flame holes 20a formed therein is fastened and assembled while pressing the netpout 12. A double layer of metal mesh 19 is provided on the inner circumference of the burner head member 20. ) Is fixed.

On the other hand, the bottom of the second flange portion 10c of the external burner body 10 is provided with a motor 27 via first and second motor supports 25 and 26, and the motor 27 A motor shaft 27a that is rotated according to the driving force of the motor 27 is installed at an upper portion of the motor shaft 27a through the induction hole 23b of the sheath burner 53 and the base. A spray plate 28 and a cover plate which allow the tip portion to be inserted into the mixed space formed by the spout 18 and the heat recovery member 13 to form a fine gap therebetween at the tip of the motor shaft 27a. 29 is provided.

In addition, a blower body 30 is installed below the outer burner body 10. That is, the blower body 30 has a flange portion 30a formed inward with respect to an upper side thereof so that the flange portion 30a is mutually matched with the second flange portion 10c formed under the outer burner body 10. It is fixed and touched.

At this time, the nozzle pipe 31 is provided as a passage hole (not shown) which is drilled in the circumferential surface of the blower body 30. That is, one end of the nozzle pipe 31 is exposed to the outside through the through hole of the blower body 30 so that one end is connected to the electron pump (not shown) installed in the fuel tank (not shown), and the other end thereof. It is connected to the nozzle 31a inserted into the spray dish 28 through the induction hole 23b which is opened in the lower part of the sheath burner 23.

Next, the operational effects of the present invention configured as described above will be described.

As shown in FIG. 2 and FIG. 3, the main switch (not shown) is turned on so that the preheat heater 12, which is interposed between the heat recovery member 13 and the sheath burner 23, has a time of several seconds. When the heat recovery member 13 and the sheath burner 23 are preheated to maintain the normal vaporization condition temperature, the thermistor 11 detects the normal vaporization condition temperature and according to the signal of the microcomputer (not shown), the electronic pump and the air blower are not shown. The suction pump for pumping the motor and water is operated.

At this time, when the liquid fuel pumped by the electromagnetic pump is injected from the nozzle 31a installed in the spray plate 28 through the nozzle pipe 31 along the path indicated by the white arrow, the liquid fuel is discharged from the motor 27. By the rotation of the spray plate 28 and the cover plate 29 interlocked by the rotational force, the spray plate 28 is raised upward along the inclined surface of the inner wall of the spray plate 28 and at the same time between the spray plate 28 and the cover plate 29. The atomized liquid fuel is jetted through the minute gap formed, and vaporized by contacting the preheating heater 12 provided on the outer circumferential surface of the sheath burner 23.

In addition, when the combustion air is supplied to the mixed space along the path indicated by the black arrow in conjunction with the driving of the blower motor, the combustion air contacts the preheating heater 12 provided on the outer circumferential surface of the sheath burner 23. At the same time as it is heated, it is mixed with the vaporized liquid fuel and mixed gasification.

In addition, the mixed gas is burner through the discharge hole 21a of the guide spout 21 fixedly coupled to the base spout 18 by the combustion air supply pressure and the rotation of the spray plate 28 and the cover plate 29. As it is raised to the center of the upper surface of the head member 20 is radially distributed by a concave rounding part (not shown) formed to concave venturi, and is discharged to the outside through a plurality of salt holes 20a at high speed, the igniter (16) is initially ignited by the spark discharge to form a flame, and the flame is formed between the outer burner body 10 and the water pipe support member 9 through the guide hole 10d of the outer burner body 10. As a result of being burned up through the gap formed at the same time and being incompletely burned by the secondary combustion air discharged into the gap formed between the inclined portion 44c of the cover burner body 44 and the upper end of the water pipe support member 9, State kite Combustion is complete and the heat of combustion to form a high temperature without a harmful gas, a combustion heat is to be raised trough (not shown) radiation.

On the other hand, when the mixed gas is formed through the above process, it is supported on the outer circumference of the water pipe support member 9 by a suction pump (not shown) for pumping water from a water storage tank installed on one side with respect to a fuel tank (not shown). When water is supplied into the water pipe 8, the water pipe 8 is heated by the direct heat of the heat recovery member 13 supporting the preheat heater 12 and the radiant heat around the burner by the combustion heat. As the water pipe 8 is heated by receiving heat and the internal pressure is increased, the water supplied to the water pipe 8 is converted into vaporization phenomenon by instantaneous evaporation, and at the same time, a plurality of water pipes formed on the outer circumference of the water pipe 8 are formed. The vaporization of the vaporization phenomenon converted through the water vapor ejection hole 8b is radially ejected through the external burner body 10, and the ejected water vapor is provided on the inner circumference of the outer burner body 10 by the supplied secondary combustion air pressure. Along the rise Flame hole 20a of the burner head member 20 is guided by the flange portion 14a and the inclined portion 14c of the cover burner body 14 mounted on the first flange portion 10a of the outer burner body 10. It is supplied to the flame formed in) to help the combustion to increase the thermal efficiency.

That is, the water pipe 8 which is instantaneously heated by the heat of the water pipe support member 9 converts the water supplied therein into water vapor by vaporization by evaporation, and the water vapor is formed on the outer circumference of the water pipe 8. The external burner body 10, the cover burner body 14, and the frame due to combustion heat are formed to act to radially eject toward the inner circumferential surface of the outer burner body 10 through the formed water vapor ejection hole 8a. The oxidation phenomenon of the rod 16 can be prevented in advance, and at the same time, the current value is reduced by the oxide film of the frame rod 16, thereby preventing the malfunction of the microcomputer installed in the assay main PCB (not shown). The combustion efficiency can be increased by supplying water vapor to help combustion.

As described above, the water flow burner structure of the Rotiheater according to the present invention converts water supplied by the heat of combustion into water vapor into the water vapor and radially vaporizes the water vapor through a plurality of ejection holes formed in the water pipe. It is designed to eject the burner, which prevents the burner from oxidizing due to the heat of combustion, and can be equipped with a malfunction of the microcomputer due to the reduction of the current value caused by the oxide film of the frame rod, and the mixing of flame and water vapor. There is an effect that can increase the combustion efficiency.

Claims (3)

A heat recovery member 13 supporting the preheat heater 12 therebetween through the sheath burner 23 installed in the external burner body 10 and recovering heat generated from the preheat heater 12; The water pipe support member 9 accommodates the heat recovery member 13 to absorb the heat in the burner and maintains a constant distance from the inner circumference of the outer burner body 10 to form a passage for the secondary combustion air. Wow; Water flow burner structure of the rotary heater, characterized in that it is supported by the outer periphery of the water pipe support member (9) consists of a water pipe (8) for receiving the heat of the water pipe support member (9) to radially eject water vapor. 2. The water pipe support member (9) according to claim 1, wherein the water pipe support member (9) is integrally formed with a protrusion (9b) having a groove (9a) formed at an upper side so as to allow the water pipe (8) to be seated at a moderate height with respect to its outer peripheral surface. Water flow burner of the rotary heater, characterized in that the lower portion of the protrusion portion (9b) is partially formed in the reinforcement portion (9d) formed with a screw hole (9c) is fastened and assembled with the outer burner body (10). rescue. 2. The water pipe (8) according to claim 1, wherein the water pipe (8) has a plurality of water vapor ejection holes (8a) bored at regular intervals on its outer circumference, and one end thereof extends in the horizontal direction and is bent in the vertical direction. 8b) the oil burner structure of the rotary heater, characterized in that formed integrally.