KR20030067802A - Tube heater - Google Patents

Abstract

PURPOSE: A tube heater is provided to reduce noise generated in a combustor, and to prevent the temperature of the combustor from rising. CONSTITUTION: A combustor(2) is installed at one side of a body(8). Flame(3) is generated in a combustion chamber(4), and exhaust gas is exhausted through a flue(5) and an exhaust port(6). A heat radiating unit(9) from the combustion chamber to the exhaust port uses the exhausted heat, and performs heating. A silencer(40) is installed in a bent pipe(50) adjacent to the exhaust port.

Description

Tube Heater

The present invention relates to a tube heater to reduce the noise generated inside the combustor or the intermediate heat dissipation part after combustion by the combustor, and to recover the preheat while preventing the rise of the temperature inside the combustor chamber.

Generally, as illustrated in FIG. 1, a conventional tube heater is installed with a combustor 2 inside a combustor chamber 1, and a flame 3 combusted in the combustor 2 is combusted in the combustion chamber 4. Diesel exhaust gas is discharged through the exhaust port (6) through the flue (5), and is configured to be heated by using heat discharged from the combustion chamber (4) and the flue (5) to the outside, to secure a separate space Due to the difficult structural features, various control devices such as a control panel which are electrically operated adjacent to the combustor chamber 1 are installed and operated, and a fuel tank 7 is installed at the bottom. .

However, in the conventional tube heater, the fuel is combusted in the combustor 2, but in this combustion process, noise is generated inside the combustor 2, the combustion chamber 4, the flue 5, and the exhaust port 6 while the fuel is combusted. However, no appropriate noise countermeasures are provided, and the countermeasures against such noises are vulnerable, making it difficult to provide comfortable heating.

In addition, due to structural weaknesses of the flue 5 and the discharge port 6 located above the combustion chamber 1, the internal temperature of the combustion chamber 1 is increased, and thus adversely affects various control devices installed adjacently. As a result, a great problem that shortens the service life and sometimes causes malfunctions is highlighted.

The present invention seeks to solve many of these conventional problems.

It is an object of the present invention to selectively install a muffler with a unique structure inside the flue and to the location of the curvature adjacent to the outlet to reduce the noise generated in the middle of the combustor, the combustion chamber and the flue, It is to provide a tube heater to facilitate the manufacture of the curved pipe to prevent the phenomenon of random distortion.

Another object of the present invention is to provide a preheating mechanism between the flue and the combustor to preheat the outside air that is fed to the combustor for combustion of the fuel by using the heat generated in the flue and the internal heat of the combustor chamber, the internal temperature of the combustor chamber It is possible to improve the combustion rate inside the combustor by supplying the preheated external air while lowering it, and to eliminate the possibility of failure or malfunction of the adjacent controller in advance by lowering and cooling the room temperature inside the combustor chamber. It is to make it possible.

1 is a partially cutaway front view illustrating a representative example of a conventional tube heater;

2 is a partially cutaway front view illustrating a preferred example of the tube heater of the present invention;

Figure 3 is an enlarged view of the main portion showing a silencer used in the present invention,

4 is a partially cutaway front view showing another example of the tube heater of the present invention;

FIG. 5 is a partially cutaway front view of the combustion chamber used in the present invention in FIG. 4, with a focus on a preheating mechanism provided between the flue and the combustion chamber; FIG.

<Explanation of symbols for the main parts of the drawings>

1: combustor chamber, 2: combustor, 3: flame, 4: combustion chamber,

5: year, 6: outlet, 7: fuel tank, 8: body,

9: heat dissipation part, 40: silencer, 50: bend part

The present invention, in order to achieve the above objects, while the flame is combusted in the combustor installed on one side of the main body is combusted in the combustion chamber, the exhaust gas is discharged through the outlet through the middle of the flue, and from the combustion chamber through the year to the exhaust through the whole In a conventional tube heater configured to heat using heat discharged from the radiator to the outside, a silencer is installed inside the curved pipe portion adjacent to the outlet of the entire radiator from the combustion chamber to the outlet, or from the combustion chamber to the outlet. Provided is a tube heater formed by installing a spiral turbulator having a plurality of wavy concave-convex portions continuously on one side of the entire heat dissipation unit.

In addition, a preheating mechanism is installed between the curved pipe portion installed adjacent to the combustor chamber and the external air supply portion of the combustor as an installation portion of the muffler, and the preheating mechanism includes: an outer housing wrapping the curved pipe portion in a predetermined space; Provided is a tube heater comprising a feeding hose connected between the outlet of the outer housing and the supply of the combustor, and an inlet provided separately on one side of the outer housing and configured to suck internal air.

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

According to various embodiments shown in FIGS. 2 to 5, the tube heater of the present invention has a flame 3 combusted by the combustor 2 installed on one side of the main body 8 in the combustion chamber 4. The exhaust gas is discharged through the outlet (6) through the middle flue (5) and heat discharged to the outside from the entire heat dissipation unit (9) from the combustion chamber (4) to the outlet (6) through the flue (5) In the conventional tube heater configured to be heated by using, a silencer (muffler) inside the curved pipe part 50 adjacent to the discharge port 6 of the entire heat dissipation part 9 from the combustion chamber 4 to the discharge port 6. 40) is done by installing.

At this time, the silencer 40 is installed inside the curved portion 50 adjacent to the discharge port 6, the silencer 40 is a heat insulating material 42 having excellent heat resistance and noise and sound absorption effect inside the curved portion 50. And a metal mesh tube 46 to the inner passage 44 of the heat insulating material 42.

At this time, the curved pipe portion 50 in which the silencer 40 is installed is initially inside the material in the straight state in which the corrugated pipe 52 is formed in the middle, and the metal spring 54 inside the metal mesh pipe 46 of the silencer 40. In the built-in state to be coupled to each other, it is possible to achieve by bending the portion of the corrugated pipe (52), at this time, the inner portion of the corrugated pipe (52) by the metal spring 54 is not bent inwards while bending the inner portion ( This is because 44) can be made uniform to a certain diameter.

In addition, a spiral turbulator 30 having a plurality of wavy concave-convex portions 32 continuously may be provided at one side of the entire heat dissipation unit 9 from the combustion chamber 4 to the discharge port 6, but at this time, The turbulator 30 installed inside the total heat dissipation unit 9 may reduce the moving speed of the unburned or combustion gas to extend the reburn time of the unburned or the purification time of the combustion gas.

In addition, a preheating mechanism 60 is installed between the curved pipe portion 50 installed adjacent to the combustor chamber 1 and the external air supply unit 70 of the combustor 2 as an installation portion of the silencer 40, The preheating mechanism 60 includes an outer housing 64 formed to surround the curved pipe part 50 in a state in which a predetermined space 62 is floated, a discharge part 65 of the outer housing 64, and a combustor 2. It may include a feeding hose 66 is connected between the supply unit 70 and the suction port 63 provided on one side of the outer housing 64 and configured to suck the internal air.

As an unexplained reference numeral 80 is a mesh cover for protecting the outlet 6.

In the case of the tube heater of the present invention made as described above, the operation is made for each component as follows.

First, when combustion is started from a combustor 2 such as a burner, the flame 3 generated in the combustor 2 is formed to be long in the combustion chamber 4 and combustion of fuel is continuously performed. The external air required in the combustor 2 is forced to be sucked into the supply unit 70 by an unshown feeding fan located in the combustor 2, but at first it cannot maintain a preheated state. As it is, the air in the combustor chamber 1 is fed into the diesel combustion combustor 2 through the inlet 63, the inner space 62, the outlet 65, and the feed hose 66 formed in the outer housing 64. Will be done.

At this time, the silencer 40 is installed inside the heat dissipation unit 9 so that the noise generated from the combustor 2 by the internal heat insulating material 42 passes through the heat dissipation unit 9 and effectively controls various other operational noises. By absorbing, the amount of noise discharged through the outlet 6 is greatly reduced, and the noise is exerted while exerting a noise effect, thereby enabling more comfortable heating.

In addition, in the case where the turbulator 30 is installed thereafter, the combustion gas passes through these turbulators 30 and forms a forced swirl flow in the direction of the surface of the flue 5 while reducing the passage discharge rate of the gas. It will be discharged while exerting the heat dissipation effect and re-burning effect through the flue, enabling more comfortable heating.

Of course, when the preheating mechanism 60 is installed, some of the heat generated from the combustor 2 will raise the internal temperature of the combustor chamber 1, the combustor 2 is operated to prevent such a temperature rise. In this case, the air in the combustion chamber 1 is preheated by the air supply feeding fan installed in the combustor 2 via the space 62 provided in the outer housing 64 via the inlet port 63. After passing through the high-pressure feed hose 66, supply is made into the combustor 2, and thus, the combustor chamber 1 maintains a negative pressure so that cool external air from the outside of the main body 8 adjacent to the combustor chamber 1 is maintained. Feeding into the inside of the) it is possible to cool the temperature inside the combustion chamber (1).

As described above, according to the tube heater of the present invention, the silencer 40 having a unique structure is selectively installed in the position curved pipe portion 50 adjacent to the discharge port 6 as the inside of the flue 5 to combustor 2, While reducing the noise generated in the middle as it reaches the combustion chamber 4 and the flue 5, the inner part of the curved part 50 is prevented from being arbitrarily distorted by the inner metal spring 54 when the curved part 50 is formed. The preheating mechanism 60 facilitates the manufacture of the 50 and preheats the external air which is fed to the combustor 2 for combustion of the fuel using the heat generated in the flue 5 and the internal heat of the combustor chamber 1. ) Is provided between the flue (5) and the combustor (2), so that the internal temperature of the combustor (1) is lowered while supplying the preheated external air to the combustor (2) so that the combustion rate in the combustor (2) is maintained. The seal inside the combustor chamber 1 can be achieved. Cooling by lowering the internal temperature has an excellent effect of eliminating the possibility of failure or malfunction of the adjacent controller.

Claims (6)

As the flame 3 combusted in the combustor 2 provided on one side of the main body 8 is combusted in the combustion chamber 4, the exhaust gas is discharged through the outlet 6 through the intermediate flue 5, and these combustion chambers are discharged. In a conventional tube heater configured to be heated by using heat discharged to the outside from the entire heat dissipation unit 9 from (4) to the outlet (6) through the flue (5), Tube heater, characterized in that the silencer (40) is provided inside the curved pipe portion 50 adjacent to the discharge port (6) of the total heat dissipation portion (9) from the combustion chamber (4) to the discharge port (6). The method of claim 1, The silencer 40 is coupled to the heat insulating material 42 having excellent heat resistance and noise and sound absorption effect inside the curved pipe portion 50, and the metal passage pipe 46 to the inner passage 44 of the heat insulating material 42 by Tube heater, characterized in that made. The method according to claim 1 or 2, The curved pipe part 50 is initially coupled to each other in a state in which a metal spring 54 is built into the inner side of the metal pipe body 46 of the silencer 40 as a corrugated pipe 52 formed in the middle. And, the tube heater characterized in that formed by bending the corrugated pipe (52). The method of claim 1, Tube heater, characterized in that the spiral turbulator (30) having a plurality of corrugated irregularities (32) in series on one side of the total heat dissipation section (9) from the combustion chamber (4) to the outlet (6) . The method of claim 1, It is made by installing a separate preheating mechanism (60) between the curved pipe portion 50 is installed adjacent to the combustor chamber (1) and the external air supply unit 70 of the combustor (2) as the installation portion of the silencer (40). A tube heater characterized by the above-mentioned. The method of claim 5, The preheating mechanism 60 includes an outer housing 64 formed to surround the curved pipe part 50 in a state where a predetermined space 62 is floated therein, A feeding hose 66 connected between the discharge part 65 of the outer housing 64 and the supply part 70 of the combustor 2, and Tube heater, characterized in that it comprises a suction inlet (63) provided separately on one side of the outer housing (64) configured to suck the internal air.