KR20050001658A - Heating apparatus of the tube type - Google Patents

Abstract

PURPOSE: A far-infrared heater is provided to improve the connection defect of a combustion furnace, to absorb the noise from the heater, to effectively remove the smell from a combustion and to maximize the heating efficiency. CONSTITUTION: A burner comprises a rotary type to minimize the generation of noise. A combustion furnace cap(10) is formed in the upper part of a main combustion furnace(4) to be vertically installed in the upper part of the burner. The combustion furnace cap has an indirect heat plate to perform a secondary combustion and a heating for removing unburned powders and a smell from a primary combustion. A secondary combustion container and a secondary combustion net having many through holes are installed in the upper part of the main combustion furnace. A ventilating pipe(20) is installed in the upper part of the combustion furnace cap. The diameter of the ventilating pipe is larger than the diameter of an auxiliary combustion furnace(30) and the ventilating pipe has ventilating holes in both sides. Regenerating members are respectively inserted in branched portions of the combustion furnace cap. The auxiliary combustion furnace is connected with the combustion furnace cap and the ventilating pipe to perform a third combustion and a heating through the delayed rising effect of heat by delaying a heat circulation. The auxiliary combustion furnace is divided to a vertical delay pipe and a rising pipe by a folded pipe. A reflecting plate(40) is installed in the rear side of a heater to concentrate and reflect heat from the main combustion furnace, the auxiliary combustion furnace and the combustion furnace cap toward the front of the heater. The reflecting plate forms an octahedron by forming folded faces in upper rear corners and both rear corners.

Description

Tube-type far infrared heaters {Heating apparatus of the tube type}

The present invention relates to a heater that can be easily installed and used indoors, such as offices and homes, in particular, the exhaust furnace is installed in the heater, as well as the combustion furnace and the auxiliary combustion furnace in which the combustion of several stages (for example, three stages) is made. It relates to a tube-type far-infrared heater installed by maximizing its heating efficiency.

As is well known, tubular far-infrared heaters are provided as a means for covering the air in a room in winter in homes and offices.

That is, although the conventional tubular far-infrared heater is not shown, the combustion is made by the gun type burner method, and the heat generated from the combustion of the gun type burner is two-stage or three-stage auxiliary combustion connected in parallel with the main combustion furnace. It is formed in a structure that discharges through the furnace to the exhaust port.

However, in the case of the conventional gun type burner, there is a problem that noise is severely generated due to the high air volume of the fan motor.

In addition, conventionally, not only a blower fan is installed to increase heating efficiency, but also a method of cooling the main combustion furnace by suctioning indoor air, thereby causing a complaint that the conventional heating efficiency is lowered.

In addition, conventionally, as the main combustion as well as the auxiliary combustion furnace by the assembly method of fitting the I pipe, the tube, the tube, or the like, or the method of fixing the connection portion through the bolt or band, bar assembly work As a result of the assembly process, not only the assembly defects occurred a lot but also the main combustion furnace or the auxiliary combustion furnace was separated from each other due to vibration during transportation, which caused the combustion of the heater. It had a structure that was vulnerable to the prevention of safety accidents, such as the departure of the combustion furnace and the exposure of the flames to the risk of fire.

In addition, while the exhaust port is exposed to the outside of the heater (there was a risk of burns due to the user's carelessness), the heat from the combustion proceeds upward only, so that the smell of the combustion occurs when the heater is burned. It had to occur badly.

Therefore, the present invention has been made to solve the conventional problems as described above, the object of the present invention is to apply a rotary burner is composed of a primary combustion furnace that is the primary combustion and heating, but removes the unburnt inside the main combustion furnace Install the secondary combustion communication and secondary combustion pipe for the secondary combustion and heating to the combustion cap is installed, and inserting the heat accumulator in the part connecting the combustion furnace cap and the auxiliary combustion furnace in the combustion cap The secondary combustion efficiency is increased, and the heated combustion cap is connected upside down with the secondary combustion furnace where tertiary combustion and heating are performed through the synergistic effect of heat, and is vertically configured as the main combustion furnace, thereby connecting the combustion furnace which has encountered the conventional problem. In addition to improving the defects, it also absorbs the noise generated by the heaters, and effectively removes the odors of combustion. Is that to provide a far-infrared tube heaters to allow more room to maximize efficiency.

In addition, another object of the present invention is to provide a tubular far-infrared radiator to install the exhaust pipe in the heater, but by locating the exhaust pipe near the furnace cap to maximize the overall heating efficiency of the heater.

In addition, another object of the present invention by coating a ceramic coating on the surface of the secondary combustion furnace as well as the main combustion installed in the heater radiates far-infrared rays which is beneficial to health when the circulation of heat is made through the auxiliary combustion furnace as well as the main combustion It is to provide a tubular far-infrared heater which makes it possible.

1 is a perspective view showing the structure of a tubular far-infrared heater as an embodiment of the present invention

Figure 2 is a longitudinal sectional view showing the structure of a tubular far infrared heater in one embodiment of the present invention

Figure 3 is a side view of a partial ablation showing the structure of a tubular far infrared heater in one embodiment of the present invention

Figure 4 is a plan view showing the structure of a tubular far infrared heater in one embodiment of the present invention

* Description of the symbols for the main parts of the drawings *

One ; Fan motor 2; burner

4 ; Main combustion furnace 5; Caster

10; Furnace cap 11; Indirect heating plate

20; Exhaust pipe 21; Exhaust hole

30; 31 for auxiliary combustion; A broken tube

32; Delay tube 33; Riser

40; Reflector 50; ceramic

61; Secondary combustion cylinder 62; Secondary combustion network

63; Heat storage

Hereinafter, a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

1 is a perspective view showing the structure of a tubular far infrared heater in one embodiment of the present invention, Figure 2 is a front view showing the structure of a tubular far infrared heater in one embodiment of the present invention.

Figure 3 is a cross-sectional view showing the structure of a tubular far infrared heater in one embodiment of the present invention, Figure 4 is a schematic view showing a state of use of the tubular far infrared heater in one embodiment of the present invention.

As shown in FIGS. 1 to 4, the present invention provides a main combustion system in which primary combustion occurs by ignition of the ignition unit (not shown), the fan motor 1, the burner 2, as well as the ignition of the burner 2. In the usual tubular far-infrared heater containing (4),

The burner 2 is configured in a rotary type to minimize noise generation,

On the upper surface of the main combustion furnace (4) installed in the vertical direction in the upper portion of the burner (2) an indirect heating plate (11) on the inner upper surface so that secondary combustion is performed to remove odors as well as odor generated from the primary combustion. Branches combine the cap 10 with the combustion furnace,

In the inner upper portion of the main combustion furnace 4 is provided with a secondary combustion cylinder 61 and a secondary combustion network 62 having a plurality of through holes,

At the upper end portion of the combustion furnace cap 10, the exhaust pipe 20 having a diameter larger than the diameter of the auxiliary combustion furnace 30 and having exhaust holes 21 is provided at both sides thereof,

Both ends of the furnace cap 10 and the exhaust pipe 20 are lifted up with the delay pipe 32 in the vertical direction through the bending pipe 31 so that the third combustion is effected by the synergistic effect of the delayed heat while delaying the thermal circulation. Connect the auxiliary combustion furnace (30) divided into pipe (33),

On the rear surface of the heater, each of the upper rear corners and both rear rear corners are bent so as to centrally reflect heat generated from the main combustion furnace 4 and the auxiliary combustion furnace 30 and the combustion furnace cap 10 to the front of the heater. It is characterized in that the reflection plate 40 forming the octahedron is provided by providing the surfaces 41 and 42.

According to another aspect, the present invention is characterized by coating a ceramic (50) emitting far-infrared rays on the surfaces of the main combustion furnace (4) and the auxiliary combustion furnace (30).

In the present invention, if the ceramic plate-like heat storage body 63 having a myriad of holes is installed in the bending tube 31 of the auxiliary combustion furnace 30 connected to the combustion furnace cap 10 as shown in FIG. By burning the unburned fraction of the fuel that is not able to improve the combustion efficiency as well as the heat storage effect.

Reference numeral 5 in the drawing is a caster coupled to the bottom of the heater so that the movement of the tubular far-infrared heater is made easily, 70 is a fuel tank.

Referring to Figures 1 to 4 attached to the operation of an embodiment of the present invention configured as described above are as follows.

First, the fan motor 1 and the rotary type burner 2 are installed at the lower end of the tubular far infrared heater.

Thereafter, the rotary burner 2 has a primary combustion furnace in which ignition of the burner 2 is performed, and a secondary combustion cylinder 61 and a secondary combustion network 62 are installed in the upper portion. Install).

In addition, the upper surface of the main combustion furnace (4) is coupled to the combustion furnace cap (10) having an indirect heating plate (11) on the inner upper surface, and has a plurality of exhaust holes (21) in the upper end of the combustion chamber cap (10) The exhaust pipe 20 is arranged.

At this time, both ends of the combustion furnace cap 10 and the exhaust pipe 20 are connected to the auxiliary combustion furnace 30, which is divided into a delay pipe 32 and a rising pipe 33 through a bending pipe 31, and a tubular shape. On the rear side of the far infrared heater, a reflection plate 40 forming an octahedron is installed.

In addition, the surface of the main combustion furnace 4 and the auxiliary combustion furnace 30 is coated with a ceramic 50 that emits far infrared rays.

Then, when the rotary type burner 2 is ignited through the ignition unit, primary combustion is performed in the main combustion furnace 4 from the ignition of the rotary type burner 2.

At this time, the heat generated from the primary combustion of the main combustion furnace 4 is guided to the combustion furnace cap 10 coupled to the upper end,

Heat storage in the secondary combustion cylinder 61 and the secondary combustion network 62 installed in the main combustion furnace 4, the indirect heating plate 11 formed on the inner upper surface of the combustion furnace cap 10, the bending pipe 31 As the secondary combustion is performed through the sieve 63, the combustion of unburned dust generated from the primary combustion of the main combustion furnace 4 is removed as well as odor, and heating efficiency is accumulated by accumulating heat inside the main combustion furnace 4. Will increase.

In addition, the heat generated from the secondary combustion of the combustion furnace cap 10 is further divided into an auxiliary combustion furnace 30 divided into a delay pipe 32 and a rising pipe 33 in the vertical direction by the bending pipe 31. It is guided to the exhaust pipe 20 provided with the exhaust hole 21 on both sides.

That is, after the heat generated from the secondary combustion of the combustion furnace cap 10 is delayed while the flow is made downward through the delay tube 32 of the auxiliary combustion furnace 30, the delay tube 32 and The bar is guided to the exhaust pipe 20 while the upward direction is made through the upward pipe 33 connected by the bending pipe 31.

In the riser 33, the third combustion is performed by using the synergistic effect of the heat delayed by the delay tube 32, thereby maximizing the efficiency of heating.

Here, since the secondary combustion furnace 30 and the exhaust pipe 20 are positioned around the main combustion furnace 4 and the combustion cap 10 having a high temperature, the secondary combustion furnace 30 and the exhaust pipe 20 are evenly heated. This can maximize the overall heating efficiency of the heater.

In addition, the octahedral reflector 40 installed at the rear of the tubular far-infrared radiator intensively reflects heat generated from the auxiliary combustion furnace 30 and the combustion furnace cap 10 as well as the main combustion furnace 4 to the front of the heater. As a result, the heating effect of the tubular far-infrared heater can be further improved.

Meanwhile, in the case of the ceramic 50 coated on the surfaces of the main combustion furnace 4 and the auxiliary combustion furnace 30, primary and third combustion may be performed in the main combustion furnace 4 as well as the auxiliary combustion furnace 30. At that time, the far infrared radiation beneficial to the human body is radiated from the heat of the combustion.

As described above, the present invention provides a poor connection to the combustion furnace, which has caused a conventional problem by installing an exhaust pipe in a heater as well as installing a combustion furnace cap and an auxiliary combustion furnace where combustion of several stages (eg, three stages) occurs. In addition to absorbing the noise generated by the heater, it also effectively removes the odor caused by the combustion, further maximizing the heating efficiency, and the secondary combustion furnace and exhaust pipe around the high temperature main combustion furnace cap. By providing a more effective effect of maximizing the overall heating efficiency of the heater.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

Claims (2)

In a conventional tubular far-infrared heater including an ignition unit, a motor, a fan, a burner, as well as a main combustion furnace where primary combustion occurs by ignition of the burner, The burner is configured of a rotary type to minimize noise generation, The upper surface of the main combustion furnace installed in the vertical direction in the upper portion of the burner is combined with the combustion furnace cap having an indirect heating plate on the inner upper surface to perform the secondary combustion and heating to remove the unburnt generated from the primary combustion as well as the odor. , In the upper part of the main combustion furnace is provided with a secondary combustion cylinder and a secondary combustion network having a plurality of through holes, At the upper end of the combustion furnace cap is made of a diameter larger than the diameter of the auxiliary combustion furnace and the exhaust pipe is provided on both sides, The heat accumulators are respectively inserted into two branched portions of the cap of the combustion furnace, Both ends of the furnace cap and the exhaust pipe are connected to an auxiliary combustion furnace divided into a delay pipe and a rising pipe in the vertical direction through a bent pipe so that the third combustion and heating is performed by delaying the heat circulation while delaying the heat circulation. , On the rear side of the heater, bent surfaces are formed in the upper rear corners and the rear rear corners of each side so as to centrally reflect heat generated from the auxiliary combustion furnace and the combustion furnace cap to the front of the heater. A tubular far-infrared radiator characterized in that the reflector is installed. The tubular far-infrared heater according to claim 1, wherein a ceramic coating for emitting far-infrared rays is coated on the surfaces of the main combustion furnace and the auxiliary combustion furnace.