KR20040051191A - Brown Gas Far-Infrared Ray Heater for Health - Google Patents

Abstract

PURPOSE: A far infrared ray stove using Brown's gas is provided to emit a large quantity of far infrared ray by heating a heating element through the Brown's gas combustion method and continuously heating quartz porphyry with the radiant heat of the heating element. CONSTITUTION: A far infrared ray stove using Brown's gas comprises a stove body(21) installed on a base(20) and insulated with castable(22), a heating part(30) installed around a burner hole(12), and quartz porphyry(34) covering the heating part. The heating part consists of an outer case(40), a support block(31), a heating block(32), and a heating plate(33). The quartz porphyry covering the heating part is heated with the heat emitted from the heating part and emits a large quantity of far infrared ray.

Description

Brown Gas Far-Infrared Ray Heater for Health}

The present invention relates to a far-infrared health stove using brown gas as a fuel, and stacking a ceramic plate, which is a heating element, in a central part of a stove to produce a heating part, and stacking a far-infrared radiator of ganban stone boiled around the heating part to form a stove and then generate heat by brown gas. It relates to a health stove that radiates a large amount of far infrared rays by heating the elvan rock by the radiant heat of the heating portion heated by heating the portion.

There are many stoves in the world that use fossil fuels such as petroleum, kerosene, LPG, LNG, etc., but there are no stoves that use brown gas as a fuel.

Brown gas refers to a mixed gas mixed at a ratio of hydrogen 2 to oxygen 1 produced by electrolysis of water. Brown gas must be the ideal 21st-century alternative energy we were looking for because it is completely burned by its own oxygen and reduced to steam after combustion.

However, conventionally, since the electrolysis consumes a lot of expensive electricity, it has been considered to be economical. In fact, it was natural to think so when there was no Brown Gas combustion technology. Now, the brown gas combustion technology has been developed so that the problem is completely solved by the heating method using the brown gas characteristics, and using brown gas as a fuel can save 70 ~ 80% of the fuel cost.

To burn Brown gas is not to use electricity as thermal energy, but to burn water after all, so the water = energy equation is inevitably inevitably economical. Therefore, in the light of the importance of alternative energy, brown gas (water) has emerged as a new alternative energy and has been applied to the stove of the present invention.

If brown gas far infrared stove using natural stone is spread, we must change the concept of stove such as petroleum stove, gas stove, pecca, etc. as we know.

In other words, the present invention is to realize a natural comfortable heating that emits soft far infrared rays while being naturally humidified without eating indoor oxygen for combustion.

As it is well known these days, far infrared saunas are widely used, and when shots of far-infrared rays penetrate deep into the skin and act as a sweat, after a lot of sweating and sweating, the body feels refreshed and relaxed.

When the elvan is called a weak stone from ancient times, a large amount of far-infrared rays in the 5 ~ 14㎛ wavelength range are radiated. Elvan emits most of the far-infrared radiation at 300-400 ° C, so it is not necessary to heat it to high temperatures without need. On the contrary, when the heating temperature is low, the amount of far-infrared radiation decreases, so it is necessary to continuously maintain 300 to 400 ° C.

Therefore, the present invention heats the heating element with brown gas and heats the heating part to keep it at 1000 ° C. or more, and builds a bedrock around the heating part to maintain the temperature of the bedrock at 300 to 400 ° C. to make a heating device radiating a large amount of far infrared rays. It is for. Far-infrared rays remove odors and eliminate pests, which eliminates mold and provide more comfortable heating.

An object of the present invention is to use a brown gas that is completely burned by the oxygen to reduce to a steam state as a fuel and to heat the heating element by the brown gas combustion method and continuously heating the ganbanite by the radiant heat of the heating element to emit a large amount of far infrared rays It is to provide Brown Gas far infrared health stove.

In order to achieve the above object, the present invention includes a brown gas generator as an elvan rock means and ignites the brown gas supplied from the brown gas generator to the brown gas burner to heat the heating element laminated in the center of the hearth with the brown gas flame. The heating element is press-molded with high temperature refractory material to make a ceramic plate of a certain size.

When the heating block at the bottom of the heating part is heated with brown gas, the heating part becomes hot and spreads to the upper part, and the whole heating part is hotly heated to radiate high-temperature radiant heat.

At this time, the elvan rock covering the heating part is also heated, and the temperature rises to 300 ~ 400 ° C, which emits a large amount of far infrared rays. The far infrared rays radiated out of the stove are used for heating and the far infrared rays radiated into the stove are heated once more. It serves to achieve the object of the present invention because the heat generating parts are heated while synergizing with each other as if they cover the far infrared quilt.

Elvan is a stone that is not processed and processed into stones without breaking. Naturally, far-infrared rays come from the surface of the original elvan, so it is better to use elvan to expose as much surface area as possible.

Figure 1 is an assembly cross-sectional view illustrating the overall configuration of the present invention

Figure 2 is a schematic perspective view of a partially cut Brown gas stove body of the present invention

Figure 3 is a schematic perspective view of a part of the heating portion outer shell cut in one component of the present invention

Figure 4 is a perspective view illustrating a heating block that is one component of the present invention

Figure 5 is a perspective view of the heating element as one component of the present invention

Figure 6 is a schematic perspective view showing a method of stacking the heating element of the present invention

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

10: Brown gas generator 11: Brown gas burner 20: Expectation

21: body 22: castable 23: bib

30: heat generating portion 31: support block 32: heat generating block

33: refractory heat generating plate 40: heating portion outer shell

Hereinafter, the brown gas far-infrared health stove according to the first embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 to 6, the brown gas far-infrared health stove of the present invention is a heating means for supplying brown gas from a brown gas generator 10 (not shown) to ignite and heat the brown gas burner 11. Installed around the burner ball 12 on the base 20 formed of steel and steel, and is composed of a stove body 21 fixed by a bracket 21a and a castable 22 inside the body 21. It is insulated and the bib 23 is comprised in the upper part.

The heat generating unit 30 is composed of an outer cylinder 40, a supporting block 31, a heating block 32 and a heating plate 33, and the installation order of the heating unit 30 is a supporting block which is a firebrick first. 31) and the heating block (31a) is placed thereon and the heating block (31b) is installed so that it crosses 90 ° on it.

Next, the heating unit outer shell 40 is installed, and the heating plate 33 is stacked one by one on the heating block 31b. As shown in Figure 5, the heating plate 33 is in the longitudinal direction It is made by compression molding of refractory material that endures high temperature to form curved surface as t.

As shown in FIG. 6, the heating plate 33 is provided with a first interval of heating plates 33a of the first stage on the heating block 32b, and then the heating plate 33b of the second stage is 90 °. Turn to the 1st position and move it by 1/2 pitch. The third stage is rotated 90 ° again to install at the position of the first stage.

While alternating in this way, each stage is moved regularly by 1/2 pitch, and the gaps generated between the heating part outer cylinder 40 and the heating plate group are filled up with the heating plate 33, and if necessary, heat is generated. A plate piece is sandwiched between the heating plate 33 is installed in a stable manner.

As shown in FIG. 3, the heat generating portion outer cylinder 40 is formed of a cylindrical cylinder with iron, and forms a plurality of holes.

Finally, it is to be stacked as high as possible to cover the entire heating portion 30 from the bib 23 of the upper stove body 21 as a rock stone gemstone.

As described above, when the configuration of the brown gas far infrared health stove is completed, the ignition plate (11) is ignited and heated to the heating block (32) located at the bottom of the heat generating unit (30) by the brown gas flame. ) It goes up to the top and heats up the whole heating part to radiate enormous radiant heat. At this time, the temperature is over 1000 ℃ and the heating block part heated directly by Brown gas gives bright light. It is estimated.

The group of elvan rock 34 covering the heat generating unit 30 is heated to 300 to 400 ° C by receiving heat emitted from the heat generating unit 30 to emit a large amount of far infrared rays.

Interesting phenomenon here, even if the heating plate 33 is layered in multiple layers, Brown gas fire energy does not spread to the side but only goes up. Therefore, by increasing the supply amount of Brown gas, the heat generating plate 33 can be stacked more than any number of layers.

The effect of the present invention is how much high can be stacked ceramic plate heating element. This is because a large amount of fireball heating portion can increase the size of the elvan rock covering the heating portion, so that it can emit a large amount of far infrared rays. Hereinafter, an embodiment of the present invention will be described.

<Example>

The present invention is suitable for use in the jjimjilbang of the far-infrared sauna, which is popular these days because it can be continuously heated to 300-400 ° C, which is an appropriate temperature at which far infrared radiation is emitted in large quantities depending on the brown gas supply.

The present inventors partitioned one side of the laboratory with a thermal insulation material and plastered the inner wall entirely with ocher to test the actual far-infrared jjimjilbang of the size of 3 pyeong.

In addition, Brown gas generator model BS-2000 (gas generation amount: 2000l / h, water consumption: 1.08l / h, power consumption: 7.5kwh) was equipped with the prototype stove of the present invention was tested. First, place the supporting block with the refractory brick inside the stove, place three heating blocks on it, put four heating blocks one more time in the direction of 90 °, and then stack the ceramic plates, which are heating elements, one by one. When it reached 300mm, the pre-prepared ganban rocks were stacked around the ignition and burned to the Brown gas burner to start heating the exothermic block at the bottom. The heating block heats up gradually and spreads to the heating element on the upper side, and as time passes, the whole heating part mass is opened. The fireball seen between the rocks is a mysterious visual effect, so it is a good choice for a jjimjilbang business.

When the surface temperature of elvan was measured with a far infrared thermometer, the surface temperature of the most protruding elvan rock was 280 ℃, and the inner temperature of the rock was 360 ℃. All the stones piled up inside were over 400 ℃.

Next, by raising the height of the heating unit from 300mm to 400mm to confirm that it is also heated sweetly and finally confirmed that it can be raised to 600mm. At this time, the height of the elvan was 800 mm. At this time, the room temperature of the jjimjilbang was 65 ° C., which is the most suitable temperature for the far-infrared jjimjil.

As a result, the fireball of 600mm height was made by using Brown gas of 2000ℓ / h, and it was possible to operate the far-infrared jjimjilbang of 3 pyeong.

At this time, if the fuel cost is roughly calculated, it is only 75kW × 60 won = 450 won / h.

As shown in the above embodiment, but suitable for the jjimjilbang business, the present invention can use the natural gemstones as it is, because the interior can emphasize the naturalness, it can be added to the villa or cafe when used as a villa or cafe.

Since Brown's gas is a fuel, water doesn't have to worry about fuel costs, and it doesn't eat indoor oxygen. It also humidifies naturally, so you can enjoy comfortable heating that harmonizes the atmosphere of western romance and natural feeling.

When the stove of the present invention is used for greenhouse heating of high-grade plants, such as cultivation of eggs, the flowers grow owing to the far-infrared effect, which helps increase the income of flower farmers.

The present invention is only a partial presentation of the use of the new alternative energy Brown gas, but is a very useful invention that has significantly changed the concept of a stove such as a conventional oil stove, gas stove, pecca.

In the above description, the present invention has been described with reference to specific embodiments as an example, but the present invention is not limited thereto. For example, the present invention may be used in the art to which the present invention pertains without departing from the concept of the present invention. It should be understood that the present invention may be modified or modified in various forms by those skilled in the art.

Claims (3)

The heater body 21 fixed on the base 20 and insulated by the castable 22 therein, and the heating unit 30 and the heating unit 30 installed around the burner hole 12 inside the body. Brown gas far-infrared health stove, characterized in that consisting of ganban rock (34) covering. According to claim 1, wherein the heat generating portion 30 is composed of a heat generating portion outer shell 40, the support block 31, the heat generating block 32 and the heat generating plate 33, the support block inside the outer cylinder (40) 31 and the heat generating block 32, and the heat generating plate 33 is installed on the upper heat generating block (32b) at a predetermined interval, respectively, at a predetermined interval after the heat generating plate of the second stage. 33b is installed at a position shifted by 1/2 pitch by turning 90 ° and the heating plate 33c of the third stage is configured by forming a plurality of layers by installing it at the position of the first stage by turning 90 ° again. Brown gas far infrared health stove. The heating plate (33) according to the above 2, in the longitudinal direction Brown gas far infrared health heater, characterized in that the compression molding with a high temperature refractory material to form a curved surface as t.