KR100745638B1 - A heat source apparatus using brown gas - Google Patents

Abstract

A heat source apparatus using brown gas is provided to enable decomposition of water using a small amount of calories and thus to reduce manufacturing cost of the heat source apparatus. A heat source apparatus using brown gas includes an ultrasonic humidifying part, a primary heating part(120), a secondary heating part(130), a third heating part(140), and a high frequency induction coil(160). The ultrasonic humidifying part generates a humidified air using an ultrasonic vibration generator. The primary heating part primarily heats the humidified air generated from the ultrasonic humidifying part. The secondary heating part secondarily heats the humidified air heated by the primary heating part. The third heating part thirdly heats the humidified air heated by the secondary heating part to generate brown gas. The high frequency induction coil is installed to surround the heating parts to heat the heating parts through a high frequency induction heating method.

Description

A heat source apparatus using brown gas}

1 is a block diagram of a heat source device using a brown gas according to an embodiment of the present invention,

2 is an exploded perspective view of an essential part of a heat source device using Brown gas according to an embodiment of the present invention;

3 is a cross-sectional view of an essential part of a heat source device using a brown gas according to an embodiment of the present invention.

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

100: heat source device 110: ultrasonic humidifier

111: ultrasonic vibration generator 112: discharge hole

113: first connector 120: first heating portion

121,132,142: Ceramic ball 122: Inlet hole

123: outlet hole 124: second connector

130: second heating unit 131, 141: hollow

133: drawing ball 134: drawing ball

135: third connector 140: third heating unit

143: ejection hole 144: internal ejection hole

145: inlet hole 150: heat insulating member

160: high frequency induction coil 170: case

171: upper cover 172: lower cover

The present invention relates to a heat source device using a brown gas, and more particularly, primary humidifying air is generated through an ultrasonic vibration generator, and the humidifying air is again in a high frequency induction heating method through a plurality of heating chambers. Brown gas is finally generated by heating to perform the function as a heat source device using the generated brown gas, brown water which can achieve a significant cost savings by enabling water decomposition using low heat compared to the conventional method It relates to a heat source device using a gas.

Brown gas, as is well known, is a mixed gas of hydrogen and oxygen in the same proportion as water.

Recently, heat source devices using brown gas have been introduced and developed one after another.

In addition, brown gas, as is known, has attracted extraordinary attention as a next-generation fuel due to the characteristics of no pollution during combustion, complete combustion and reduction of water vapor.

However, the conventional heat source device using brown gas is limited to a structure or function to perform a function as a heat source device using brown gas generated through a modular brown gas generator, and at this time, ignite brown gas. In addition, there was a problem that the cost is increased by adding a structure such as a heating element for generating a high heat to burn,

 In order to generate or generate Brown gas, a separate heating device (heater or water electrolysis device) is used, or a separate heat source device is required, thereby increasing the cost in double.

The present invention has been made to solve the above problems, an object of the present invention is to generate a primary humidifying air through an ultrasonic vibration generator, and by heating the humidifying air again through a plurality of heating chambers by a high frequency induction heating method Finally, the present invention provides a heat source device using brown gas, which generates brown gas and can perform a function as a heat source device using the generated brown gas.

Another object of the present invention is to provide a heat source device using brown gas, which can achieve a significant cost savings by enabling water decomposition using low heat as compared to the conventional method.

The present invention for achieving the above object is an ultrasonic humidifying unit for generating and ejecting the humidified air using the ultrasonic vibration generator; A first heating part having a cylindrical shape filled therein with a plurality of ceramic balls and primarily heating the humidifying air of the ultrasonic humidifying part introduced through the inlet hole formed at the bottom thereof and discharging it into the outlet hole; Secondary heating is filled with a plurality of ceramic balls inside the cylindrical shape having a hollow, secondary heating the heated humidifying air from the first heating portion introduced through the inlet hole formed at the bottom to discharge through the outlet hole Wealth; The cylindrical shape having a hollow is filled with a plurality of ceramic balls inside, a plurality of blowout holes are formed in the upper end, and the heated humidified air from the second heating portion introduced through the inlet hole formed on one side of the upper third heating A third heating unit for generating brown gas; It is installed so as to surround the first to third heating unit has a feature comprising a high frequency induction coil for heating the entire first to third heating unit by a high frequency induction heating method.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a block diagram of a heat source device using a brown gas according to an embodiment of the present invention, Figure 2 is an exploded perspective view of the main part of the heat source device using a brown gas according to an embodiment of the present invention, Figure 3 is an embodiment of the present invention Sectional drawing of a main part of a heat source device using the Brown gas according to the present invention.

As shown, the heat source device using the brown gas of the present invention is the ultrasonic humidifier 110 for generating and ejecting the humidified air by using the ultrasonic vibration generator largely, the humidified air generated from the ultrasonic humidifier 110 The first heating unit 120 for heating the primary, the second heating unit 130 for heating the secondary humidification air heated by the first heating unit 120 and the second heating unit 130 Third heating unit 140 to heat the humidified air heated through the third to finally generate the brown gas, and installed to surround the first to third heating units (120, 130, 140) to the heating unit (120, 130, 140) It comprises a high frequency induction coil 160 for heating in a high frequency induction heating method.

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The ultrasonic humidifier 110 is configured in the shape of a bucket filled with water therein, the ultrasonic vibration generator 111 is installed in the discharge hole 112 at the bottom.

The ultrasonic vibration generator 111 is a device for generating fine humidified air (water particles) by vibrating water using a piezoelectric element. At this time, the humidified air generated through the discharge hole 112 is connected to the first connection pipe 113. It is introduced into the first heating unit 120 through).

The first heating unit 120 has a cylindrical shape, the plurality of ceramic balls 120 is filled therein, the first connecting pipe 113 is connected to the inlet hole 122 formed at the bottom.

In addition, the outlet hole 123 is formed at the lower end, and the outlet hole 123 is configured to be connected to the second connection pipe 124 to lead to the second heating unit 130.

Therefore, the humidified air introduced into the first heating unit 120 through the first connecting tube 113 is again discharged through the outlet hole 123 and passed through the second connecting tube 124 to the second heating unit 130. It is introduced into).

The second heating unit 130 is a cylindrical shape having a hollow 131, the plurality of ceramic balls 132 is also filled therein, the lower end is formed with a hole 133 is formed in the second connecting pipe ( 124).

In addition, a drawing hole 134 is formed at an upper end of the second heating part 130, and the drawing hole 134 is configured to be connected to the third connection pipe 135.

Therefore, the humidifying air introduced into the second heating unit 130 through the second connection pipe 124 and the inlet hole 133 is again discharged through the outlet hole 134 and passed through the third connection pipe 135. It is drawn into the third heating unit 140.

The third heating part 140 has a cylindrical shape having a hollow 141, and a plurality of ceramic balls 142 are also filled therein, and a plurality of ejection holes 143 are formed at an upper end to discharge brown gas. In addition, the lower end is configured with an internal ejection hole 144 having a smaller number than the number of ejection holes 143 formed on the upper end.

In addition, the inlet hole 145 is formed on one side of the upper end is connected to the third connecting pipe (135).

Therefore, while being converted into the humidified air Brown gas introduced into the third heating unit 140 through the third connecting pipe 135 and the inlet hole 145, the upper blowout hole 143 and the inner blowout hole 144 at the bottom. Brown gas is ejected.

Here, the first heating unit 120 and the third heating unit 140 maintain a constant interval, it is installed to be inserted into the hollow 131 of the second heating unit 130.

The heat insulating member 150 is further installed on the outer circumferential surface of the second heating part 130.

The high frequency induction coil 160 is installed by winding an outer circumferential surface of the heat insulating member 150, and is operated when a high frequency induction heating power is not shown, thereby rapidly heating the first to third heating parts 120, 130, and 140. Let's go.

In addition, the case 170 is installed on the outside of the high frequency induction coil 160, and covers 171 and 172 are installed at the top and bottom thereof.

In addition, an ignition device 180 is installed at the upper end of the heat source device 100 to generate a spark when ignition later.

It looks at the operation of the heat source device using the brown gas of the present invention configured as described above.

When the operating power is applied to the heat source device using the brown gas of the present invention, the ultrasonic vibration generator 111 of the ultrasonic humidifier 110 is operated to discharge the humidified air to the discharge hole 112.

At the same time, the operating power is applied to the high frequency induction coil 160, and the inside of the heat insulating member 150, that is, the first to third heating parts 120, 130, and 140, starts to heat rapidly according to the induction heating operation.

Humidified air discharged to the discharge hole 112 is introduced into the inlet hole 122 of the first heating unit 120 through the first connecting pipe 113.

The humidifying air introduced into the first heating part 120 is further heated while passing between the pores of the heated ceramic ball 121 so that the particles of the humidifying air are gradually atomized.

In addition, the humidified air heated in the first heating unit 120 flows out again through the outlet hole 123 and is introduced into the inlet hole 133 of the second heating unit 130 via the second connecting pipe 124. do.

The humidifying air introduced into the inlet hole 133 of the second heating unit 130 is further heated while passing between the pores of the heated ceramic ball 132 therein, so that the particles of the humidifying air gradually become a gas (gas). It becomes mad.

The humidified gas heated in this way flows out again through the drawing hole 134 and flows into the inlet hole 134 of the third heating part 140 through the third connecting pipe 135.

The humidifying gas introduced into the third heating part 140 is completely heated while passing between the pores of the heated ceramic balls 142 therein to finally generate brown gas, and the generated brown gas is ejected at the top. It is discharged through the ball 143, and is also discharged through the jet hole 144 formed at the bottom.

At this time, the ignition device 180 installed on the top of the heat source device 100 is operated.

Brown gas discharged to the ejection hole 143 is ignited and ignited by the operation of the ignition device 180.

At the same time, the flame is transferred to the discharge hole 144 formed at the bottom to be ignited.

The spark generated by the discharge hole 144 formed at the lower end of the third heating chamber 140 is used for heating purposes for maintaining a constant temperature inside the heat source device 100.

In this way, the ignition operation is completed.

As described above, the present invention generates primary humidified air through an ultrasonic vibration generator, and heats the humidified air again by a high frequency induction heating method through a plurality of heating chambers to finally generate brown gas. By performing the function as a heat source device using a gas, it is possible to decompose water using low heat according to the ultrasonic and high frequency induction heating method, it is possible to obtain a significant cost savings compared to the prior art.

Claims (6)

An ultrasonic humidifier 110 generating and ejecting humidified air by using an ultrasonic vibration generator; A plurality of ceramic balls 120 are filled in the cylindrical shape, and the humidifying air of the ultrasonic humidifying part 100 introduced through the inlet hole 122 formed at the bottom thereof is heated first to be discharged to the outlet hole 123. The first heating unit 120; The cylindrical shape having a hollow 131 is filled with a plurality of ceramic balls 132 therein, the heated humidified air from the first heating unit 120 introduced through the inlet hole 133 formed at the bottom 2 A second heating part 130 that is heated by heating and discharged through the drawing hole 134; The cylindrical shape having a hollow 141 is filled with a plurality of ceramic balls 142 therein, a plurality of ejection holes 143 are formed on the upper end, the first agent introduced through the inlet hole 145 formed on one side of the upper end A third heating part 140 for heating the humidified air heated from the second heating part 130 to generate brown gas; And It is installed so as to surround the first to third heating parts (120, 130, 140) characterized in that it comprises a high frequency induction coil (160) for heating the entire first to third heating parts (120, 130, 140) by a high frequency induction heating method Heat source device using Brown gas. The method of claim 1, The ultrasonic humidifier 110 has an ultrasonic vibration generator 111 installed therein, a discharge hole 112 is installed at the bottom, and the discharge hole 112 is first heated through the first connection pipe 113. Heat source device using Brown gas, characterized in that connected to the inlet hole 122 of the portion 120. The method of claim 1, The heat source device using the brown gas, characterized in that the lower end of the third heating unit 140 further comprises an internal ejection hole 144 having a smaller number than the number of ejection holes 143 formed on the upper end. The method of claim 1, The first heating unit 120 and the third heating unit 140 maintain a constant interval, the heat source using a brown gas, characterized in that installed to be inserted into the hollow 131 of the second heating unit 130 Device. The method of claim 1, Heat source device using a brown gas, characterized in that the heat insulating member 150 is further installed on the outer circumferential surface of the second heating unit 130. The method of claim 1, The high frequency induction coil 160 is a heat source device using a brown gas, characterized in that is installed by winding the outer peripheral surface of the heat insulating member (150).

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