KR100414851B1 - Air heater using liquid natural gas or liquid propane gas - Google Patents

Abstract

The present invention is a hot air fan using liquefied natural gas or liquefied propane gas, to generate heat by igniting a gas such as liquefied natural gas or liquefied propane gas ejected through the burner and the air sucked through the air inlet, By placing a hot plate made of ceramic material on the front of the burner, the thermal efficiency is maximized.The heat generated from the combustion chamber increases the temperature of the air in the radiation chamber and blows the warm air through the hot air outlet by the blowing force according to the rotation of the fan. The present invention relates to a drying gas hot air fan capable of controlling and controlling temperature by adjusting a temperature of a room such as a factory and installing a temperature sensor.

Description

Hot air fan using liquefied natural gas or liquefied propane gas {Air heater using liquid natural gas or liquid propane gas}

The present invention relates to a hot air fan (10) using liquefied natural gas or liquefied propane gas. More specifically, the liquefied natural gas or liquefied propane gas ejected through the air inlet 130 and the liquefied natural gas or liquefied propane gas ejected through the gas burner 20 are ignited by the igniter 40 to generate heat, and the ceramic is placed on the front of the burner. Maximizing thermal efficiency by placing the hot plate 180 made of a material, injecting waste heat back to the hot air by the heat exchanger 200 in the process of discharging the gas incompletely burned in the combustion chamber to the outside of the hot air, generated in the combustion chamber 30 Drying for adjusting the temperature of the room such as a machine shop by raising the temperature of the air in the radiation chamber 190 and discharging the heated air through the hot air outlet 140 by the blowing force according to the rotation of the blowing fan 120. It relates to the gas hot air blower (10).

Conventional hot air fan adopts indirect hot air method using light oil or petroleum, so if it is used continuously for 3 ~ 4 years, there is a problem that the performance and efficiency of the machine are lowered and it becomes impossible to use it, As it is required to replace with new equipment, it is impossible to continue production activities and operation, and thus the facility must be replaced, resulting in considerable economic and time loss. Furthermore, the use of diesel, oil, etc. as a fuel not only causes various gases and pollution, but also causes serious pollution to environmental pollution and health of drivers and workers.

In addition, a conventional gas hot air heater is a heating device that heats a room while heat-exchanging cold air with hot air by using combustion heat obtained by burning a gas, which is generally a fuel, and a fan housing is fixed to a main body and a lower part of the main body. A blower fan which rotates in response to a driving force of a motor installed inside the fan housing and provides a blow force, and a suction grill installed at a lower portion of the front of the main body to suck air into the main body when a blow force occurs due to rotation of the blower fan; A combustion chamber fixed to an upper side of the fan housing to support various components inside the main body, and a combustion chamber positioned at one side of the barrier fan directly above the blower fan to combust the mixed gas, and installed in the combustion chamber and mixed gas of gas and air Burner having a plurality of slit holes to be injected into the combustion chamber, and A gas supply pipe for supplying air and an air supply pipe for supplying air for injection of the gas, an air supply fan installed in a burner connection portion of the air supply pipe, and providing a supply power of air through the air supply pipe, and positioned inside the burner. An injection nozzle mounted and injecting gas supplied through a gas supply pipe into the combustion chamber together with air, a gas valve installed in the gas supply pipe to selectively open and close a gas supply pipe, and connected to an upper portion of the combustion chamber. A heat exchanger for heat-exchanging cold air sucked into the hot air by combustion heat, a gas discharge pipe connected to one of the heat exchangers to discharge the combustion gas after heat-exchanging cold air, and the front of the main body Installed in the upper part of the hot air heat exchanged by the heat exchanger to the outside of the body That to be composed of the discharge grill.

Therefore, when the user operates while the device is installed in place in the room, first, the air supply fan rotates under the control signal of the controller, so that the outside air is sucked through the air supply pipe. Thereafter, the sucked air enters the combustion chamber through the burner while the air supply fan continues to rotate, and then continues for several minutes with a pre-purging process through the heat exchanger and out through the gas discharge pipe.

The pre-purging process is to completely discharge the remaining gas remaining in the combustion chamber to the outside and to block the risk of explosion of the combustion chamber by the remaining gas when the gas, which is a fuel, is initially burned in the combustion chamber.

After the pre-purging process is performed, the air supply fan continues to rotate to suck outside air, and at the same time, a gas valve installed in the gas supply pipe receives a control signal from the controller and gas is supplied through the gas supply pipe. The gas supplied in this way is ejected into the burner through the gas ejection hole of the injection nozzle. At this time, since the air is supplied through the air supply pipe into the burner, the ejected gas is mixed with the air and injected into the combustion chamber through each slit hole formed in the burner, and in this process, the ignition means operates to ignite the flame in the mixed gas injected. As a result, the mixed gas is combusted in the combustion chamber.

Accordingly, combustion heat is generated in the combustion chamber, which heats the heat exchanger located above the combustion chamber and then exits to the outside through the gas discharge pipe.

In addition, since the blowing fan rotates under the driving force of the motor as the gas is burned, a blowing force is generated, and the air in the room is sucked into the main body through the suction grill and then moved to the upper part of the main body. After that, the air is heat-exchanged by the heat of combustion as it passes through the heat exchanger and is converted into hot air, and then is discharged into the room through a discharge grill installed on the front of the main body to heat the room.

However, such a conventional gas hot air fan can not accurately sense the temperature and control the temperature, so there is a problem in that the quality of the product during processing, production and intermediate processes decreases and the defective rate increases.

The technical problem to be achieved in the present invention is to generate heat by igniting the liquefied natural gas or liquefied propane gas ejected through the air inlet 130 and the liquefied natural gas or liquefied propane gas through the gas burner 20, the burner Maximizing thermal efficiency by placing a hot plate 180 made of a ceramic material on the front of the, and injecting waste heat back to the hot air by the heat exchanger 200 in the process of discharging the incompletely burned gas from the combustion chamber to the outside of the hot air, the combustion chamber ( The heat generated in 30 increases the temperature of the air in the radiation chamber 190 and discharges the warm air through the counter-wind outlet 140 by the blowing force according to the rotation of the blower fan 120, thereby reducing the indoor temperature of the machine shop or the like. Degradation and defective rate of the product during processing, production and intermediate process by adjusting the temperature sensor and enabling accurate temperature control It is to provide a drying gas hot air fan that can solve this increasing problem.

1 is a configuration diagram showing the overall configuration of a drying gas hot air blower of the present invention.

2 is a side view of the gas burner of the present invention.

3 is a front view of the gas burner of the present invention.

※ Explanation of drawing code

10. Gas Heater 20. Gas Burner

30. Combustion chamber 40. Igniter

50. Gas control valve 60. Gas pressure gauge

70. Gas pressure switch 80. Gas solenoid valve

90. Gas regulator 100. Gas filter

110. Gas hose 120. Blower fan

130. Air intake 140. Hot air outlet

150.Gas injection nozzle 160.Hose hole

170. Fixing hole 180. Hot plate

190. Copy room 200. Heat exchanger

Accordingly, an object of the present invention is to provide the igniter 40 with the gas drawn through the gas burner 20 and the air sucked through the air inlet 130 in the hot air fan 10 using the liquefied natural gas or liquefied propane gas. By igniting to generate heat, by placing a hot plate 180 made of a ceramic material on the front of the gas burner 20 to maximize the thermal efficiency, the heat exchanger 200 in the process of discharging the incomplete combustion gas in the combustion chamber to the outside of the hot air blower The waste heat is injected into the hot air again, and the heat generated in the combustion chamber 30 increases the temperature of the air in the radiation chamber 190, and the warm air is heated by the blowing force according to the rotation of the blower fan 120. Liquefied natural gas or liquefied propane gas that can control the temperature by controlling the temperature inside the machine shop, etc. It is to provide a hot air fan using.

On the other hand, the gas burner 20 has a conical shape and the gas hose 110 is connected to the hose hole 160 of the gas burner to supply gas, and the gas supplied through the hose hole 160 is a gas injection nozzle. It is characterized in that the injection through the 150 to the combustion chamber.

As the fuel gas used in the present invention, liquefied natural gas (LNG) or liquefied propane gas (LPG) may be used, and due to the use of these fuel gases, the fuel gas may exhibit high thermal efficiency as compared to a conventional hot air blower for burning diesel oil and petroleum. have.

Hereinafter, with reference to the accompanying drawings will be described in detail.

1 is a block diagram showing the overall configuration of a hot air fan using the liquefied natural gas or liquefied propane gas of the present invention. As shown in the figure, the gas in the gas tank is purified through the gas filter 100 and then adjusted to a desired pressure by the gas pressure switch 70, and then the pressure adjusted by the gas regulator 90 is adjusted to a gas pressure measuring instrument ( 60 through the gas solenoid valve 80 is passed through the gas control valve is passed to the gas burner 20 through the gas hose 100.

The gas delivered to the gas burner 20 is injected into the combustion chamber 30 through the gas injection nozzle 150 of the burner and is ignited and combusted by the gas igniter 40 installed at the center of the burner.

The heat generated from the gas burner 20 increases the temperature of the hot plate while passing through the hot plate 170 installed at the front of the gas burner. The hot plate 180 rapidly increases in temperature, and the heat passing through the hot plate is a radiation chamber. The air temperature of 190 is increased. The hot plate is preferably made of a ceramic material.

On the other hand, incomplete combustion of the gas in the combustion chamber is injected into the combustion chamber of the hot air by the heat exchanger 200 in the process of being discharged to the outside of the hot air through the chamber of the combustion chamber, thereby further maximizing the thermal efficiency of the hot air fan. .

The heated air in the radiation chamber 190 discharges the warm air through the hot air outlet 140 by the blowing force according to the rotation of the blower fan 120.

2 is a side view of the gas burner of the present invention. As shown in the figure, the gas burner 20 has a conical shape, and the gas hose 110 is connected to the hose hole 160 of the gas burner to supply gas, and the gas supplied through the hose hole 160. Is injected into the combustion chamber through the gas injection nozzle (150). The gas burner is installed in the drying gas hot air fan 10 by the fixing hole 170.

3 is a front view of the gas burner of the present invention. As shown in the figure, the gas burner 20 has a conical shape, and a gas injection nozzle 150 is formed therein.

The effect of the present invention is to ignite the liquefied natural gas or liquefied propane gas ejected through the air inlet 130 and the gas burner 20 by the igniter 40 to generate heat, in front of the burner Maximizing thermal efficiency by placing the hot plate 180 made of a ceramic material, injecting waste heat back to the hot air by the heat exchanger 200 in the process of discharging the gas incompletely burned out of the combustion chamber to the outside of the hot air, in the combustion chamber 30 The generated heat raises the temperature of the air in the radiation chamber 190 and discharges the warm air through the hot air outlet 140 by the blowing force according to the rotation of the blower fan 120 to control the temperature in the room of the machine shop and the like. It is possible to control the temperature precisely by attaching a sensing sensor to solve the problem of deterioration of product quality and increase of defective rate during processing, production and intermediate process. And it can be, and the thermal efficiency is much better than the yeolpunggi using existing fuels, and even compared it to the existing oil yeolpunggi can prevent the plant operator and the deteriorating health of workers due to environmental pollution in advance.

Claims (4)

In the gas hot air blower 10 using liquefied natural gas or liquefied propane gas, the air sucked through the air inlet 130 and the liquefied natural gas or liquefied propane gas blown out through the gas burner 20 are supplied to the igniter 40. By igniting to generate heat, by mounting the hot plate 180 made of a ceramic material on the front of the gas burner 20, by the heat exchanger 200 in the process of discharging the gas incompletely burned in the combustion chamber to the outside of the hot air blower The waste heat is injected into the hot air again, and the heat generated in the combustion chamber 30 increases the temperature of the air in the radiation chamber 190 and blows the warm air through the hot air outlet 140 by the blowing force according to the rotation of the blower fan 120. Gas hot air fan using liquefied natural gas or liquefied propane gas characterized by discharging The gas burner 20 has a conical shape, and the gas hose 110 is connected to the hose hole 160 of the gas burner to supply gas and is supplied through the hose hole 160. Gas is a gas hot air blower using liquefied natural gas or liquefied propane gas, characterized in that the gas is injected into the combustion chamber through the gas injection nozzle 150 The gas hot air blower using liquefied natural gas or liquefied propane gas according to claim 1, characterized in that a heat exchanger is installed on the gas hot air blower (10). The gas hot air blower using liquefied natural gas or liquefied propane gas according to claim 1, further comprising a temperature sensor in the gas hot air blower (10).