KR101105208B1 - Boiler with led - Google Patents

Abstract

The present invention relates to a boiler using a light emitting diode, and more particularly, to a boiler using a light emitting diode used to heat water in a pipe by using heat generated from the light emitting diode.

According to the present invention, it is possible to achieve the same heating effect even at low power as compared to a boiler for burning oil or gas, thereby reducing the heating cost in winter.

Light Emitting Diode, Boiler, Thermal Oil, Metal PCB

Description

Boiler using light emitting diode {BOILER WITH LED}

The present invention relates to a boiler using a light emitting diode, and more particularly, to a boiler using a light emitting diode used to heat water in a pipe by using heat generated from the light emitting diode.

A boiler is a heating device that warms a room, office, or greenhouse by heating water with combustion heat generated by burning gas or oil.

In general, the boiler heats the heating water pipe installed inside the combustion chamber while heating the inside of the closed combustion chamber to raise the temperature of the heating water. Heating pipes are usually made of U-shaped tubes to increase the contact time with the flame.

The heating water whose temperature rises by the flame while passing through the heating water pipe flows along the pipe installed on the floor of the home or office, thereby transferring heat, thereby warming the room or office.

By the way, the boiler according to the prior art mostly heats the heating water by the heat generated by burning oil or gas, harmful substances such as carbon monoxide or nitrogen compounds are generated in the combustion process of oil, such as to harm the human body. In order to discharge the compounds generated during the combustion process, a separate communication must be installed, thus increasing the construction cost and being subject to spatial constraints.

In addition, the flame generated during the combustion process has a high temperature of about several hundred ℃, the heating water is the maximum temperature of about 80 ℃ because the remaining heat is released, there is a problem that the thermal efficiency is lowered. When the boiler's thermal efficiency drops, the heating cost rises proportionally.

The present invention for solving the above problems is to use a boiler using a light emitting diode to heat the heating water inside the boiler by using the heat generated from the light emitting diode (LED) designed to emit light to achieve efficient heating with only a small power It aims to provide.

The present invention for solving the above problems is a heating boiler, water tank for storing the heating water; A heat medium oil tank in which a heat medium oil is stored in a storage space formed therein and a heat exchange pipe through which the heating water discharged from the water tank flows passes through the inside of the storage space; A metal PCB installed in close contact with the lower surface of the heat medium oil tank; A plurality of light emitting diodes mounted on the metal PCB; And a power supply unit for supplying DC power to the light emitting diode, wherein the temperature of the heat medium oil stored in the heat medium oil tank is increased by the heat generated from the light emitting diode, and when the temperature of the heat medium oil is increased, the heating water flowing inside the heat exchange pipe. It is characterized in that the temperature of the rising, the heat medium oil tank is installed in plurality, characterized in that the temperature is gradually increased while the heating water passes through the plurality of heat medium oil tanks.

The plurality of heat medium oil tanks are installed in a vertical direction from the top to the bottom, and a reflecting plate for reflecting heat is attached to an upper surface of the heat medium oil tank.

When the amount of water in the water tank is reduced to less than a predetermined level, a direct pipe for supplying water to the heat exchange pipe for replenishing this; further includes.

A water level sensor installed inside the water tank to detect a level of heating water in the water tank; A replenishment valve connected to the water level sensor and opened to allow the replenishment water supplied from the outside to flow into the heat exchange pipe through the straight pipe when the amount of water detected by the water level sensor is reduced to a predetermined level or less; It includes.

According to the present invention, it is possible to achieve the same heating effect even at low power as compared to a boiler for burning oil or gas, thereby reducing the heating cost in winter.

In addition, the present invention can heat the heating water only by the power of electricity without generating any carbon dioxide or other combustion compounds, there is an effect that can be environmentally friendly heating in accordance with the purpose of green growth.

In addition, since the light emitting diode is driven by a direct current power source, it is possible to prevent the user from being injured by electric shock.

Hereinafter, a boiler (hereinafter, referred to as a boiler) using a light emitting diode according to an embodiment of the present invention will be described with reference to the drawings.

1 is a cross-sectional view showing the structure of a boiler according to an embodiment of the present invention, Figure 2 is a perspective view showing a connection state of the heat medium oil tank.

Although not shown in the drawings, the boiler 100 of the present invention is generally mounted in a rectangular parallelepiped or cylindrical case. The case is mainly made of steel, and a storage space for accommodating various devices is formed in the case. The case surface is provided with a number of holes through which pipes allow heating water to flow in or out.

The water tank 102 is installed inside the case. The water tank 102 is a space for storing heating water, and is manufactured to store tens of liters to hundreds of liters of water depending on the intended use. At the bottom of one side of the water tank 102, a valve 104 is installed so that water can be used for heating or bathing.

The water discharge pipe 106 for discharging low-temperature heating water is installed in the upper portion of the water tank 102, and the water inlet pipe 110 for introducing high-temperature heating water is installed in the lower portion. The water discharged through the water discharge pipe 106 is heated to a high temperature by the heat medium oil, and then enters into the water tank 102 through the water inlet pipe 110. In order to maintain the temperature of the heating water in the water tank 102, it is preferable that a heat insulating material is attached to the outer wall of the molten tank 102.

The water discharge pipe 106 is provided with a pump 108 so that the heat exchange can be made while the heating water flows smoothly. In the drawings of the present invention, the pump 108 is shown as being installed in the water discharge pipe 106, the pump may be installed in the water inlet pipe (110).

The heating water passing through the water discharge pipe 106 and the pump 108 is heated while passing through the heat exchange pipe 114 installed in the heat medium oil tank 112.

The heat medium oil tank 112 is a device for heating heating water using high temperature heat medium oil, and a storage space for storing the heat medium oil is formed therein, and the heat medium oil directly contacts the outer surface of the heat exchange pipe 114.

Thermal oil is divided into mineral oil and synthetic oil. Mineral oil is a heat transfer medium made of high viscosity oil extracted from minerals. It has high specific heat and thermal conductivity and is an effective heat transfer medium to warm heating water to the desired temperature in a short time. .

Synthetic oil is a heat transfer oil that improves heat transfer rate and improves stability by transforming raw materials (crude oil) through a chemical process, and has physical properties similar to mineral oil-based heat transfer oil.

When the temperature of the heat medium oil filled in the heat medium oil tank 112 increases, the heat exchange pipe 114 surrounded by the heat medium heats up, and the temperature of the heating water flowing therein also increases.

In the present invention, a light emitting diode (LED) is used as a device for heating the thermal oil.

The metal PCB 116 is installed in close contact with the lower surface of the heat medium oil tank 112. A plurality of light emitting diodes 118 are installed in the metal PCB 116, and a power supply unit (not shown) for supplying DC power to the light emitting diodes 118 is installed inside or outside the boiler 100.

In general, the light emitting diode is a light emitting device that emits light by supplying a direct current power source, and has the advantage of being able to emit strong light even at low power, compared to incandescent lamps and fluorescent lamps, but it generates a lot of heat from the PCB to shorten the life of the LED. There is a problem. Conversely, if the heating device can be turned by using the waste heat generated from the light emitting diodes, it is possible to provide high efficiency heating even at low power.

In the metal PCB 116 of the present invention, a lot of heat is generated as the light emitting diode 118 emits light, and the heat is transferred to the heat medium oil tank 112 to increase the temperature of the heat medium oil.

Generally, when the temperature of the light emitting diode 118 exceeds 150 ° C., the life of the device is drastically reduced, but the life of the light emitting diode 118 is not severely reduced. Therefore, in the present invention, the light emitting diode 118 adjusts the strength of the current to operate at a temperature of about 100 ℃ to 150 ℃.

In addition, the metal PCB 116 has an advantage that the deformation does not occur even at a temperature of 200 ℃ or more because of the heat resistance compared to the plastic PCB.

The method of finely controlling the heating temperature by adjusting the magnitude of the current supplied to the light emitting diode 118 is to use a variety of dimming switches disclosed in the prior art, and thus, a detailed description thereof will be omitted.

Heat generated in the light emitting diode 118 is transferred to the heat medium oil, and then is transferred to the heating water inside the heat exchange pipe 114.

In the present invention, the metal PCB 116 is described as being attached to the lower surface of the heat medium oil tank 112, but may also be attached to the upper surface or the side. However, due to the convection of heat transfer to the thermal oil, the heat transfer efficiency is the highest.

On the other hand, in the present invention, by installing the heat medium oil tank 112 in which the heat exchange is carried out in multiple stages so that the heating stepwise.

As shown in Figure 2, while the low temperature heating water passes through the first heat medium oil tank (112a), the first temperature rise is made, while passing through the second heat medium oil tank (112b) and the third heat medium oil tank (112c) in turn. Gradual temperature rise is achieved.

The reason why the heat exchange is made in multiple stages is that the temperature rise of each stage can be set small, so that the thermal efficiency is higher and the temperature of the heating water can be more precisely controlled.

In addition, the heat and light generated from the light emitting diode 118 is reflected by the reflecting plate 120 attached to the upper surface of the heat medium oil tank 112 installed below and is transferred upward to the heat medium oil tank 112 again. As such, the light and heat emitted from the light emitting diodes 118 may be recovered and used to heat the heating water.

On the other hand, the direct pipe 122 is connected to the heat exchange pipe 114 inside the heat medium oil tank 112 located at the top. The direct water pipe 122 is connected to an external water pipe, and when the amount of water in the water tank 102 is reduced to a predetermined level or less, it is a pipe for supplying water.

The water level sensor 124 is provided inside the water tank 102, and the water level sensor 124 detects the amount of water while detecting the water level of the water in the water tank 102. When the amount of water sensed by the water level sensor 124 is below a predetermined level, the replenishment valve 126 connected to the water level sensor 124 is opened and the replenishment water is introduced into the heat exchange pipe 114 through the direct water pipe 122.

If the direct water pipe 122 is directly connected to the water tank 102, since the external cold water directly enters the water tank 102, the temperature of the water inside the water tank 102 is changed drastically. In this case, the temperature of the water used for heating or bath is changed to give an inconvenience to use, to supply the supplementary water to the heat exchange pipe 114 is a heat transfer in order to eliminate the temperature change of the heating water.

Although the preferred embodiments of the present invention have been described above with reference to the accompanying drawings, the above-described technical configuration of the present invention may be embodied by those skilled in the art to which the present invention pertains without changing its technical spirit or essential features of the present invention. It will be appreciated that the present invention may be practiced as. Therefore, the above-described embodiments are to be understood as illustrative and not restrictive in all respects, and the scope of the present invention is indicated by the appended claims rather than the detailed description, and the meaning and scope of the claims and All changes or modifications derived from the equivalent concept should be interpreted as being included in the scope of the present invention.

1 is a cross-sectional view showing the structure of a boiler according to an embodiment of the present invention.

Figure 2 is a perspective view showing a connection state of the heat medium oil tank.

Claims (4)

As a heating boiler, A water tank for storing heating water; A heat medium oil tank having a reflective plate reflecting heat, and having a heat medium oil stored in a storage space formed therein, and a heat exchange pipe through which the heating water discharged from the water tank flows through the inside of the storage space; A metal PCB installed in close contact with the lower surface of the heat medium oil tank; A plurality of light emitting diodes mounted on the metal PCB; And a power supply unit supplying DC power to the light emitting diodes. The temperature of the heat medium oil stored in the heat medium oil tank is increased by the heat generated from the light emitting diode, and when the temperature of the heat medium oil is increased, the temperature of the heating water flowing inside the heat exchange pipe is increased. The heat medium oil tank A plurality of boilers are installed in a vertical direction from the top to the bottom, and the temperature of the heating is gradually increased while passing through the plurality of heat medium oil tanks. delete The method of claim 1, When the amount of water in the water tank is reduced to a predetermined level or less, a direct pipe for supplying water to the heat exchange pipe for replenishing it; further comprising a boiler using a light emitting diode. The method of claim 3, A water level sensor installed inside the water tank to detect a level of heating water in the water tank; A replenishment valve connected to the water level sensor and opened to allow the replenishment water supplied from the outside to flow into the heat exchange pipe through the straight pipe when the amount of water detected by the water level sensor is reduced to a predetermined level or less; Included with, the boiler using a light emitting diode.

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