KR200250625Y1 - Electric boiler using thermal storage material - Google Patents

Abstract

Disclosed is an electric boiler using a heat storage material that is heated for a short time and heat is stored for a long time. Electric boiler using the heat storage material is very economical because the surface temperature of the pipe rises by about 67 ~ 85 ℃ based on 50W ~ 70W per 1m of the heating wire. In addition, since a separate boiler for burning fuel does not need to be installed, it is more economical and can be easily installed without restriction of a place.

Description

Electric boiler using heat storage material {ELECTRIC BOILER USING THERMAL STORAGE MATERIAL}

The present invention relates to an electric boiler using a heat storage material that is heated for a short time and at the same time heat storage.

In general, the heating device is composed of a metal pipe or a PVC pipe in which water heated by a combustion heat generated by the boiler and a boiler burning oil or gas are stored. Thus, the water is heated, and the heated water is circulated to perform heating.

However, the conventional heating apparatus as described above has a disadvantage in that the heating cost is high because it uses expensive oil or gas as a fuel.

In addition, since it is necessary to purchase a separate boiler for burning fuel such as oil or gas, it is more economical.

In addition, since the space to be installed a boiler having a predetermined volume should be provided, not only the installation place is limited but also has a disadvantage in that it is difficult to maximize space utilization.

In addition, the heating time is high due to the high density of the water is heated, there is a disadvantage that the heat loss occurs because the heated water is circulated.

The present invention was created to solve the above problems, the object of the present invention is to heat the heat by using a heat storage material whose main ingredient is salt that accumulates heat for a long time and at the same time, heat storage that can save energy It is to provide an electric boiler using a material.

Another object of the present invention is to provide an electric boiler using a heat storage material that can be easily installed as well as maximize the space utilization by heating only electricity without using a boiler.

1 is a perspective view of an electric boiler according to an embodiment of the present invention.

2 is a partially cutaway perspective view of portion 'A' of FIG. 1.

3 is a cross-sectional view of a heating wire according to an embodiment of the present invention.

Figure 4 is an exploded perspective view 'B' portion of FIG.

5 is a view showing an installation state of the electric boiler according to an embodiment of the present invention.

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

110: control box 120: electric wire

130 pipe 140 hot wire

150: temperature sensor 160: sealing tube

Electric boiler using the heat storage material according to the present invention for achieving the above object is connected to the external power source and the control box provided with a switch, PP-C (PolyPropropylen-Copolymer) material or PP installed on the floor having a predetermined length -E (PolyPhenylene-Ether) pipe, the heat storage material stored inside the pipe, one end is connected to the control box and the other end is located inside one end and the other end of the pipe, respectively, PP-C A pair of wires coated with ash or PP-E material, and a heating wire embedded in the pipe and connected to the other end of the pair of wires to heat the heat storage material and coated with the same material as that of the wire. A sealing tube which is made of the same material as the wire and the heating wire and is coupled in a form surrounding the connection portion of the wire and the heating wire, and is connected to the control box. In the electric boiler using a heat storage material provided on one side of the pipe having a temperature sensor for sensing the temperature of the pipe,

Both ends of the pipe are made of the same material as the pipe, and one end of the elbow, which is open at both ends, is integrally fused by high frequency welding, and the other end of the elbow is provided of the same material as the elbow and has a lower surface. The stopper is integrally fused by high frequency welding, and the electric wire is positioned inside the pipe through the top of the stopper, and the heat storage material is 60 ± 1 wt% of salt (NaCl) and water (H ₂ O). 19 ± 1% by weight, sodium hydroxide (NaOH) 20 ± 1% by weight and acetic acid (C ₂ H ₄ O ₂ ) 1 ± 0.1% by weight.

Hereinafter, with reference to the accompanying drawings will be described in detail an electric boiler using a heat storage material according to an embodiment of the present invention.

The heat storage material used in the electric boiler according to the present embodiment will be described.

ingredient Component ratio (weight%) Salt (NaCl) 60 ± 1 Water (H ₂ O) 19 ± 1 Sodium Hydroxide (NaOH) 20 ± 1 Acetic acid (C ₂ H ₄ O ₂ ) 1 ± 0.1

As shown in Table 1, the heat storage material according to the present embodiment is the salt water, since the salt emits a large amount of infrared radiation has the effect of the poultice. Sodium hydroxide dissolves salt from solid to liquid to prevent salt from solidifying, and acetic acid acts as a catalyst to allow the brine to heat up quickly.

An electric boiler using the heat storage material will be described with reference to FIG. 1. 1 is a perspective view of an electric boiler according to an embodiment of the present invention.

As shown, having a switch 111 is provided with a control box 110 to be installed on the wall. One side of the wire 120 is connected to the control box 110, the other side of the wire 120 is installed in a pipe 130 of PP-C (PolyPropropylen-Copolymer) or PP-E (PolyPhenylene-Ether) material to be described later do. In addition, the control box 110 is connected to a power supply line 113 for transmitting external power to the wire 120.

Pipe 130 according to this embodiment is provided with a PP-C material or PP-E material having a predetermined length. PP-C or PP-E pipe is the most ideal pipe with excellent life, economy, pollution-free and heating ability because it has no corrosion or scale compared to steel pipe or copper pipe.

The wire 120 connected to one side of the control box 110 is provided in a pair, and the other end of one of the wires 121 and the other wire 123 is one end and the other end of the pipe 130, respectively. It is located inside of each. Thus, the other end of the one wire 121 and the other wire 123 is connected to the heating wire 140 embedded in the pipe 30. The heating wire 140 receives the electric current from the electric wire 120 and heats it, thereby heating the heat storage material.

The temperature sensor 150 is installed to be spaced apart from the pipe 130 by a predetermined distance, and the temperature of the pipe 130 detected by the temperature sensor 150 is transmitted to the control box 110 through the copper wire 151. Then, will the control box 110 cut off the power supplied to the heating wire 140 by comparing the set temperature and the sensed temperature? Decide? That is, it is determined whether the heat storage material heated by the heating wire 140 is heated.

Inside the pipe 130 is 60 ± 1% by weight of salt (NaCl), 19 ± 1% by weight of water (H ₂ O), 20 ± 1% by weight of sodium hydroxide (NaOH), and 1 ± acetic acid (C ₂ H ₄ O ₂ ) 1 ±. The heat storage material composed of 0.1% by weight is stored. The heat storage material is heated when external power is supplied to the heating wire 140 to supply heat for heating.

The connecting portion of the electric wire 120 and the heating wire 140 of the electric boiler according to the present embodiment is completely sealed, which will be described with reference to FIGS. 2 and 3. 2 is a partially cutaway perspective view of portion 'A' of FIG. 1, and FIG. 3 is a cross-sectional view of a heating wire according to an embodiment of the present invention.

As shown, the hot wire 140 has a copper wire 141 and a sheath 145 surrounding the copper wire 141. Sheath 145 has first, second, and third sheaths 142, 143, and 144. The first coating 142 is made of glass yarn, the second coating 143 is made of silicon rubber, and the third coating 144 is made of PP-C material or PP-E material. Therefore, even when the heating wire 140 is built in the pipe 130 in which the heat storage material is stored, the heat storage material does not flow into the copper wire 141 side of the heating wire 140.

PP-C material or PP- is applied to the portion where the wire 120 and the heating wire 140 are interconnected, that is, the portion where the coating 120a of the wire 120 and the third coating 144 of the heating wire 140 are removed. The sealing tube 160 of the E material is wrapped. The sealing tube 160 is integrally fused by ultrasonic welding with the sheath 120a of the electric wire 120 and the third sheath 144 of the heating wire 140, respectively, whereby the electric wire 120 and the hot wire 140 are Entry of heat storage material into the interconnected sites is prevented. In summary, the covering 120a of the electric wire 120, the third covering 144 of the heating wire 140, and the sealing tube 160 are provided of the same material.

The elbow 171 and the stopper 175 are installed at both ends of the pipe 130 of the electric boiler according to the present embodiment, which will be described with reference to FIG. 4. Figure 4 is an exploded perspective view of the 'B' portion of Figure 1, Figure 5 is a view showing an installation state of the electric boiler according to an embodiment of the present invention.

As shown, both ends of the pipe 130 has the same material as the pipe 130, and one end side of the elbow 171, which is open at both ends, are coupled, respectively, and the other end of the elbow 171 is closed at the end of the stopper. The lower end side of 175 is respectively coupled. Pipe 130, elbow 171, elbow 171 and stopper 175 are integrally fused by high frequency welding, respectively, thereby connecting the pipe 130 and the elbow 171 and the elbow 171 and The heat storage material is prevented from leaking through the connection portion of the stopper 175. That is, the pipe 130, the elbow 171 and the stopper 175 is provided with the same material. In addition, the wire 120 passes through the top surface of the stopper 175 and is positioned inside the pipe 130.

Pipe 130 according to the present embodiment is preferably installed on the floor, the stopper 175 is preferably installed on the wall. At this time, the pipe 130 is difficult to bend at 90 ° due to its material characteristics, the elbow 171 is installed at the corners of the boundary between the bottom and the wall to connect the pipe 130 and the stopper 175.

As described above, the electric boiler using the heat storage material according to the present invention is very economical because the surface temperature of the pipe rises by about 67 ~ 85 ℃ based on 50W ~ 70W per 1m of the heating wire.

In addition, since a separate boiler for burning fuel does not need to be installed, it is more economical and can be easily installed without restriction of a place.

In the above, the present invention has been described in accordance with one embodiment of the present invention, but those of ordinary skill in the art to which the present invention has been changed and modified within the scope without departing from the spirit of the present invention of course the present invention Belongs.

Claims (3)

A control box connected to an external power source and provided with a switch, a pipe of PP-C (PolyPropropylen-Copolymer) or PP-E (PolyPhenylene-Ether) material having a predetermined length and installed therein, and heat storage stored inside the pipe. And a pair of wires connected to the control box, one end of which is connected to the control box and the other end of which is located inside one end of the pipe and the other end of the pipe and coated with PP-C or PP-E material. A heating wire which is built-in and is connected to the other end of the pair of electric wires to heat the heat storage material and is coated with the same material as that of the electric wire covering, and is made of the same material as the electric wire and the hot wire, and the connection portion between the electric wire and the hot wire Sealed tube coupled in the form of enclosing, and connected to the control box is installed on one side of the pipe to obtain a temperature sensor for sensing the temperature of the pipe An electric boiler using a heat storage material, Both ends of the pipe are made of the same material as the pipe, and one end side of the elbow, which is open at both ends, is integrally fused by high frequency welding, respectively. On the other end side of the elbow is provided with the same material as the elbow and the stopper is opened at the bottom is integrally fused by high frequency welding, respectively. The wire is positioned inside the pipe passing through the top surface of the stopper, The heat storage material is 60 ± 1% by weight of salt (NaCl), 19 ± 1% by weight of water (H ₂ O), 20 ± 1% by weight of sodium hydroxide (NaOH) and 1 ± 0.1% by weight of acetic acid (C ₂ H ₄ O ₂ ). Electric boiler using a heat storage material, characterized in that configured. The method of claim 1, The coating of the hot wire comprises a first coating of glass yarn material, a second coating of silicon rubber material surrounding the first coating, and a third coating of the same material as the coating of the electric wire surrounding the second coating. An electric boiler using a heat storage material characterized in that. The method of claim 1, The electric boiler using the heat storage material, characterized in that the coating of the wire and the sealing tube and the heating wire and the sealing tube are integrally fused by ultrasonic welding.