KR200319670Y1 - Loess Electric Panel - Google Patents

Abstract

The present invention relates to a loess boiler panel that significantly reduces the power consumption of the panel due to the heat storage properties of the loess by using a loess-containing heating pipe in the boiler panel. The main configuration of the present invention consists of a galvalume iron plate that transfers the heat generated in the upper and circumference to the outside, the heating bottom is formed inside the heating bar on the upper bottom of the galvalume iron plate and wrapped with the heating wire inserted and sealed Is installed, characterized in that the urethane is foamed inside the galvalume iron plate.

Description

Loess Boiler Panel {Loess Electric Panel}

The present invention relates to a loess boiler panel, and more particularly, to a loess boiler panel that significantly reduces the power consumption of the panel due to the heat storage properties of the loess by using a loess-embedded heating pipe as the boiler panel.

In general, the construction of electrical panels that can be installed relatively easily in places that require heating, such as offices, dormitories, apartments and prefabricated houses are widely used.

These electric panels are built with a thermoelectric inside the panel to change the electricity into heat energy to form a panel to a certain standard, when the installation area is large, it was used by connecting several panels.

However, since the electric panel uses only heat generated from a heating wire embedded in the panel as heating heat, power consumption is high because it needs to continuously supply electricity to maintain a constant temperature.

An object of the present invention for solving the above problems is to provide a loess boiler panel that significantly reduces the power consumption of the panel due to the heat storage properties of the loess by using a heating pipe embedded in the loess.

1 is a coupling state of the loess boiler panel according to an embodiment of the present invention.

FIG. 2 is a sectional view taken along the line II-II 'of FIG. 1; FIG.

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

<Description of the reference numerals for the main parts of the drawings>

1: Boiler Panel 2: Polyurethane

4: heating pipe 6: galvalume iron plate

8: wire 10: temperature controller

12: power plug 14: heating wire

16: loess 18: blocking cap

20: fixed plate

The ocher boiler panel of the present invention for achieving the above object consists of a galvalume iron plate for transferring the heat generated in the upper and circumference to the outside, the heating wire is formed on the inner bottom surface of the galvalume iron plate wrapped around the heating wire The ocher is inserted and sealed while the heating pipe is installed, and the urethane is foamed inside the galvalume iron plate.

Preferably, the lower surface of the boiler panel is provided with a fixed plate for maintaining a constant height of the foamed urethane, the heating pipe is characterized in that the rectangular shape.

Hereinafter, with reference to the accompanying drawings will be described in detail the loess boiler panel according to an embodiment of the present invention.

1 is a coupling state diagram of the ocher boiler panel according to an embodiment of the present invention, Figure 2 is a cross-sectional view of II-II 'of Figure 1, Figure 3 is a cross-sectional view of a heating pipe according to an embodiment of the present invention.

As shown in Figure 1, the upper and the circumference of the ocher boiler panel is formed with a galvalume iron plate 6 to evenly transfer the heat generated in the heating pipe to be described later. Galvalume iron plate (6) is manufactured in a shape having a height and width suitable for the size of the boiler panel (1).

As shown in Figs. 2 and 3, the heating pipe 4 is installed to be in close contact with the upper bottom of the galvalume iron plate (6). The heating pipe 4 is a rectangular tube made of aluminum or the like having excellent thermal conductivity and is formed to have a predetermined length suitable for the length of the boiler panel 1. In the center of the heating pipe 4 is provided a heating wire 14 for generating heat by power supply, and the ocher 16 which can accumulate the heat generated by the heating wire while surrounding the heating wire 14 is embedded as a heat storage material. . In addition, the blocking cap 18 is installed at both ends to prevent the heat storage material contained in the tube from leaking out.

The hot wire 14 is used in a general boiler panel and is insulated in the center of the heating pipe 4 by performing a triple protective coating insulation treatment such as a silicon coating on a conductor such as a nichrome wire or a copper wire.

The loess 16, which is a heat storage material, is mixed with the dried ocher powder and brine and put in the heating pipe 4 so that the ocher powder is viscous. At this time, by mixing the ocher powder and the brine while vibrating the heating pipe 4, the ocher can be evenly filled in the heating pipe (4).

The blocking cap 18 is used to seal the ocher 16 contained in the heating pipe 4 so as not to leak to the outside. Rubber or the like is used, and the blocking cap 18 is an electric wire 8 for supplying power to the heating wire 14. The perforations are formed so that) can be passed while maintaining airtightness. At this time, the blocking cap 18 and the heating pipe 4 may be completely sealed using silicon or the like.

The inside of the galvalume iron plate 6 is foamed polyurethane 2 to insulate the interior of the galvalume iron plate 6 in order to improve thermal insulation.

On the other hand, the lower surface of the boiler panel 1 may be installed in place of the galvalume iron plate fixed plate 20 made of paper to reduce the manufacturing cost of the boiler panel. Such a fixed plate 20 serves to support the polyurethane 2 to be foamed inside the galvalume iron plate 6 to be evenly foamed.

The boiler panel 1 thus formed is typically connected to a temperature controller 10 mounted on the boiler panel to control the temperature. The thermostat 10 has a power plug 12 connected to an external power source, and the wire 8 connected to the heating wire 14 through the perforation of the blocking cap 18 is extended to the heating pipe 4. It is extended.

<Example 1>

The time when the panel temperature reaches 60 ° C was measured at 10-minute intervals by supplying 180W of power to the loess boiler panel of the present invention, in which three heating pipes of 830mm, 1800mm and 2mm height were installed. , Shut down the power of the ocher boiler panel reached the temperature of 60 ℃ measured the time to drop to room temperature are shown in Table 1, respectively.

power Elapsed time Temperature On 10 minutes 12 ℃ 20 minutes 17 ℃ 30 minutes 21 ℃ 40 minutes 38 ℃ 50 minutes 54 ℃ 1 hours 60 ℃ Off 7 minutes 49 seconds 17 ℃

As shown in Table 1, the loess boiler panel of the present invention sufficiently reached the heating temperature of 60 ° C. within 1 hour, and when the power was cut off at 60 ° C., the temperature decreased to 17 ° C. after 7 minutes 49 seconds. have.

<Example 2>

After the same loess boiler panel as Example 1 reaches a temperature of 60 ° C., the temperature controller is set to a temperature of 60 ° C., and a time for which power is supplied and a time for which the power is cut for 1 hour is shown in Table 2.

Power On Time Power off time 00 minutes 14 seconds-02 minutes 05 seconds 02 minutes 06 seconds to 08 minutes 10 seconds 08 minutes 11 seconds ~ 10 minutes 07 seconds 10 minutes 08 seconds to 16 minutes 10 seconds 16 minutes 11 seconds-18 minutes 18 seconds 18 minutes 19 seconds to 24 minutes 17 seconds 24 minutes 18 seconds to 25 minutes 48 seconds 25 minutes 49 seconds-30 minutes 04 seconds 30 minutes 05 seconds ~ 31 minutes 50 seconds 31 minutes 51 seconds-35 minutes 47 seconds 35 minutes 48 seconds to 37 minutes 11 seconds 37 minutes 12 seconds ~ 46 minutes 02 seconds 46 minutes 03 seconds to 48 minutes 02 seconds 48 minutes 03 seconds to 54 minutes 18 seconds 54 minutes 19 seconds to 56 minutes 12 seconds 56 minutes 13 seconds to 60 minutes 00 seconds

As shown in Table 2, the time for which power was supplied with the power required to maintain the temperature of the boiler panel at 60 ° C was about 15 minutes per hour, and the time for which the power was cut off was about 45 minutes per hour. 3/4 of the power consumption could be saved.

Comparative Example

240W power was supplied to a 830 × 1800mm × 20mm general electrical panel manufactured by Ilil Electric Co., Ltd., and the time when the panel temperature reached 60 ℃ was measured at intervals of 10 minutes, and the power of the electrical panel reached 60 ℃. It was shown in Table 3 to measure the time to cut to room temperature by blocking the. Then, after reaching the temperature of 60 ℃ the electric panel was set to a temperature of 60 ℃ and measured the time that the power is supplied and cut off for 1 hour.

power Elapsed time Temperature On 10 minutes 17 ℃ 20 minutes 26 ℃ 30 minutes 33 ℃ 40 minutes 47 ℃ 50 minutes 58 ℃ 1 hours 60 ℃ Off 2 minutes 20 seconds 17 ℃

As shown in Table 3, the general electric panel reaches a heating temperature of 60 ° C. sufficiently within 1 hour, but when the power is cut off at 60 ° C., the general electric panel rapidly decreases to a temperature of 17 ° C. in 2 minutes and 20 seconds. On the other hand, only by continuously supplying power to the electrical panel was able to maintain the temperature of the electrical panel at 60 ℃.

Therefore, based on the experiments of the Examples and Comparative Examples, the loess boiler panel of the present invention is similar to the temperature efficiency up to the initial 50 minutes the temperature rises than the general electrical panel, but the temperature of the boiler panel is required to maintain 60 ℃ It can be seen that the power consumption is only about 15 minutes per hour, which can significantly reduce power consumption compared to an electric panel made of electricity alone.

Although the preferred embodiments of the present invention have been described in detail above, those of ordinary skill in the art to which the present invention pertains without departing from the spirit of the present invention as defined in the appended claims. All changes or modifications to the design will fall within the scope of the present invention.

As described above, the loess boiler panel of the present invention has the advantage of significantly reducing the power consumption of the boiler panel due to the heat storage properties of the loess by using the heating pipe built in the loess.

In addition, the lower surface of the galvalume iron sheet can be used to reduce the consumption of the galvalume iron sheet using a fixed plate made of paper.

Claims (3)

In the boiler panel, The upper part and the circumference are made of galvalume iron plate which transmits the generated heat to the outside, Heating wires are formed inside the upper bottom of the galvalume iron plate, and heating pipes are inserted and sealed with ocher inserted and enclosed. Ocher boiler panel characterized in that the urethane is foamed inside the galvalume iron plate. The loess boiler panel according to claim 1, wherein the heating pipe is rectangular. The loess boiler panel according to claim 1, wherein the lower surface of the boiler panel is provided with a fixing plate made of paper.