KR200358442Y1 - Heating stone board using direct current - Google Patents

Abstract

Disclosed is a heating stone panel using the present invention DC power supply. The present invention relates to a heating stone panel using a rectified AC power supplied as a DC power supply and using carbon (carbon, carbon) powder capable of high temperature heat generation and low heat loss as a heat source.

According to the configuration, the power supply lines are formed to have a predetermined size and thickness, and the two power supply lines for supplying DC power to the bottom are side by side, and the plurality of power supply lines are alternately arranged in the vertical direction of the respective power supply lines. It consists of a stone panel and a heat generating layer formed by mixing and coating carbon (carbon, carbon) powder and a binder on the bottom surface of the stone panel, and rectifies the AC power input from the external power terminal to a DC power supply to the power supply line It characterized in that it comprises a DC power supply.

Therefore, DC power is used to solve the harmful effects of electromagnetic waves, and it is possible to generate high temperature heat and use carbon powder which has low heat loss. Do. In addition, by installing a heating device in the rear when the finishing material or floor construction using a conventional stone panel has a large effect of solving the problems such as increased construction cost and prolonged construction time.

Description

Stone heating panel using DC power {HEATING STONE BOARD USING DIRECT CURRENT}

The present invention utilizes the characteristics of carbon (carbon, carbon) powder to convert electrical energy into thermal energy, rectifies AC power input from an external power supply terminal to supply a DC power supply and the carbon (carbon, carbon) by the DC power supply It relates to a stone heating panel in which a heating layer made of powder generates heat.

In general, the stone panel is used as a bed, guard room, floor finishing materials, etc. in the winter when building or remodeling a house. Particularly, when used as a floor finishing material, because the surface temperature is low in winter, various heating devices including boiler piping are installed on the bottom of the stone panel for heating. However, the installation of the heating apparatus causes problems such as an increase in construction cost and a prolonged construction time.

On the other hand, the power supplied at the time of power supply in the conventional heating means is mainly AC power. The AC power source is based on the waveform difference between the maximum value of the (+) waveform and the minimum value of the (-) waveform because the frequency waveform is a (+) (-) waveform and crosses 60 times per second. The amount of charge energy is inevitably generated by the current intensity flowing through the supply line, which is an electric wave of electromagnetic waves that is harmful to the human body due to the electric field of the charge caused by the AC waveform current. These fields have high frequency in winter when the humidity is low and the instantaneous voltage is 300 ~ 1800V (volts) during discharge, but in some cases up to tens of thousands of volts, the discharge shape of the field waves at night is like blue flame Form, so that those who sense are amazed. Fortunately, there is no current in such a high field. However, since electric field is formed on the surface of all heat-transfer products that use electricity (usually electricity supplied from home, etc.) as a heat-generating power source, even a slight vibration flow and minute discharge phenomenon are caused by the human skin's skin contact with the product. The conventional heating means using the AC power as the main power source, such as appears, has a considerable problem due to direct exposure to electromagnetic waves.

The present invention was devised to solve the problems as described above, using the characteristics of the carbon (carbon, carbon) powder that generates heat when electricity is supplied to an external power source to the power supplied to the carbon (carbon, carbon) powder It is an object of the present invention to provide a stone heat generating panel using a DC power is rectified by the AC power input from the terminal.

1 is a perspective view showing a stone heating panel according to the present invention.

Figure 2 is an exploded cross-sectional view for explaining the structure of the stone heating panel according to the present invention.

Figure 3 is a cross-sectional view showing the side of the stone heating panel according to the present invention.

4 is a view showing an embodiment of the present invention.

Figure 5 is a graph showing the heating characteristics according to the electrical stimulation of carbon (carbon, carbon) used in the present invention.

Figure 6 is a block diagram showing the configuration of a DC power supply according to the present invention.

*** Brief description of the main symbols in the drawings ***

100: stone panel 200: heating layer

210: carbon powder 220: power supply cable

300: DC power supply 301: AC power supply

303: DC power generating unit 304: temperature control unit

305: bimetal element 307: temperature control unit

400: External power terminal

In order to achieve the above object, the present invention is formed in a predetermined size and thickness, and +,-two power supply lines are wired side by side to receive a DC power supply on the bottom thereof, and another plurality in the vertical direction of the respective power supply lines. It consists of a stone panel in which two power supply lines are alternately wired, and a heat generating layer formed by mixing and coating carbon (carbon) powder and a binder on the bottom of the stone panel,

It is characterized in that it comprises a DC power supply for generating a DC power by converting the AC power input from the external input terminal and supplying the DC power to the power supply line.

In addition, a heat insulation layer is formed on the bottom surface of the heat generating layer that is not in close contact with the stone panel to prevent the heat generating energy from being consumed by heat exchange with the outside.

In addition, the DC power supply unit is characterized in that the 220V AC power input from the external input terminal to rectify the DC power output to the power supply line.

The DC power supply unit includes a bimetal element for preventing the temperature of the power supply line supplied with the DC power supply from the DC power generation unit from rising above a predetermined temperature, and controlling the temperature for selecting the temperature supplied to the power supply line. It is characterized by consisting of a temperature control unit including a unit.

Hereinafter, with reference to the accompanying drawings will be described in detail an example of the stone heating panel using the present invention DC power supply.

1 is a perspective view showing a stone heating panel according to the present invention.

As shown in the figure, the electrical energy supplied to the bottom surface of the stone panel 100 is formed of a predetermined size and thickness and the power supply line is wired and the power supply line is wired as heat energy. A heat generating layer 200 having a carbon (carbon, carbon) powder to be converted as a main component is formed, and composed of a DC power supply unit 300 which converts AC power input from an external power terminal into DC power and supplies the DC power to the power supply line. do. Hereinafter, the present invention will be described in more detail with reference to FIGS. 2 and 3.

Figure 2 is a separate cross-sectional view for explaining the structure of the stone heating panel according to the present invention, Figure 3 is a cross-sectional view showing a side of the stone heating panel according to the present invention is a side view shown in FIG.

As shown in the figure, the present invention is composed of a stone panel 100 and the heating layer (200).

The stone panel 100 is to form a surface layer of the present invention, it is preferable to select a material having a characteristic of low power consumption because it takes a long time to heat up after the warming effect and warming, particularly as a material, It is preferable to use any one of ceramic, ocher and artificial stone slabs. In addition, a power supply line 220 for wiring the DC power is wired to the bottom surface of the stone panel 100. The wiring is used as a medium for transmitting the electrical energy to the carbon (carbon, carbon) heating layer 200 using the DC power. The form looks like this: +,-Two power supply lines 220 are wired at positions facing each other on the bottom surface of the stone panel 100 and a plurality of further power supply lines in the vertical direction and the cross direction of the respective power supply lines 220 ( 220 is wired.

The heat generating layer 200 is formed on the bottom surface of the stone panel 100 to heat the stone panel 100 and is formed by mixing and coating carbon (carbon, carbon) powder 210 and a binder. The bonding agent is a component mixed with the carbon (carbon, carbon) powder 210 to perform the function of the adhesive to ensure that the heat generating layer 200 is stably attached to the bottom surface of the stone panel 100 and has conductivity. will be. The carbon (carbon) powder 210 will be described in more detail below with reference to FIG. 5.

On the other hand, although not shown in the drawing, the present invention preferably forms a heat insulation layer on a surface where the heat generating layer is not in close contact with the stone panel so that the heat generating layer is in direct contact with outside air to block the consumption of exothermic energy due to heat exchange. The heat insulating layer may be made of a heat insulating paper such as ordinary paper or nonwoven fabric to reduce the heat energy consumption of the heat generating layer, but is not limited to the above, any material having a heat insulating property may be used.

4 is a view showing an embodiment of the present invention, as shown in the figure, the three in the horizontal direction, three in the longitudinal direction connected to the subject innovation and the power supply line of the stone heating panel respectively to match the polarity In other words, positive polarity power supply lines should be connected with positive polarity power supply lines, and polarity power supply lines with polarity power supply lines. Therefore, the basic standard of the present invention can be produced in various sizes according to the use because it can be produced in a size of 90 × 90 by connecting the horizontal, vertical size 30 × 30 or 9 pieces.

Figure 5 is a graph showing the heat generation characteristics according to the electrical stimulation of carbon (carbon, carbon) used in the present invention. As shown in the figure, the heating element containing carbon (carbon, carbon) generates heat of 35 ° C at the lowest supply voltage of 0.3V, and heat of 340 ° C at a maximum of 2V. That is, it can be seen that heat is generated at a high temperature despite a relatively low voltage.

Briefly explaining the principle that the heating element consisting of the carbon (carbon, carbon) as a main component, when the current flows in the carbon (carbon, carbon) heating element consisting of a plurality of carbon (carbon, carbon) particles in general arc between the adjacent particles The principle is that heat is generated by arc discharge and contact resistance to generate high temperature heat. And, the main heat source of the carbon (carbon, carbon) heating element is heat and joule heat resulting from the arc discharge (arc discharge). That is, as current flows through both ends of the carbon particles, high temperature heat is generated by arc discharge and contact resistance between the adjacent carbon particles. The arc discharge is also referred to as electric discharge or arc discharge. In the arc discharge state, sufficient hot electrons are supplied, and a current difference flows due to a low potential difference between two poles.

The joule heat is heat generated by the current, and the heat quantity Q (calorie) generated by the current is proportional to the product of the square of the current I (A), the resistance R (Ω), and the time t (seconds). The joule string is calculated by the following formula, Q = 0.2412 Rt (calorie). However, the resistance of the conductor changes with temperature, and the resistance of the metal also increases as the temperature rises. This is because the thermal vibration of metal atoms becomes severe and interferes with the movement of free electrons.

However, carbon (carbon), semiconductors, electrolytes, and the like, the resistance decreases when the temperature rises, which is called negative resistance. That is, a heating element mainly composed of carbon (carbon, carbon) is suitable as a heating means because the resistance decreases even though the temperature is raised, and the thermal conductivity is increased.

Heating elements mainly composed of carbon include carbon, carbon, carbon powder, and the like. The carbon powder also includes graphite, the main charcoal powder, etc. In the present invention, the charcoal powder prepared in the form of powder and the binder are press-molded at high pressure to form a heat generating layer of the present invention, but the charcoal powder is not limited thereto.

6 is a block diagram showing the configuration of a DC power supply according to the present invention.

As shown in the figure, the DC power supply unit 300 according to the present invention has a detailed configuration of the AC power supply unit 301, DC power generating unit 303.

The AC power supply unit 301 receives AC power from an external power supply terminal 400.

The DC power generator 303 rectifies the AC power to a DC power suitable for heating the heat generating layer in order to convert the AC power input from the AC power source 301 into a DC power, and then connects to the connected power supply line 220. Output In particular, the AC power of 220V inputted from the external power terminal is rectified to DC power. In general, the principle of an adapter for rectifying AC power to DC power is that the voltage rectified through the rectifying diode is made into a flat DC voltage waveform through the rectifying capacitor.

In addition, the DC power supply unit 300 preferably further includes a temperature control unit 304. In detail, the DC power supply unit 300 may further include a bimetal element 305 and a temperature control unit 307.

The bimetal element 305 is for preventing the temperature of the current output from the DC power generator 303 to the power supply line 220 from rising above a predetermined value. The principle is to use two kinds of metal plates having different thermal expansion coefficients. It is applied by rolling method so that the two metal plates bend with the expansion difference according to the change of temperature.

The temperature control unit 307 is to be able to arbitrarily adjust the temperature in order to prevent the heating layer from melting when heated above a specific temperature, the display unit for displaying the temperature on the outside and a temperature control switch that can select the desired temperature It is preferable to further include.

On the other hand, although not shown in the drawings the embodiment of the present invention is used for various purposes, such as the use of the fire plate or the floor heating ondol, including a stone bed ondol when you want to cook meat in a restaurant or home It can be applied to.

Although the present invention described above has been described in detail only with respect to the specific examples described, it will be apparent to those skilled in the art that various modifications and changes are possible within the technical spirit of the present invention, and such modifications and modifications belong to the appended claims of utility model registration. Is a matter of course.

As described above, since the present invention uses a DC power source having no waveform frequency unlike an AC power source, an electric field is not generated, and thus the effect of reducing the damage caused by electromagnetic waves is very large.

In addition, the carbon (carbon, carbon) powder used as a heat source of the present invention is not only capable of generating high temperature heat, but also has a low heat loss, excellent heat effect, and low heat consumption of accumulated heat energy over time. The energy consumption is considerably reduced by reducing the power consumption during heating.

In addition, the carbon (carbon, carbon) powder is good for health by generating far infrared rays when exothermic, charcoal powder is excellent in the absorption of odor or moisture, and can use the characteristics of charcoal that generates far infrared rays when exothermic, thereby promoting user's health. It is beneficial to promote.

On the other hand, the present invention provides an advantage that can be manufactured in a variety of sizes depending on the intended use in addition to the basic specifications.

Claims (4)

A stone panel having a predetermined size and thickness and having +,-two power supply lines for parallel supply of DC power to the bottom thereof, and another plurality of power supply lines crossing each other in the vertical direction of each power supply line; And And a heat generating layer formed by mixing and coating carbon (carbon, carbon) powder and a binder on the bottom surface of the stone panel. A stone heat generating panel using DC power, comprising: a DC power supply for converting AC power input from an external input terminal to generate DC power and supplying DC power to the power supply line. According to claim 1, wherein the bottom surface of the heat generating layer not in close contact with the stone panel Stone heating panel using a DC power source, characterized in that the heat generating layer; heat insulating layer to block the heat energy is consumed by heat exchange with the outside. According to claim 1, wherein the DC power supply unit Stone heating panel using DC power supply, characterized in that the 220V AC power input from the external input terminal is rectified to the DC power supply and output to the power supply line. The method of claim 2, wherein the DC power supply unit A temperature control unit including a bimetal element for preventing the temperature of the power supply line supplied with the DC power from the DC power generation unit from rising above a predetermined temperature, and including a temperature control unit for selecting a temperature supplied to the power supply line; Stone heating panel, characterized in that configured.