KR20120022225A - Electric heating panel and temperature control method the same - Google Patents

Abstract

PURPOSE: An electric heating panel and a temperature controlling method thereof are provided to improve heating efficiency by surface-heating through a heating film with short temperature rise time. CONSTITUTION: A floor material prevents moisture from a surface. An insulating material prevent heat from being discharged to the outside from a heating panel(100) and minimize the inflow of heat from the outside. The heating film is made of carbon materials and generates heat with electrical conductivity. A heat storage material stores heat from the heating film. A power connector which is electrically connected to the heating film is inserted into a connector insertion groove(160).

Description

Electric heating panel and temperature control method the same}

The present invention relates to an electric heating panel and a temperature control method. More specifically, the surface heating is achieved through a carbon film having a very short rise time to a set temperature, thereby providing excellent heat generation efficiency and preventing local overheating of the heating panel through a temperature controller. By providing a heating panel that can be easily assembled and disassembled by the user, the present invention relates to an electric heating panel and a temperature control method for reducing maintenance costs by requiring continuous maintenance along with a construction cost of a professional staff.

In general, the heating panel is mainly used in the ondol bed, ocher bed, etc. is used as a thermal insulation means for maintaining the temperature of the appropriate level for sleep, in recent years it is generally manufactured using carbon fiber.

Here, carbon fiber has been used as a reinforcing material of phenolic resin to maintain the elasticity of fishing rods and golf clubs, and it is useful for wood-related parts to save electricity and to block electromagnetic waves in principle, which is harmful to the human body. After impregnating the plywood or MDF in the resin, the heating panel was produced by inserting a carbon fiber heating wire in the middle of the resin-impregnated plywood or MDF.

However, in the conventional heating panel fabrication as described above, the plywood or MDF has too much consumption of the related resin when the resin is impregnated, and the work process is complicated because the impregnated plate must be dried during the operation, and the size of the related plant There was also a problem to be large.

Therefore, in order to solve such a problem, it was disclosed in Korean Utility Model Registration No. 183800, and a separate description of impregnated (absorbed) with a thermosetting resin (eg, phenolic resin, epoxy resin, melanin resin, etc.) The panel is inserted into the middle of plywood, particle board or fiber board to form the upper and lower panels, and then the heating panel is inserted into the middle of the upper and lower panels. By doing so, the thermal efficiency is very high and the power consumption rate is very low to maximize the power saving effect, and the heating panel has been developed to improve the corrosion resistance of the heating panel and the fire resistance in the air contact as well as its adhesion.

However, the manufacturing process was complicated due to various processes such as impregnating the thermosetting resin on the substrate and bonding the substrate to plywood, particle board, or fiber board. There was a problem in that the size of the factory is enlarged due to the need to dry the substrate or impregnate the paper.

In addition, at least two substrates must be used when manufacturing the heating panel, which leads to a problem in that the manufacturing cost increases. In particular, when the thermosetting resin is impregnated with the substrate, the deformation of the heating panel becomes high, causing local overheating. There was a problem.

In addition, the heating panel according to the prior art requires a professional manpower during construction, as well as additional construction costs, there is a problem that the maintenance cost is required to continue the maintenance.

In order to solve the above problems, the present invention provides excellent heat generation efficiency through the heating film of a carbon material having a very short rise time up to a set temperature, thereby providing excellent heat generation efficiency and a local overheating phenomenon of the heating panel through a temperature controller. The purpose is to prevent.

In addition, the present invention is to provide a heating panel that can be easily assembled and disassembled by the user directly, as well as reducing the construction cost by professional personnel, as well as the need for continuous maintenance is to reduce the maintenance cost. .

In order to achieve the above object, the present invention provides an electric heating panel, which is in contact with the floor of concrete and prevents penetration of moisture generated from the ground, and prevents heat generated from the heating panel from leaking to the outside. And a heat insulating material which minimizes the inflow of heat from the outside, a heating film made of a carbon material as a planar heating element to generate heat by electricity supply, a heat storage material for storing heat generated from the heating film, and the top of the heating panel. Located on the side, the finishing material to beautifully appearance is laminated sequentially, the electric heating, characterized in that the connector insertion groove is formed at both ends of the heating panel is inserted into the power connector electrically connected to the heating film. Provide a panel.

In addition, in the present invention, the heating film provides an electric heating panel, characterized in that configured in a parallel form to enable the entire heating even in the occurrence of a short.

In addition, in the present invention, the heat storage material provides an electric heating panel, characterized in that composed of any one of a film layer or a panel made of aluminum, silicon, magnesium oxide and the like.

In addition, in the present invention, the heat storage material is provided on the upper side of the heating film is laminated, or provides an electric heating panel, characterized in that located on both the upper side and the lower side.

In addition, in the present invention, the heating panel further comprises a fixing panel to surround the circumferential surface of the heating panel consisting of a flooring material, a heat insulating material, a heating film, a heat storage material, a finishing material is laminated sequentially, the fixing panel is inserted into the connector It provides an electrical heating panel characterized in that the connector through-hole is formed in communication with the groove.

In addition, in the present invention, there is provided an electric heating panel, characterized in that the connection frame for connecting a plurality of the heating panel to be coupled further.

In addition, in the present invention, the connecting frame is formed in the shape of 'I' coupling frame for connecting a plurality of inserting the heating panel on both sides; An outer frame provided on a circumferential surface of the plurality of heating panels connected by the coupling frame to enhance the appearance of the heating panel; And it provides an electric heating panel comprising a closing member for connecting both ends of the outer frame.

Further, in the present invention, the heating panel provides an electric heating panel, characterized in that the thermostat to prevent local overheating, and maintain a set temperature is connected to the power connector.

In addition, in the present invention, the temperature controller is located in the center of the heating film, it is connected to a temperature measuring sensor for measuring the temperature of the heating film provides an electric heating panel, characterized in that for controlling the temperature of the heating film. .

In addition, in the present invention, the method of controlling the temperature of the electric heating panel, (a) turning on the power (ON) to supply power to the heating film of the heating panel; (b) after the step (a), a temperature setting step of setting a temperature of the heating film to receive a desired temperature through a temperature controller; (c) after the step (b), the temperature controller measures the temperature of the heating panel through a temperature measuring sensor to determine whether the heating panel is locally heated or whether the heating film is normally heated according to the set temperature. ; (d) if the temperature set in step (b) and the temperature measured in step (c) are the same or within an acceptable range, recognizing normal operation and maintaining the current state; And (e) forcibly shutting off the power supplied to the heating panel if the temperature set in the step (b) and the temperature measured in the step (c) are out of an acceptable range and locally overheated. It provides a temperature control method of the electric heating panel.

According to the present invention, the surface heating is achieved through a carbon film heating film of very short rise time up to a set temperature, providing excellent heat generation efficiency, and to prevent local overheating of the heating panel through a temperature controller It works.

In addition, according to the present invention, by providing a heating panel that can be easily assembled and disassembled by the user directly, not only the construction cost by professional personnel, but also the need for continuous maintenance can reduce the maintenance cost It works.

In addition, according to the present invention, by setting the temperature of the electric heating panel through a temperature controller to supply or cut off the power to the heating film according to the set temperature, safety accidents such as fire accidents, human life accidents caused by local overheating phenomenon There is an effect that can be prevented in advance.

1 is an exploded perspective view showing main parts of an electric heating panel composed of a plurality of layers according to a preferred embodiment of the present invention;
2 is a cross-sectional view showing an electric heating panel according to a preferred embodiment of the present invention;
3 is a view showing a state connecting the electric heating panel according to a preferred embodiment of the present invention,
4 to 6 is a view showing a state in which a plurality of electric heating panel is coupled according to a preferred embodiment of the present invention,
7 is a schematic view showing the electrical flow of the electric heating panel according to an embodiment of the present invention,
8 is a flowchart illustrating a process of adjusting the temperature of the electric heating panel according to the preferred embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used to refer to the same components, even if displayed on different drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is an exploded perspective view showing main parts of an electric heating panel composed of a plurality of layers according to a preferred embodiment of the present invention, FIG. 2 is a cross-sectional view showing an electric heating panel according to a preferred embodiment of the present invention, and FIG. 4 is a view illustrating a connection frame connecting an electric heating panel according to a preferred embodiment, FIGS. 4 to 6 are views illustrating a state in which a plurality of electric heating panels are coupled according to a preferred embodiment of the present invention, and FIG. 6 is a schematic view showing the flow of electricity of the electric heating panel according to a preferred embodiment, Figure 6 is a flow chart showing a process of controlling the temperature of the electric heating panel according to a preferred embodiment of the present invention.

As shown, the electric heating panel of the present invention is composed of a plurality of layers are connected to heat the heating panel 100, the heating panel 100, the heating panel 100 to receive power to form a floor of the floor ( 200), a power connector 302 electrically connected to the heating film 130 of the heating panel 100 and supplying power, and a temperature controller 310 for controlling the heat generated temperature of the heating panel 100. do.

The heating panel 100 is the lowest layer of the heating panel 100, and contacts the bottom of the concrete, and heat generated from the flooring 110 and the heating panel 100 to prevent penetration of moisture generated from the ground to the outside. The heat generated from the heating film 130 and the heating film 130 to prevent heat flowing out, the heat insulating material 120 to minimize the inflow of heat from the outside, made of carbon material as a planar heating element to generate heat by electricity The heat storage material 140 to be stored, the heating panel 100 is located on the uppermost side, and protects the heating panel 100 from various influences from the outside, the finishing material 150 to enhance the appearance and a heating made of a plurality of layers It is configured to surround the circumferential surface of the panel 100 is configured to include a fixing panel 170 to ensure that the plurality of layers are stably fixed.

Floor material 110 is configured to be installed on the bottom layer of the heating panel 100 so that the heating panel 100 can be installed flat on the ground, as well as wood, concrete, stone, tiles, asphalt, cork, linoleum, It consists of rubber, plastic, porcelain, tile and so on.

The flooring material 110 is preferably coated or coated with a separate moisture barrier material so as to block or absorb moisture on the circumferential surface in order to prevent moisture generated from the ground from invading the inside of the heating panel 100. However, it is not limited thereto.

In addition, the heat insulator 120 is located on the upper side of the flooring material 110 and is laminated. The heat conductivity of the material itself is small, and it is preferable that the heat conductivity is made of a porous flexible foam to reduce the thermal conductivity. Do.

Here, the water-based flexible foam is a soft foam like a chiffon cake, and forms a perfect insulating layer, and is a group of small bubbles generated from 99% of air which is not moving, and there is no convection in the foam, This is a structure that is difficult to deliver. Since the thermal conductivity of the aqueous flexible foam is 0.034 kcal / mh ° C., and the air permeability is extremely low, less than 3% compared to the fibrous insulation used in general, in the present invention, by using the heat insulating material 120 made of an aqueous flexible foam, Excellent insulation and airtightness will be ensured at the same time.

In addition, the heating film 130 is stacked on the upper side of the heat insulating material 120, and is made of a carbon material as a planar heating element as a component that generates heat by electricity supply, the conductor is disposed at both ends of the heating element The conductive elastomer ink (carbon ink) is uniformly printed between the conductors so that electricity is supplied so that heat is generated by the resistance generated in the elastomeric ink, that is, the carbon ink.

The heating film 130 of the present invention as described above can be uniformly heated due to the even distribution of carbon, the thickness thereof can also be configured in a thinner form than the conventional heating film 130, to increase the space utilization Could be. In addition, the heating film 130 of the present invention does not affect the entire heating because the heating film 130 is configured in a parallel form even if a short occurs during use of the heating panel 100.

In addition, the heat storage material 140 is configured to save the energy generated by the heat generated from the heating film 130 to have a maximum heating effect with a minimum consumption of power, in the present invention, aluminum, It is preferable to be composed of a film layer or a panel having a predetermined thickness made of silicon, magnesium oxide and the like, but is not limited thereto.

Such heat storage material 140 is preferably disposed to be located on the upper side of the heating film 130, or to be located both on the upper side and the lower side.

On the other hand, the finishing material 150 is to be laminated on the upper side of the heat storage material 140 positioned on the heating film 130, consisting of wood, it is preferably formed to be in the shape of a wooden floor.

The finishing material 150 is preferably a wooden floor tape or the like attached, coated or applied in order to configure the external shape in the form of a wooden floor, but is not limited thereto.

One end of both sides of the heating panel 100 of the present invention configured as described above is formed with a connector insertion groove 160 into which the power connector 302 to be described later is inserted, and electrically connected to the heating film 130 of the heating panel 100. Make the connection available.

In addition, the fixing panel 170 so as to surround the circumferential surface of the heating panel 100, which is composed of the flooring material 110, the heat insulating material 120, the heating film 130, the heat storage material 140, the finishing material 150, etc. are sequentially laminated. ) Is mounted.

The fixing panel 170 is configured in a plurality of '' shape, the heating panel 100 is formed to be inserted into the inside. In addition, a connector through hole 172 communicating with the connector insertion groove 160 formed in the heating panel 100 may be formed in any one of the plurality of fixing panels 170.

The connection frame 200 includes a coupling frame 210 for connecting and coupling the plurality of heating panels 100, and an outer frame configured to surround the outside of the plurality of heating panels 100 connected by the coupling frame 210. 220 and a finishing member 230 to finish both ends of the outer frame 220 to make the appearance of the heating panel 100 beautiful.

The coupling frame 210 is formed in the shape of 'I' and inserts the heating panel 100 into both sides of the recessed shape, thereby connecting the plurality of heating panels 100, and connecting the respective heating panels 100. It comprises a unit frame 212 and a fixing frame 214 is formed long to be coupled and fixed to the heating panel 100 connected by the unit frame (212).

The outer frame 220 is connected to and fixed to the heating panel 100 by the unit frame 212 and the fixing frame 214 of the coupling frame 210, the peripheral surface of the plurality of heating panel 100 It is configured to wrap and finish beautifully in appearance, and communicates with the connector insertion groove 160 of the heating panel 100 and the connector through hole 172 of the fixing panel 170 to connect the power connector 302 and the power connector ( A closing hole 222 for finishing the wires connected with the 302 is formed.

In addition, the outer frame 220 is connected to both ends of the outer frame 220 positioned in the horizontal and vertical directions of the plurality of heating panel 100, the finishing member 230 to enhance the appearance of the heating panel 100 ) Is provided.

The power connector 302 is connected to the temperature controller 310, is inserted into the connector insertion groove 160 formed in the heating panel 100 and electrically connected to the heating film 130 of the heating panel 100 to supply power. It is a component.

The temperature controller 310 is connected to the power connector 302 and measures the temperature of the heating film 130 to prevent local overheating of the heating panel 100 as well as to maintain the temperature set by the user. .

The temperature controller 310 is connected to the temperature measuring sensor 320 for measuring the temperature of the heating film 130, in particular the temperature measuring sensor 320 is provided to be located in the center of the heating film (130).

As shown in FIG. 8, the temperature controller 310 performs a power-on step S10 of turning on the power to supply power to the heating film 130 in order to use the electric heating panel of the present invention.

And, if it is confirmed that the power is supplied to the heating panel 100, the temperature setting to set the temperature so that the user can receive the desired temperature by setting the heating degree of the heating film 130 through the temperature controller 310 Step S20 is performed.

In addition, the temperature controller 310 after the temperature is set through the temperature setting step (S20), after a predetermined time, by measuring the temperature of the heating panel 100, whether the local overheating state, the heating film ( In order to determine whether 130 is normally heated, a temperature measuring step S30 of measuring the temperature of the heating panel 100 through the temperature measuring sensor 320 is performed.

That is, the temperature controller 310 of the present invention determines whether the heating panel 100 is normally operated through the temperature measuring sensor 320.

This, the temperature measured by the temperature measuring sensor 320 to determine whether or not the operating state of the heating panel 100 through the temperature measuring step (S30) is set in the temperature setting step (S20) If it is equal to or within the allowable range, it recognizes that it is operating normally, and accordingly maintains the current state of the heating panel 100. (S42)

However, if it is determined that the measured temperature is not equal to the set temperature or is out of an acceptable range, that is, a local overheating state or an overheating state (S50), the power supplied from the temperature controller 310 to the heating panel 100 is turned on. Forcibly cut off, so that safety accidents such as fire accidents and life-saving accidents can be coped with.

On the other hand, to stop the use of the heating panel 100 of the present invention, to turn off the power through the temperature controller 310. (S60)

The electric heating panel of the present invention configured as described above allows the surface heating through the heating film 130 of carbon material having a very short rise time up to a set temperature, thereby providing excellent heat generation efficiency and through the temperature controller 310. Local overheating of the heating panel 130 can be prevented, and by providing a heating panel 100 which can be easily assembled and disassembled by the user directly, the construction cost by professional personnel is maintained, and the maintenance is continued. Maintenance costs can be reduced. In addition, by setting the temperature of the electric heating panel through the temperature controller 310 to supply or cut off the power to the heating film 130 according to the set temperature, safety accidents such as fire accidents, personal accidents caused by local overheating phenomenon It is an invention that can be prevented in advance.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

100: heating panel 110: flooring
120: insulation 130: heating film
140: heat storage material 150: finish material
160: connector insertion groove 170: fixing panel
172: connector through hole 200: connecting frame
210: combining frame 212: unit frame
214: fixed frame 220: outer frame
222: closing hole 230: closing member
302: power connector 310: thermostat
320: temperature measuring sensor

Claims (10)

In the electric heating panel,
A flooring material which contacts the floor of concrete and prevents penetration of moisture, etc. generated from the ground;
Insulation that prevents the heat generated from the heating panel to flow to the outside, and minimizes the inflow of heat from the outside,
Heating film made of a carbon material as a planar heating element to generate heat by energization of electricity,
A heat storage material for storing heat generated from the heating film;
Located on the top side of the heating panel, the finishing material to enhance the beautiful appearance is sequentially laminated, the connector insertion groove is formed at both ends of the heating panel is inserted into the power connector electrically connected to the heating film. Electric heating panel.
The method of claim 1,
The heating film is an electric heating panel, characterized in that configured in a parallel form to enable the entire heating even if a short.
The method of claim 1,
The heat storage material is an electric heating panel, characterized in that composed of any one of a film layer, or a panel made of aluminum, silicon, magnesium oxide and the like.
The method according to any one of claims 1 to 3,
The heat storage material is laminated on the upper side of the heating film, or electric heating panel, characterized in that located on both the upper side and the lower side.
The method of claim 1,
The heating panel further comprises a fixing panel to surround the circumferential surface of the heating panel in which the flooring material, the heat insulating material, the heating film, the heat storage material, and the finishing material are sequentially laminated, and the fixing panel has a connector through hole communicating with the connector insertion groove. Electric heating panel, characterized in that is formed.
The method of claim 1,
Electrical heating panel, characterized in that the connection frame for connecting a plurality of the heating panel coupled further configured.
The method according to claim 6,
The connecting frame
A coupling frame which is formed in a shape of 'I' and connects a plurality of inserting heating panels to both sides;
An outer frame provided on a circumferential surface of the plurality of heating panels connected by the coupling frame to enhance the appearance of the heating panel; And
Closing member for connecting both ends of the outer frame
Electric heating panel comprising a.
The method of claim 1,
The heating panel is an electric heating panel, characterized in that to prevent local overheating phenomenon, a temperature controller for maintaining a set temperature is connected to the power connector.
The method of claim 8,
The temperature controller is located in the center of the heating film, the electric heating panel, characterized in that connected to the temperature measuring sensor for measuring the temperature of the heating film to control the temperature of the heating film.
In the temperature control method of the electric heating panel,
(a) turning on the power to supply power to the heating film of the heating panel;
(b) after the step (a), a temperature setting step of setting a temperature of the heating film to receive a desired temperature through a temperature controller;
(c) after the step (b), the temperature controller measures the temperature of the heating panel through a temperature measuring sensor to determine whether the heating panel is locally heated or whether the heating film is normally heated according to the set temperature. ;
(d) if the temperature set in step (b) and the temperature measured in step (c) are the same or within an acceptable range, recognizing normal operation and maintaining the current state; And
(e) if the temperature set in the step (b) and the temperature measured in the step (c) are outside the allowable range and locally overheated, forcibly shutting off the power supplied to the heating panel;
Temperature control method of the electric heating panel comprising a.

Images