KR20140142210A - aluminum windows and doors system using a sheet type heating device and controlling method therefore - Google Patents

Abstract

The present invention provides an aluminum window system using a planar heater and a control method thereof. The aluminum window system includes: an inner frame made of aluminum; an outer frame made of aluminum and symmetrically connected to the inner frame; an insulation member interposed between the inner and outer frames to interrupt heat transfer between the members; and a planar heater attached to the inner surface of the inner or outer frame to have a given size heated by the applied power. Since the planar heater is attached to the outer or inner surface of the window frames and the power is then applied to the planar heater to raise the surrounding temperature of the window frames at a dew point or above, dew condensation occurring inside or outside of the window frame can continuously be prevented by the heat of the planar heater, thereby maximizing the performance of insulation of the window system and improve a user′s convenience.

Description

    BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an aluminum window system using a planar heating element device,

The present invention relates to an aluminum window system using a plane heating element device and a control method thereof. More particularly, the present invention relates to an aluminum window system using a plane heating element device, To an aluminum window system using a surface heating element device for maximizing the heat insulation performance of a window system by raising the ambient temperature of the frame to a dew point or more and a control method thereof.

Generally, a house, for example, an apartment, a villa or a house with a balcony, a window made of glass that minimizes changes in temperature inside and outside while viewing the outside scenery is usually used. At this time, there are usually ordinary windows, double windows, and system windows in the windows. In general windows, the chassis refers to the outside chassis of the veranda having the 16mm pair glass, for example, and the chassis of the window is installed one (If the living room is expanded, the existing outside chassis is left as it is and if the chassis is added to the inside of the living room, it becomes a double chassis.) The chassis of the system window thickens the glass thickness to about 22 mm, Safety refers to products that enhance visual appeal. The most commonly used materials for the above window are aluminum and high chassis (PVC). Generally, aluminum products are light and cheap, and PVC has low heat conductivity, so that cold air does not enter inside, and it is excellent in heat insulation, but it is expensive.

Korean Patent Application No. 2007-0120326 filed by People's Earth Co., Ltd. is known as a prior art related to the above window.

1, an external window 70 and an internal window 71 are installed on the balcony with a predetermined space therebetween, and the external window 70 and the inside The window 71 is composed of a glass having a predetermined thickness and an aluminum chassis frame 72 for holding and fixing the glass.

Meanwhile, according to the conventional window system, the external window 70 and the internal window 71 are opened and closed according to the conventional indoor and outdoor conditions. In this process, when the temperature of the outside air is lowered, 70 and the inner window 71 are blocked by the heat insulating space 73 formed at regular intervals between the inner window 71 and the inner window 71, thereby preventing sudden temperature changes in the room.

However, the window system applied to the conventional balcony as described above is very narrow in the heat insulation space formed between the outer window and the inner window, so that the thermal insulation effect is very low and the heat insulation effect is low, so that the heating cost is excessive in winter, There is a problem that the air conditioning cost is excessively increased. Especially, when the temperature falls below the dew point temperature, dew is formed on the window or the aluminum chassis frame portion thereof. If the outdoor temperature dips under such a condition, There has been a problem in that the dew condensation occurs in the moisture, thereby significantly lowering the comfort of the indoor environment.

Accordingly, it is an object of the present invention to at least partially solve the problems in the conventional technology. Accordingly, it is an object of the present invention to provide a door frame heating system capable of continuously preventing condensation occurring on the inside or outside of a window frame frame through heat of a surface heating element, And an object thereof is to provide an aluminum window system and a control method thereof using a surface heating element device that maximizes performance.

It is a further object of the present invention to provide a method of manufacturing a window frame which comprises attaching a photoelectric conversion member on the inner or outer side of a window frame frame and storing the light using solar or surrounding light through the photoelectric conversion member, And the power saving characteristic of the window system is greatly improved by the use of the surface heating element device, and a control method thereof.

According to an aspect of the present invention, there is provided an electronic device comprising: an inner frame made of aluminum; An outer frame made of aluminum and interposed symmetrically with the inner frame; An insulating member inserted into the inner frame or the outer frame to block heat conduction between the members; And a planar heating element mounted on the inner side of the inner frame or the outer frame so as to have a predetermined size and being heated by an applied power source.

Another feature of the present invention is that a control unit provided in a window system provided with a surface heating element detects an ambient temperature of a current window system through a temperature sensor installed at one side of the body, And a corresponding mode is executed; If the ambient temperature of the window system drops below the reference temperature and the condensation is likely to occur after the ambient temperature is determined, the operation power is applied to the surface heating element through the surface heating element device, A surface heating element control step of controlling the surface heating element to be above a temperature; And a current temperature display step of displaying the current temperature state or the ambient atmosphere state on the display in the form of a color character, a graphic or a number, after the control process of the planar heating element is performed, Provides a control method of a window system.

According to the present invention, the surface heating element is attached to the outer surface or the inner surface of the window frame frame to a sufficient size, and power is applied to the surface heating element to raise the ambient temperature of the window frame frame beyond the dew point, It is possible to continuously prevent condensation occurring on the inner side or outer side of the frame through the heat of the surface heating element, thereby maximizing the heat insulation performance of the window system and also significantly improving the user convenience of the window system.

In addition, according to the present invention as described above, a photoelectric conversion member is attached on the inner or outer side of a window frame frame, and the solar battery or the surrounding light is used to store electricity through the photoelectric conversion member. So that the power saving characteristic of the window system can be significantly improved.

1 is an explanatory view for explaining an example of a conventional window system.
2 is an explanatory diagram illustrating an aluminum window system using the planar heating element apparatus according to the present invention.
FIG. 3 is an explanatory view for explaining an example in which the planar heating element device is mounted on the window system of the present invention, through a cross section AA 'of FIG.
FIG. 4A is an explanatory view for explaining a direct heating heating element of the planar heating element of the present invention, FIG. 4B is an explanatory view for explaining a film heating element of the planar heating element of the present invention, Fig. 2 is an explanatory view for explaining a film heating element to which a heat insulating material is added in the plane heating element device of Fig.
5 is a flowchart of the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The window system of the present invention comprises a glass member 1 having a predetermined size and thickness to form windows of a window as shown in Figs. 2 and 3;

And is formed in a window shape located on the side of an inner space where the glass member 1 is wrapped and fixed. The body is formed so as to be divided and assembled into a predetermined size, and fitting grooves 2a are formed at the ends of the divided body An inner frame 3 made of aluminum;

And is formed in a shape of a window positioned on the outdoor space side by being mutually symmetrically coupled with the inner frame (3), the body being formed to be divided and assembled into a certain standard, and a fitting groove (2b) is formed at each end of the divided body An outer frame 4 made of an aluminum material;

The body is inserted into the fitting groove 2a-b formed in the inner frame 3 and the outer frame 4 so as to block the heat conduction between the members and the heat insulating member 5 made of a plastic material whose thermal conductivity is low, Wow;

And a planar heating element 6 which is attached to the inner surface of the inner frame 3 so as to have a predetermined size and generates heat by the applied power source to heat the contact surface of the inner frame 3 and the peripheral portion thereof.

When the inner frame 3 and the outer frame 4 are coupled to each other, an aluminum chassis frame 7 is formed.

However, the aluminum chassis frame 7 composed of the inner frame 3 and the outer frame 4 may be integrally formed or may be divided and assembled.

The planar heating element 6 may be installed in a structure in which the heat insulating member 5 is first attached to an outer portion of the inner frame 3 located on the inner side of the inner space and then the planar heating element 6 is attached on the heat insulating member 5 .

Furthermore, the most preferable method of attaching the surface heat emission element 6 as described above is that the surface heat emission element 6 is placed on the heat insulating member 5 in the inner portion of the inner frame 4 located on the inner space side As shown in FIG.

In addition, the planar heating element 6 may be provided on the heat insulating member 5 at the inner side portion of the outer frame 3.

Although the method of attaching the surface heat emission element 6 to the heat insulation member 5 has been described above, the method of attaching the surface heat emission element 6 of the present invention is not limited to this, The surface heat emission element 6 can be adhered without being attached.

4 (a), the direct-coating heating element 8 is directly coated on the contact surface of the aluminum chassis frame 7, 4, a film heating element 9 is attached to the contact surface of the aluminum chassis frame 7 as shown in FIG. 4 (c), and a heat insulating member 5) is further adhered to the film heating element 10 with a heat insulating adhesive.

The direct coating heating element 8 may be formed by spraying an acrylic primer on the inner surface of the aluminum chassis frame 7 or the profile cover 7, A second step of coating a heating ink (Ink) with a spray and drying the coated ink after the drying step after the first step;

A third step of attaching an electrode film made of a copper (Cu) foil to the heating layer on top of the heating ink after the second step and fixing the electrode film with a rivet;

After the third step, a Urethane top coating layer, which is a final insulating layer, is coated on the electrode film heating layer by spraying and drying, and then a wire is connected to the rivet.

The film heating element 9 includes a first step of printing a heating coating layer on an insulating electrode heating film with a gravure printing machine,

A second step of printing the electrode layer on the dried coating layer after the first process with gravure and then drying the electrode layer again;

After the second step, an adhesive film is laminated on the dried layer (a protective film is attached to one side of the insulating adhesive film), and the insulating adhesive portion of the electrode portion is slightly removed from the end portion of the attached film, And a second step

And a fourth step of attaching a film heating element to the assembled aluminum chassis frame after connecting the electric wire to the rivet after the third step and removing the protective film.

The heat-insulating film heating element 10 is the same as that of the film heating element 9, except that after the fourth step, the heat insulating member 5 having the adhesive layer is cut at the portion to which the film heating element 9 is attached And a fifth step of adhering.

 On the other hand, the inner frame 3 or the outer frame 4 of the aluminum chassis frame 7 is provided with a temperature sensor 11 for measuring the indoor / outdoor temperature at one side of the body and outputting it as a digital value.

The planar heating element 6 is provided with a power supply 12 for applying a heating power to a power supply terminal (not shown) formed in the planar heating element 6,

A control unit 13 for comparing the inputted temperature data value detected from the temperature sensor 11 with a reference value and for controlling the operation power to be applied to the surface heating element 6 so that the surrounding temperature is increased by the difference temperature,

And a display 15 mounted on one side of the aluminum chassis frame 7 and embodied by a control unit 13 to display a current temperature state or a state of a surrounding atmosphere in the form of a color character, ).

Referring to FIG. 3, the inner frame 3 and the outer frame 4 are adjacently joined to each other. In this process, the fitting of the inner frame 3 The heat insulating member 5 is fitted to the fitting groove 2b of the groove 2a and the outer frame 4 and then the glass member 1 is inserted into the assembled aluminum chassis frame 7 and engaged.

At this time, the heat insulating member 5 is first attached to the surface of the inner frame 3 in the state that the assembly of the aluminum chassis frame 7 is completed, and then the surface heating element 3 ) May be attached to complete the assembly.

The most preferable method of attaching the surface heat emission element as described above is to attach the heat insulating member 5 to the inner surface ("I" in FIG. 3) of the inner frame 3 before fully assembling the aluminum chassis frame 7, And then the surface heat emission element 3 having a predetermined size is attached on the heat radiation body 3 as a wallpaper.

Next, a control method of the system of the present invention having the above-described configuration will be described.

6, a control unit provided in a window system provided with an area heating element in an initial state S1 as shown in FIG. 6 detects the ambient temperature of the current window system through a temperature sensor installed on one side of the body (S2) of analyzing whether the current temperature is lower than the reference set temperature and executing the corresponding mode;

If the control unit determines that the ambient temperature of the window system is lower than the reference set temperature and the condensation is likely to occur after the ambient temperature determination step S2, the operation power is applied to the planar heating element through the planar heating element, (S3) for controlling the surface heating element so that the temperature of the surface heating element is equal to or higher than a reference set temperature;

And a current temperature display step S4 for displaying the current temperature state or the ambient atmosphere state on the display in the form of a color character, a graphic or a numeral after the step S3) .

Here, the reference set temperature in the step S3) is the dew point temperature.

In other words, in the operation of the window system of the present invention, first, the control unit 13 provided in the window system 16 provided with the surface heat emission element 6 is connected to the temperature detection sensor 11 provided on one side of the body Thereby causing the ambient temperature of the current window system 16 to be detected. Then, the controller 13 analyzes whether the current temperature of the window system 16 detected by the controller 13 is lower than a reference set temperature, that is, a dew point temperature or less.

At this time, the controller 16 maintains the current state of the detected window system 16 when the current temperature of the window system 16 does not drop below the reference set temperature, that is, the dew point temperature.

However, if it is determined that the ambient temperature of the window system 16 is lower than the reference set temperature, that is, the dew point temperature, and the condensation is likely to occur, the controller 16 calculates the difference temperature between the present temperature and the reference value do. The control unit 13 applies operating power to the planar heating element 6 through the power supply unit 12 so that the temperature around the window system 16 rises by the difference temperature. Then, the surface heating element 6 starts to generate heat according to the operation power source applied thereto, and the outer surface of the inner frame 3 of the aluminum chassis frame 7, which is positioned on the side of the inner space, Starting from its inner surface, slowly heat the surrounding temperature.

During the above process, when the ambient temperature of the window system 16 increases as the ambient temperature of the window system 16 rises above the reference set temperature, that is, the dew point temperature as a result of checking through the temperature sensor 11, While when the temperature is still below the dew point temperature, the surroundings are heated through the surface heating element 6 continuously.

Accordingly, through the heating process by the planar heating element of the present invention as described above, no condensation is generated in the window system, and the surroundings are always maintained in a pleasant state.

In addition, during the above process, the controller 13 displays the current temperature state or the ambient atmosphere state in the form of a color character, a graphic or a numeral through the display 15 provided on one side of the window system 16, So that the user can effectively grasp the ambient wait state of the window system 16.

1: Glass member 2a-b: Fitting groove
3: inner frame 4: outer frame
5: Insulating member 6: Planar heating element
7: Aluminum chassis frame 8: Direct coating heating element
9: film heating element 10: heat insulating additive film heating element
11: Temperature sensor 12: Power supply
13: control unit 14: planar heating element device
15: display 16: window system

Claims (3)

An inner frame made of aluminum;
An outer frame made of aluminum and interposed symmetrically with the inner frame;
An insulating member inserted into the inner frame or the outer frame to block heat conduction between the members;
And a planar heating element mounted on the inner side of the inner frame or the outer frame so as to have a predetermined size and being heated by an applied power source,
Wherein the inner frame and the outer frame each include a fitting groove,
Wherein the inner frame and the outer frame are coupled to each other by interposing the heat insulating member in the fitting groove,
The planar heating element is disposed on an insulating member at an inner portion of the outer frame; On an insulator of an inner portion of the inner frame; And a heat insulating member located on a heat insulating member at an outer portion of the inner frame,
Wherein the planar heating element is a direct coated heating element coated directly on a contact surface of the aluminum chassis frame with a heating element; A film heating element formed in an insulating electrode heating film form; A film heating element with a heat insulating adhesive which adheres the film heating element to the contact surface of the aluminum chassis frame and further adheres the heat insulating material on the film heating element; Wherein the aluminum heating system is an aluminum heating system.
The method according to claim 1,
Wherein the inner frame or the outer frame is provided with a temperature sensor for measuring a temperature inside and outside the room and outputting the measured value as a digital value,
A power supply unit for applying a heating power source to a power supply terminal formed inside the surface heating element; and a controller for comparing the inputted temperature data value detected from the temperature sensor with a reference value, And a display unit configured to display a current temperature state or a state of a surrounding atmosphere in the form of a color character, a graphic or a number by means of the control unit. The surface heating element device is connected to the surface heating element body And the aluminum window system using the surface heating element device.
A control unit provided in a window system provided with a surface heating element detects an ambient temperature of the current window system through a temperature sensor installed on one side of the body and analyzes whether the current temperature is lower than a reference set temperature, An ambient temperature discrimination step for executing the ambient temperature;
If the ambient temperature of the window system drops below the reference temperature and the condensation is likely to occur after the ambient temperature is determined, the operation power is applied to the surface heating element through the surface heating element device, A surface heating element control step of controlling the surface heating element to be above a temperature;
And a current temperature display step of displaying a current temperature state or a surrounding atmosphere state on the display in the form of a color character, a graphic or a numeral and externally displaying the current temperature after the step of controlling the surface heating element, Control method of aluminum window system using heating element device.

Images