KR200340530Y1 - Overlap glass window equipped with a heating wire - Google Patents

Abstract

The present invention relates to a multi-layer glass, and more particularly to a multi-layer glass window provided with a heating wire that can effectively prevent the dew condensation on the indoor side of the glass pane and the inner surface of the plate glass and improve the thermal insulation effect.

In the multi-layered glass window with a heating wire according to the present invention, an absorbent is enclosed in a window frame 2 composed of frames 21 having a mounting groove 211 formed at an inner center and a space 212 formed therein. Ordinary multilayer glass, in which the panes 32 and 33 have a multilayer structure through the spacer 31, and the ordinary multilayer glass 3 whose surroundings are sealed by an encapsulant is inserted and fixed through the bonding means. In the window 1, a heating wire 4 that generates heat by supply power is attached to the inner surface of the interior pane 32 of the laminated glass along the inner circumference, and the lower spacer 31 of the laminated glass is A through hole 34 through which the electric wiring 5 electrically connected to the heating wire 4 penetrates is formed, and the lower frame space portion 212 of the window frame is connected to the other end of the electric wiring 5 so that the Power supply unit for supplying driving power for heating wire In response to the operation signal of the user characterized in that the built-in controller 7 which controls the output of the power supply.

Description

Overlap glass window equipped with a heating wire}

The present invention relates to a multi-layer glass, and more particularly to a multi-layer glass window provided with a heating wire that can effectively prevent the dew condensation on the indoor side of the glass pane and the inner surface of the plate glass and improve the thermal insulation effect.

In general, the laminated glass is a two-plate glass of the same standard to maintain a constant interval by using a spacer, and the air is blown dry air between the glass and the glass, and then sealed around with an organic material, various functions and aesthetics In order to be effective, it is widely used in windows, roads, buildings around airports, buildings where noise is required, or where temperature or humidity needs to be controlled.

The multilayer glass is composed of two sheets of glass having the same specification as described above, a spacer installed around the plate glass, and a corner connector for connecting and fixing the spacers.

Here, the spacer is usually made of a metal material such as aluminum and filled with a moisture absorbent such as silica gel therein, and the moisture absorbent serves to prevent condensation from occurring on the inner surface of the pane by removing moisture between the panes.

Therefore, the multilayer glass having the structure as described above is sealed around the sheet glass by the encapsulant while the two sheets of glass are kept at regular intervals through the spacer, and the air layer is kept dry by the absorbent encapsulated in the spacer. The sealed air layer has a heat insulating effect and a noise blocking effect.

However, in the windows having the conventional multilayer glass as described above, condensation occurs first at the edge of the indoor pane due to the temperature difference between the indoor and outdoor and the thermal conductivity of the spacer, and condensation occurs at the inner surface of the pane due to the transition effect into the interior of the pane. There was a problem.

In particular, when condensation occurs on the inner surface of the plate glass, it is impossible to remove it artificially, a problem occurs that the thermal insulation performance of the laminated glass is lowered.

The present invention was devised to solve the above problems, the present invention is to attach the heating wire generated by the current to the inner surface of the laminated glass to prevent condensation on the front surface and the inner surface of the indoor plate glass in winter. The purpose of the present invention is to provide a laminated glass window with a heating wire that can minimize the load caused by heating by improving the insulation effect.

In addition, the present invention has an object to provide a multi-layer glass window with a heating wire that can protect the electrical wiring connected to the heating wire while preventing the electric current flows through the window through the spacer through which the electrical wiring passes.

And the present invention is to provide a multi-layer glass window with a heating wire that can improve the energy consumption efficiency by controlling the heating of the heating wire in accordance with the surface temperature of the indoor side pane.

In addition, the present invention has an object to provide a laminated glass window with a heating wire that can heat the heating wire using the power source of the window itself.

1 is a perspective view schematically showing a laminated glass window with a heating wire according to an embodiment of the present invention.

Figure 2 is a partially cut perspective view for explaining the hot wire inlet structure of the laminated glass window with a hot wire according to an embodiment of the present invention.

3 is an enlarged view of a portion A shown in FIG. 2;

Figure 4 is a view showing another embodiment of the power supply means of the multilayer glass window according to the present invention.

<Description of the symbols for the main parts of the drawings>

1: Window

11 frame 12 power output stage

2: window frame

21: frame 22: power input terminal

3: multilayer glass

31 spacer 32 interior side pane

33: Outdoor side glass 34: Through-hole

35: insulation guide

351: guide ball 352: insulation plate

36: surface temperature sensor

4: heating wire 5: electric wiring

61 connector 62 solar module 63 charging unit

7: controller

In accordance with an aspect of the present invention for achieving the above object, a multi-layer glass window provided with a heating wire according to the present invention is a moisture absorbent inside the window frame consisting of the frame is formed in the inner groove and the space is formed in the inner center In a conventional multilayer glass window in which the panes have a multilayer structure through which spacers are enclosed, and the ordinary multilayer glass, whose surroundings are sealed by an encapsulation material, is inserted and fixed through an adhesive means, wherein the interior side of the multilayer glass is The inner surface of the plate glass is attached to the heating wire generated by the power supply along the inner circumference, the lower spacer of the laminated glass has a through hole through which the electrical wiring electrically connected to the heating wire is formed, the lower frame of the window frame The space part is connected to the other end of the electrical wiring to supply the driving power of the heating wire. Characterized in that a controller which controls the output of the power supply in response to the operation signal of the power supply with built-in user.

According to this aspect of the present invention, the multi-layer glass window provided with the heating wire according to the present invention heats the indoor pane of the multilayer glass through the heating wire attached to the inner surface of the multilayer glass, and condensation occurs on the surface of the indoor pane in winter. It can be removed and also the effect of heating the internal space of the laminated glass by the heat generated from the heat ray can improve the thermal insulation effect between the indoor and outdoor.

And according to an additional aspect of the present invention is a multi-layer glass window provided with a heating wire according to the present invention is provided around the both ends of the guide ball and the guide ball for protecting the electrical wiring inside the through hole and the surface of the spacer and It is characterized in that the insulating guide portion further comprises an insulating plate for insulating between electrical wiring.

According to this aspect of the present invention, the multi-layer glass window provided with a heating wire according to the present invention insulates an electric wiring connected with a heating wire and a spacer which is a conductor through an insulating guide, so that a current supplied to the heating wire flows into the window frame through the spacer. This prevents the risk of a safety accident due to electric shock to be minimized.

Such, additional, or additional aspects of the present invention will become more apparent through the following preferred embodiments with reference to the accompanying drawings. Hereinafter, the present invention will be described in detail to enable those skilled in the art to easily understand and reproduce the present invention.

1 is a perspective view schematically showing a laminated glass window with a heating wire according to an embodiment of the present invention, Figure 2 is a diagram for explaining a hot wire inlet structure of a laminated glass window with a heating wire according to an embodiment of the present invention Some cutaway perspective views. 3 is an enlarged view of a portion A shown in FIG. 2.

As shown in FIGS. 1 to 3, the multi-layered glass windows provided with the heating wire according to the present invention are provided with frames 21 having a mounting groove 211 formed in the inner center and a space 212 formed therein. The ordinary glass panes 3, in which the panes 32 and 33 have a multilayer structure, and the surroundings thereof are sealed by an encapsulant through a spacer 31 in which a moisture absorbent is enclosed in the configured window frame 2, are bonded to each other. Insertion is fixed through.

On the inner surface of the interior pane 32 of the multilayer glass, a heating wire 4 that generates heat by a supply power source is attached along the inner surface circumference, and the heating wire 4 is attached to the lower spacer 31 of the multilayer glass 3. The through hole 34 through which the electric wiring 5 electrically connected to the through hole 34 is formed, and the lower frame space portion 212 of the window frame 2 is connected to the other end of the electric wiring 5 to connect the hot wire. A power supply for supplying the driving power of (4) and a controller 7 for controlling the output of the power supply according to a user's operation signal are incorporated.

In the embodiment of the present invention, the heating wire 4 generates heat by electric current as already known, and it is possible to prevent condensation on the windows and doors due to a fine current, especially in winter.

At this time, the heating wire 4 is preferably attached along the edge of the indoor side pane 32. Because condensation is more easily formed at each corner of the plate glass than at the center of the plate glass, by providing a heating wire at the edge of the plate glass as described above, condensation is prevented from occurring on the inner surface of the plate glass.

In addition, the heating wire 4 can be more stably attached to the inner surface of the indoor glass pane 32 than to the outer surface, that is, the surface of the indoor glass pane. In other words, when the heating wire is attached to the surface of the indoor pane, the heating wire is scratched and disconnected when the window is cleaned.

On the other hand, the through hole 34 is formed on one side of the lower spacer 31 constituting the multilayer glass as described above, in order to supply driving power to the heating wire 4 attached to the inner surface of the indoor glass pane 32 The electric wiring 5 to be connected will pass through.

At this time, it is preferable that the inside of the through hole 34 is provided with an insulating guide portion 35 for insulating the surface of the electrical wiring 5 and the spacer 31 passing through the through hole.

That is, the insulating guide part 35 is provided around both ends of the guide ball 351 and the guide ball 351 for protecting the electric wiring 5, and the surface of the spacer 31 and the electric wiring 5 The insulating plate 352 which insulates between is integrally comprised, and the periphery of the insulation guide part 35 inserted in the said through-hole 34 by Teflon is insulated.

Therefore, it is possible to safely maintain the covering state of the electrical wiring connected to the hot wire during the manufacture of the multilayer glass through the guide hole of the insulating guide part, and insulate the electrical surface and the metal surface of the spacer through the circular insulating plate formed around both ends of the guide ball. By doing so, leakage current leaking from the electric wiring is prevented from flowing to the window frame frame through the spacer.

On the other hand, the power supply unit (not shown) is connected to the other end of the electrical wiring 5 to supply the driving power of the heating wire 4, the lower frame 21 of the window frame, that is, the through hole 34 The formed spacer 31 is embedded in the space portion 212 of the frame to which the spacer 31 is inserted and fixed.

In the embodiment of the present invention, the power supply is electrically connected to the input terminal of the controller to be described later, and is composed of a connector 61 corresponding to the cable terminal to one side of the window frame frame so that commercial power is applied through a cable. .

In another embodiment of the present invention, it is also possible to use a solar cell module 62 having a plurality of solar cells attached to the window frame frame 21 to supply power to the heating wire 4. At this time, the front of the solar cell module 62 is preferably provided with a protective cap 621 made of a transparent material.

In addition, when the solar cell module 62 is used as described above, it is preferable to include a charging unit 63 in which DC power input from the solar cell module is accumulated.

By providing the charging unit as described above, the solar cell module can be used as a power supply during the day and the charging unit which was charged during the day can be used as the power supply. Since the power can be applied, the cable connected to the external commercial power becomes unnecessary, and the indoor side of the window can be neatly arranged.

In another embodiment of the present invention, as shown in FIG. 4, the power supply unit may be configured to supply power when the window frame frame 21 and the window frame frame 11 supporting the window frame frame 21 are in contact with each other. In this case, a power input terminal 22 electrically connected to the input terminal of the controller 7 is formed outside the window frame frame 21 to which the frames contact each other, and the window frame 11 opposite to the window frame frame 21 is formed. ) Is formed so that the power output terminal 12 corresponding to the power input terminal 22 protrudes.

Therefore, the multi-layered glass window with a heating wire according to the embodiment of the present invention through the configuration as described above is a window frame frame for supporting the multi-layer glass in the case where the window is formed of a sliding type or a sliding type structure and the window to support the window frame frame When the frames are in contact with each other, the power input terminal formed on the window frame and the power output terminal formed on the window frame are electrically connected to each other to supply commercial power.

On the other hand, the controller 7 is embedded in the space 212 of the lower frame of the window frame to control the output of the power supply unit to the hot wire in accordance with the user's operation signal, the input unit (not shown) City) and transformer (not shown).

The input part is a switch for applying a current to the heating wire 4 attached to the interior pane 32 of the multilayer glass and is provided on one side of the window frame on the interior side. Therefore, when power is supplied to the heating wire, driving power can be supplied to the heating wire by turning on the switch.

The transformer converts the power input from the power supply into a rated current of the heating wire and outputs the same. The structure thereof is already shared before the filing date of the present application, so a detailed description thereof will be omitted.

Therefore, the multilayer glass window provided with the heating wire according to the present invention through the configuration as described above, the drive power input from the power supply according to the contact signal of the switch, for example, the (on) signal to the rated current of the heating wire through the transformer It converts and outputs the heat wire, thereby removing condensation generated by heating the inner surface of the interior pane of the multilayer glass. In addition, it is possible to obtain the effect of heating the interior space of the laminated glass by the heat generated from the heat ray, thereby improving the thermal insulation effect between the indoor and outdoor to more significantly reduce the load due to heating.

Meanwhile, according to an additional aspect of the present invention, the multilayer glass window provided with the heating wire according to the present invention further includes a surface temperature measuring sensor 36 which measures the surface temperature of the plate glass on the surface of the indoor plate glass 32. The controller 7 compares the dew point temperature of the stored air with the temperature measured value input from the surface temperature measuring sensor 36 and outputs the rated current to the heating wire 4 according to the result. It further comprises a rating control unit (not shown).

In the embodiment of the present invention, the surface temperature measuring sensor 36 is physically connected to the controller 7 through the space portion 212 of the lower frame of the window frame.

Accordingly, the multi-layer glass window according to the present invention causes the heating wire to generate heat when the surface temperature of the indoor side pane drops below the dew point temperature of the atmosphere.

In other words, the multi-layer glass window provided with the hot wire according to the present invention cuts off the driving power supplied to the hot wire when the surface temperature of the plate glass input from the surface temperature measuring sensor is higher than the stored dew point temperature of the air. On the contrary, when the surface temperature of the plate glass is lower than the dew point temperature of the atmosphere, the driving power is applied to the heating wire from the power supply unit. At this time, the driving power applied is converted into the rated current of the heating wire and supplied as described above.

As described above, when the rated control unit is applied to the multilayer window glass according to the present invention, the above-described input unit becomes unnecessary, and the energy consumption is controlled by controlling the heat generation of the hot wire according to the surface temperature of the indoor pane through the surface temperature sensor and the rated control unit. The efficiency can be improved.

As described above, the multilayer glass window provided with the heating wire according to the present invention heats the interior glass of the multilayer glass through the heating wire attached to the inner surface of the multilayer glass, thereby eliminating condensation occurring on the surface of the interior glass in winter. Not only can it be possible to obtain the effect of heating the inner space of the laminated glass by the heat generated from the heating wire can improve the insulation effect between the indoor and outdoor.

The insulation guide unit insulates the electric wiring connected to the heating wire and the spacer, which is a conductor, thereby preventing the electric current supplied to the heating wire from flowing to the window frame through the spacer, thereby minimizing the risk of safety accidents due to electric shock, thereby enabling stable use. .

In addition, by controlling the heat generation of the heating wire in accordance with the surface temperature of the indoor plate glass through the surface temperature sensor and the rated control unit, it is possible to improve the energy consumption efficiency.

Although the present invention has been described with reference to the accompanying drawings, it will be apparent to those skilled in the art that many other various modifications are possible without departing from the scope of the present invention from this description. Therefore, the scope of the present invention should be interpreted by the utility model registration claims described to include many such variations.

Claims (6)

The glass panes 32 are formed through spacers 31 having a moisture absorbent encapsulated in a window frame 2 formed of frames 21 having a mounting groove 211 formed at an inner center and a space 212 formed therein. In the conventional multilayer glass window (1), in which the multilayer glass structure (33) has a multilayer structure and its surroundings are sealed by an encapsulation material, is inserted and fixed through the bonding means. On the inner surface of the interior pane 32 of the multilayer glass, a heating wire 4 that generates heat by supply power is attached along the inner circumference, The lower spacer 31 of the multilayer glass has a through hole 34 through which the electric wiring 5 electrically connected to the heating wire 4 is formed. The lower frame space portion 212 of the window frame is connected to the other end of the electrical wiring 5, the power supply for supplying the driving power of the heating wire and the controller for controlling the output of the power supply in accordance with the user's operation signal (7) Laminated glass windows with a heating wire, characterized in that the built-in). The method of claim 1, The inside of the through hole 34 is provided around the both ends of the guide ball 351 and the guide ball 351 for protecting the electrical wiring (5) and the surface of the spacer 31 and the electrical wiring (5) The multi-layered glass window with a heating wire, characterized in that the insulating guide portion 35 is formed integrally with the insulating plate 352 to insulate between. The method of claim 2, Surface temperature measuring sensor 36 for measuring the surface temperature of the plate glass is further attached to the surface of the indoor pane 32, The controller 7 compares the dew point temperature of the stored air with the temperature measured value input from the surface temperature sensor 36 and controls the controller 7 to output the rated current to the heating wire according to the result. Laminated glass window provided with a heating wire, characterized in that it further comprises. The power supply according to any one of claims 1 to 3, wherein the power supply unit: Double layer provided with a heating wire, characterized in that it is electrically connected to the input terminal of the controller 7 and composed of a connector 61 corresponding to the cable terminal to one side of the window frame frame 21 so that commercial power is applied through a cable. Glass window. The power supply according to any one of claims 1 to 3, wherein the power supply unit: A solar cell module 62 attached to an outer side of the window frame frame 21 and having a plurality of solar cells for supplying power to the heating wire 4; The multilayer glass window provided with a heating wire, characterized in that the charging unit 63 is built in the space 212 of the lower frame of the window frame and the DC power input from the solar cell module 62 is accumulated. The power supply according to any one of claims 1 to 3, wherein the power supply unit: When the contact between the window frame frame 21 and the window frame frame 11 supporting the window frame 21 is formed in the power input terminal 22 that is electrically connected to the input terminal of the controller 7 on the outside of the window frame frame 21 to which the frames are in contact And a power output end (12) corresponding to the power input end (22) protrudes inside the window frame (11) facing the window frame (21).