KR20220016733A - Electrode integrated type sliding window structure for supplying power of smart window - Google Patents

Abstract

Disclosed is a horizontal sliding window structure with an integrated electrode for supplying power to smart glass which can connect constant power for supplying power to smart glass provided on a horizontal sliding window and has sufficient space in a frame for wiring when the window is opened and closed. The horizontal sliding window structure with an integrated electrode for supplying power to smart glass comprises: a window having smart glass driven by supplying power and a window frame accommodation unit; and a window frame inserted into the window frame accommodation unit, and provided with a rail to horizontally move the window. A first metal electrode horizontally extended from the window frame accommodation unit and a second metal electrode horizontally extended from the window frame to come in contact with the first metal electrode are formed on the window frame accommodation unit.

Description

Electrode integrated type sliding window structure for supplying power of smart window

The present invention relates to a window structure for Miseogi, and more particularly to a structure for a window door for Miseogi for power supply of smart glass.

Electrochromic technology that changes the color of a material through an electrochemical reaction is being applied to smart glass that requires power supply, such as electrochromic glass to block direct sunlight and transparent displays.

Such smart glass needs to supply power to the glass plate to change the color of the glass or change the display state according to the user's needs. It is difficult to secure the durability of the product, so it is not easy to supply power all the time. In the case of sliding windows that open and close by moving left and right on the rails on some Miseogi window frames, power is supplied to the smart glass through the plug-socket method in the closed position, so power supply may be interrupted when the window is opened. There is a limit to what can only be done.

Korean Patent Publication No. 2007-0034464, Korean Patent No. 1083672, Korean Patent Publication No. 2017-0063293, Korean Patent Publication No. 2018-0024214, etc. introduce various methods for power supply of smart glass, There is no mention of a structure in which a constant power connection is possible for power supply to the smart glass provided in the Miseogi window.

Therefore, the present invention has been devised to solve the above problem, and it is possible to connect a power source at all times for supplying power to the smart glass provided in the Miseogi window, and to minimize the interference during wiring. It is intended to provide an electrode-integrated micro-surgery window structure for power supply of smart glass with sufficient depth.

In order to solve the above problem, the present invention is provided with a smart glass driven through power supply and the window frame receiving portion is formed; and a window frame inserted into the window frame accommodating part, a rail is formed so that the window sill is moved in the horizontal direction; One metal electrode, and a second metal electrode extending in the horizontal direction to the window frame so as to contact the first metal electrode provides an electrode-integrated microscopic window structure for power supply of smart glass, characterized in that it is formed.

In addition, each of the first metal electrode and the second metal electrode is a tape-shaped elastic material having a 'C' cross-section, and when the window frame crosses with the window frame according to the horizontal movement of the window sill, the first metal electrode and the second metal electrode It provides an electrode-integrated microseogi window structure for power supply of smart glass, characterized in that they are in contact while pressing each other.

In addition, the window frame and the window frame are respectively equipped with first and second fittings extending in a horizontal direction, and both ends of the first and second metal electrodes are respectively provided with the first and second fittings. It provides an electrode-integrated microseogi window structure for power supply of smart glass, characterized in that it is inserted into the fixed groove formed in the ash.

In addition, the window is provided with an electrode-integrated micro-shoe structure for power supply of smart glass, characterized in that a frame hollow layer for preventing interference of wiring connected to the first metal electrode is provided.

The present invention is a smart glass provided in a Miseogi window and door structure provided with smart glass, so that the first metal electrode and the second metal electrode extending in the horizontal direction are formed at the corresponding positions of the window sill and the window frame. It is possible to provide an electrode-integrated microseogi window structure for power supply of smart glass so that the power supply can be made at all times.

In addition, a frame hollow layer is provided to prevent interference of wiring connected to the first metal electrode, and an electrode-integrated micro-seed window structure for supplying power to smart glass with sufficient depth of the frame inner space for wiring and the window frame accommodating part when opening and closing windows. can provide

1 is a cross-sectional view showing a structure of an electrode-integrated Miseogi window for power supply of smart glass according to an embodiment of the present invention;
2 is an enlarged view of part 'A' of FIG. 1;
3 is a view viewed from the 'B' direction of FIG. 1;
Figure 4 is a schematic diagram for explaining a state in which the electrode-integrated misogi window structure for power supply of the smart glass according to the present invention is applied.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, if it is determined that a detailed description of a related known technology may obscure the gist of the present invention, the detailed description thereof will be omitted. In order to clearly explain the present invention in the drawings, parts irrelevant to the description are omitted, and similar reference numerals are given to similar parts throughout the specification, and the detailed configuration direction of the present invention will be described with reference to the drawings. Also, throughout the specification, when a part "includes" a certain component, it means that other components may be further included, rather than excluding other components, unless otherwise stated.

1 is a cross-sectional view showing a structure of an electrode-integrated Miseogi window for power supply of a smart glass according to an embodiment of the present invention, FIG. 2 is an enlarged view of part 'A' of FIG. 1, and FIG. 3 is FIG. It is a view viewed from the 'B' direction, and FIG. 4 is a schematic diagram illustrating a state in which an electrode-integrated microseogi window structure for power supply of smart glass according to the present invention is applied.

1 to 4, the electrode-integrated micro window structure 100 for supplying power to the smart glass according to the present invention is provided with a smart glass 111 driven through power supply, and the window frame accommodating part 112 is provided. Formed window (110); and a window frame 120 that is inserted into the window frame receiving part 112, a rail 125 is formed so that the window panel 110 is moved in the horizontal direction; , a first metal electrode 113 extending in a horizontal direction to the window frame receiving part 112 and a second metal electrode extending in a horizontal direction to the window frame 120 to contact the first metal electrode 113 ( 121) is formed.

In the present invention, the tape-shaped first metal electrode 113 extending in the horizontal direction to the window frame receiving part 112 of the window sill 110 corresponds to the first metal electrode 113 on the window frame 120 in the same manner. Since the second metal electrode 121 is formed at the position where the window is opened and closed, the first metal electrode 113 and the second metal electrode 121 are in contact with each other to supply power to the smart glass 111 at all times. let it go

Here, the power supply to the smart glass 111 is made through a wiring connected to a power supply unit (not shown) outside the window, and the wiring is the wiring groove 122 of the window frame 120 and the second metal of the window frame 120 . The electrode 121 is connected through the first metal electrode 113 of the window frame accommodating part 112 of the window frame 110 and the wiring groove 114 of the window panel 110 to supply power to the smart glass 111 .

In the present invention, the contact method between the first metal electrode 113 and the second metal electrode 121 is not particularly limited, but according to an example, the first metal electrode 113 and the second metal electrode 113 are Each of 121) is a tape-shaped elastic material having a 'C' cross-section, and when the window frame 120 intersects with the window frame 120 according to the horizontal movement of the window pane 110, the first metal electrode 113 and the second metal electrode ( 121) may be configured so that the ground portion is in contact while pressing each other.

In this case, the material of the first metal electrode 113 and the second metal electrode 121 is a conventional electrode having an elastic force sufficient to maintain contact with each other by the force pressed according to the sliding of the window pane 110 . It goes without saying that the material is not particularly limited.

As described above, the first metal electrode 113 and the second metal electrode 121 made of an elastic material are formed to be elongated in the form of a 'C' shaped tape, respectively, so that when the window is closed, a portion, that is, the window sill 110 , is formed. Each end where the window frame 120 and the window frame 120 meet is partially overlapped so that the wiring is connected, and even when the window frame 110 slides, the contact state is always maintained, so that power can be supplied to the smart glass 111 at all times.

In the present invention, a method for easily and stably installing the first metal electrode 113 and the second metal electrode 121 on the window sill 110 and the window frame 120, respectively, is provided.

That is, according to an embodiment of the present invention, the window pane 110 and the window frame 120 are respectively equipped with a first fitting member 115 and a second fitting member 123 extending in a horizontal direction, and the second fitting member 123 is mounted. Both ends of the first metal electrode 113 and the second metal electrode 121 in the longitudinal direction are inserted into the fixing grooves formed in the first and second fittings 115 and 123, respectively.

The first clamping material 115 and the second clamping material 123 are also formed to extend in the horizontal direction and are fitted into the fitting grooves formed in advance in the window sill 110 and the window frame 120, respectively. The material of the first fitting material 115 and the second fitting material 123 is not particularly limited as long as it is a non-conductive material, and may be, for example, a plastic material such as PVC.

The first clamping material 115 and the second clamping material 123 are provided with fixing grooves 116 and 124 extending in the horizontal direction so that the metal electrode in the form of a tape is inserted on the surfaces facing each other, respectively, Both longitudinal ends of the first metal electrode 113 and the second metal electrode 121 are inserted and fixed into the fixing grooves 116 and 124, so that the first metal electrode 113 and the second metal electrode 121 are fixed. It is easy to install and sturdy, so that power is supplied smoothly at all times after installation.

In addition, in the present invention, a structure capable of preventing interference of wiring that may occur due to sliding of a window is provided.

That is, according to an embodiment of the present invention, the window pane 110 is provided with a frame hollow layer 117 for preventing interference of wiring connected to the first metal electrode 113 .

The electric wire connected to the first metal electrode 113 is connected to the smart glass 111 through a wiring groove 114 formed in the frame of the window pane 110 , and the frame hollow layer 117 is the first metal electrode 113 . ) and the wiring groove 114 to increase the degree of freedom of wiring, maintaining a sufficient depth of the window frame accommodating part 112, and preventing interference between wiring and reinforcing steel, etc., while ensuring the durability of wiring have.

As above, preferred embodiments of the present invention have been described in detail with reference to the drawings. The description of the present invention is for illustrative purposes, and those skilled in the art to which the present invention pertains will understand that it can be easily modified into other specific forms without changing the technical spirit or essential features of the present invention.

Accordingly, the scope of the present invention is indicated by the following claims rather than the description of the invention, and all changes or modifications derived from the meaning, scope, and equivalent concept of the claims are interpreted as being included in the scope of the present invention. should be

100: Miseogi window structure 110: Changjak
111: smart glass 112: window frame receiving part
113: first metal electrode 114: groove for wiring of the windowpane
115: first clamping material 116: fixing groove of the first clamping material
117: frame hollow layer 120: window frame
121: second metal electrode 122: groove for wiring of window frame
123: second fitting material 124: fixing groove of the second fitting material
125: rail

Claims (4)

a window glass provided with a smart glass driven through power supply and formed with a window frame accommodating part; and a window frame that is inserted into the window frame receiving part, and a rail is formed so that the window frame moves in the horizontal direction;
Electrodes for supplying power to smart glass, characterized in that a first metal electrode extending in a horizontal direction to the window frame receiving part and a second metal electrode extending in a horizontal direction to the window frame to contact the first metal electrode are formed All-in-one sliding window structure. According to claim 1,
Each of the first metal electrode and the second metal electrode is a tape-shaped elastic material having a 'C' cross section, and when the window frame crosses the window frame according to the horizontal movement of the window sill, the first metal electrode and the second metal electrode are formed. Electrode-integrated Miseogi window structure for power supply of smart glass, characterized in that they are in contact while pressing each other. 3. The method of claim 2,
The window frame and the window frame are respectively equipped with first and second fittings extending in a horizontal direction, and both ends of the first and second metal electrodes are respectively formed with the first and second fittings. An electrode-integrated microseogi window structure for power supply of smart glass, characterized in that it is inserted into the fixed groove formed in the . According to claim 1,
The window sill is an electrode-integrated misseogi window structure for power supply of smart glass, characterized in that it is provided with a frame hollow layer for preventing interference of wiring connected to the first metal electrode.

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