KR102516255B1 - Electric blind window with battery module - Google Patents

Abstract

The present invention relates to a window having a battery module mounted on a window frame and supplying power to an electric blind provided inside the window. The battery module (100) includes: a power supply case (110) mounted on the window frame and electrically connected to the electric blind; and a battery (120) inserted into the power supply case and supplying power to the power supply case. By introducing the battery into the power supply case, the battery and the electric blind are electrically connected to each other.

Description

Electric blind window with battery module {ELECTRIC BLIND WINDOW WITH BATTERY MODULE}

The present invention relates to a motorized blind window having a battery module, and more specifically, to a technology that enables a smooth supply of external power by installing a battery on a window frame to supply power to the motorized blind.

In the case of a conventional automatic blind device, the blind is fixedly installed in an exposed type on the upper wall in front of the window in the case of a single-glazed glass structure, or is installed and used inside in the case of a double-glazed glass structure. That is, in the case of double glazing, blinds may be built into the space between the glass and used. When a blind device is installed on a single-layer glass structure, power is supplied by connecting the power supply cable plug extending from the blind device to a power supply socket fixed on the wall. Power is supplied to the inside of the double-glazed glass by the operation of the electric unit for blinds fixed adjacently. A motor for moving the blinds up and down is built inside the double-glazed glass, and the motor is driven by the power supplied through the power supply unit to perform the up and down movement of the blinds.

The up and down movement of the blinds may be performed by a user manually manipulating a switch or may be performed through communication with an operating terminal such as a smart phone. In addition, it is also possible to control the movement of the blinds up and down through voice using recent voice recognition technology.

On the other hand, the double-glazed windows with built-in automatic blind devices having such a structure include "remote controllable automatic blinds built-in double-glazed windows" of Utility Model Registration No. 20-0373326.

Looking at the prior art, as a double-glazed window with built-in automatic blinds movably installed on a window frame, it is a double-glazed structure in which two sheets of glass are hermetically manufactured with a spacer bar for double-glazed glass interposed therebetween. It is embedded in the double-glazed structure in a suspended state on the upper side of the inner space of the double-glazed structure and the door frame of the window surrounding the edge of the double-glazed structure and the blind transmission unit fixed adjacent to the upper side inside the double-glazed structure. In addition, an automatic blind that is deployed or retrieved by the operation of the blind transmission unit is embedded inside the double-glazed glass.

In such a motorized blind window, the blind can be deployed (moving down or rising) by the operation of a motor separately provided inside the double-glazed window. To this end, power must be supplied to the inner space consisting of two glass windows. That is, for the operation of the electric blinds, power must be supplied from the outside to the window frame, and power must be supplied from the window frame to the window again.

However, in the case of replacing pre-installed windows (windows without built-in electric blinds) inside the building with electric blinds, there is a problem in that it is difficult to supply power to the blinds because the windows do not have power lines for power supply. A separate extension cable must be connected to an outlet provided inside the building or a separate power line must be placed along the wall, but the construction is cumbersome and the interior is damaged, resulting in aesthetic problems.

In addition, in the prior art, in the system window having the structure as shown in FIG. 1, it is difficult to supply power to the electric blind motor inside the window because the window has a structure in which the window rotates and protrudes from the window frame. That is, since the system window has a structure in which one side of the left and right or one side of the top and bottom protrudes from the frame and rotates, it is difficult to effectively supply power in the same way as in the prior art.

Utility Model Registration No. 20-0373326 "remote controllable automatic blind built-in double-glazed windows"

An object of the present invention is to provide a power supply device for supplying power to blinds for windows and doors, and to provide a technology capable of smoothly supplying power without damaging the interior of a room by using a battery module.

An object of the present invention is to supply power to electric blinds for windows and doors, and an object of the present invention is to provide a device that can smoothly supply power using magnets even in system windows.

The present invention is a window having a battery module mounted on a window frame and supplying power to an electric blind provided inside a window.

The battery module 100 includes a power supply case 110 mounted on a window frame and electrically connected to the electric blind; and a battery 120 inserted into the power supply case and supplying power to the power supply case, wherein the battery and the motorized blind are electrically connected to each other by drawing the battery into the power supply case. characteristic.

The battery has a first contact 126 for electrical conduction protruding outward from the lower end and internal magnets 128 provided on both sides of the first contact, and the power supply case has an upper surface It is open and has an inner space, and may include a second contact point that is energized by contacting the first contact point and a metal part that generates an attractive force with the inner magnet 128 at the inner lower end of the inner space. The contact force between the first contact point and the second contact point increases due to the attractive force between the inner magnet and the metal part.

It further includes a power connection structure for connecting power between the window frame and the window, and the power connection structure includes a cylindrical first conductor 110 that can be drawn out, and the first body 100 embedded in the window. ); A second body (200) disposed at a position corresponding to the first conductor, provided with a second conductor (210) provided to be energized while in contact with the first conductor in a state where it protrudes to the outside, and embedded in the window frame. ), wherein the first conductor includes a first magnet, and the second conductor includes a second magnet, so that when the window is closed, the first body and the second body are adjacent to each other so that the first body and the second body are adjacent to each other. The first conductor may be drawn out of the first supporter by the attractive force of the first magnet and the second magnet, so that the first conductor and the second conductor may come into contact with each other to conduct electricity.

According to the above structure, the present invention has an effect of smoothly supplying power to window blinds using a battery, and an effect of smoothly supplying power to system window blinds.

1 and 2 show an exemplary appearance in which the battery module of the present invention is mounted on various windows equipped with electric blinds,
3 and 4 are perspective views of the battery module applied to the electric blind window according to the present invention,
5 and 6 are detailed views of some configurations of the battery module applied to the electric blind window according to the present invention,
7 and 8 show a power connection structure for electric blinds for windows using magnetic force according to the present invention,
9 to 11 show the structure of the first body in the electric blind power connection structure for windows according to the present invention,
12 to 14 show the structure of the second body in the motorized blinds power connection structure for windows and doors according to the present invention.

Objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and preferred embodiments taken in conjunction with the accompanying drawings. In addition, the terms used are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of the user operator. Therefore, definitions of these terms should be made based on the content throughout the present specification.

[Battery module power supply method]

The present invention relates to an electric blind window in which a battery module for supplying power for driving the electric blind is mounted on a window frame. According to the present invention, it provides a compact structure that does not require an extension cable extending from an outlet provided inside the building and is disposed along the wall and does not cause aesthetic problems. 1 and 2 show an exemplary appearance in which the battery module 100 of the present invention is mounted on a window frame in a system window or sliding window.

An electric blind window according to the present invention is a window equipped with a battery module that is mounted on a window frame and supplies power to an electric blind provided inside a window. The battery module 100 includes a power supply case 110 and a battery 120 .

The power supply case 110 is mounted on the window frame, and a connecting means for electrical connection is provided at the lower portion to be electrically connected to the electric blind (motor for driving the blind). And, the battery 120 is a part that is inserted into the power supply case and supplies power to the power supply case. The battery that is drawn into the power supply case to supply power must be sufficiently charged in advance. For charging, it is charged from a general power outlet as a separate charging means. The charging means may be used in various ways, and may be charged using a C-type charger such as a mobile phone battery charger, or a dedicated charger, or may be charged using the power supply case structure.

The present invention is characterized by using a battery as driving power for the electric blind motor, and by introducing the battery into the power supply case, the battery and the electric blind (motor) are electrically connected to each other, thereby enabling motor driving. Therefore, an extension line or outlet for a separate external power supply is not required.

And, as shown in FIGS. 5 and 6, the battery 120 has a first contact point 126 for electrical conduction protruding outward from the lower end, and internal magnets provided on both sides of the first contact point. (128). In addition, the power supply case 110 has an open upper surface and has an inner space, and a second contact that is energized by contacting the first contact at the bottom of the inner space, and the inner magnet 128 and the attractive power. It may be provided with a metal part that generates. In a state in which the battery is drawn into the power supply case, an effect of increasing the contact force between the first contact point and the second contact point is exhibited by the attractive force between the internal magnet and the metal part. In FIG. 6, 125 denotes a lower body provided inside the lower part of the battery.

[Power supply method using magnet]

Referring to FIG. 1 , in the system window, one side of the left and right or one side of the upper and lower sides of the window 10 rotates in the window frame 20. In addition, a blind (B) is installed inside the window 10 and is controlled to move up and down. The blind may be deployed (moving down or rising) by the operation of a motor separately provided inside the double-glazed glass of the window 10, and for this purpose, power must be supplied to the inner space composed of two glass windows. That is, in order to operate the electric blinds, power must be supplied from the outside to the window frame 20, and power must be supplied from the window frame 20 to the window 10 again, but this connection was not easy in the system window. The present invention relates to a technique for supplying power from the window frame 20 to the window 10 in this structure, but effectively supplying power while the window is closed.

7 and 8 show the electric blind power connection structure for windows using magnetic force according to the present invention, and FIGS. 9 to 11 show the structure of the first body in the electric blind power connection structure for windows according to the present invention 12 to 14 show the structure of the second body in the electric blind power connection structure for windows and doors according to the present invention.

In the present invention, the magnetic force of the magnet was utilized for the power connection structure of the electric window blind. First, the first body 100 is embedded in the window and the second body 200 is embedded in the window frame, so that a portion of the first body and the second body are electrically connected to each other. Power is supplied from the outside by a separate device to the second body 200 embedded in the window frame.

The first body 100 has a cylindrical first conductor 110 capable of protruding outwardly, and is embedded in a window. The second body 200 includes a second conductor 210 capable of conducting electricity, and the second conductor is disposed at a position corresponding to the first conductor so that the first conductor protrudes to the outside and conducts electricity while in contact with the second conductor 210. do. The first conductor 110 enters the inside of the first body or protrudes outward from the first body by magnetic force, which will be described below. The first conductor 110 has a first magnet 118 inside, and the second conductor 210 has a second magnet 216 inside.

When the window is closed to the window frame, the first body and the second body are adjacent to each other, and in this state, the first conductor and the second conductor are adjacent to each other and placed in corresponding positions. When the first body and the second body are adjacent to each other in this way, the first conductor is drawn out of the first supporter by the attractive force of the first magnet and the second magnet, so that the first conductor and the second conductor It is possible to conduct electricity by contacting each other, and as a result, it is possible to supply power to the blind provided inside the window.

And, when the window is opened and moved away from the window frame, the attraction between the first and second magnets disappears, and the first conductor 110 is automatically moved into the first body 100 by the elastic force of the spring to be described below. is brought in

The internal structure of the first body 100 of the power connector of the present invention will be described in more detail with reference to FIGS. 9 to 1 .

The first body 100 includes a first support 120 having a hollow portion 122 for accommodating the first conductor, and being accommodated in the hollow portion 122 while surrounding the outer circumferential surface of the first conductor. a spring 130, a protruding coupling part 115 protruding outward in the radial direction from the rear end of the first conductor and fitted into the spring, and a first magnet 118 embedded in the first conductor ) is provided.

When the protruding coupling part 115 of the first conductor 110 is inserted and coupled to an appropriate position of the spring, and the first conductor is drawn out by the attractive force of the first magnet and the second magnet, the spring 130 ) is a structure in which elastic force is stored while being compressed. And, when the first magnet and the second magnet are far apart and the attraction disappears, the first conductor 110 is automatically drawn into the first body 100 by the elastic force of the spring and returns to its original position.

The internal structure of the second body 200 of the power connector of the present invention will be described in more detail with reference to FIGS. 12 to 14 .

The second conductor 210 is a part that is embedded in the second body 200 and the front part is exposed to the outside to conduct electricity. The second conductor 210 includes a circular plate-shaped front portion 212 in contact with the first conductor 110 of the first body, a cylindrical connecting portion 214 extending rearward from the center of the front surface portion, It consists of a second magnet 216 having a cylindrical shape with a hollow part 216a in the center into which the connecting part is inserted. There is a hollow part 216a at the center of the second magnet 216, and the cylindrical connecting part 214 is inserted and coupled to each other.

Specifically, when the power connection structure of the present invention operates in a system window, when the window is closed, the first body and the second body are adjacent to each other, and the first conductor is moved to the second body by the attractive force of the first magnet and the second magnet. By protruding out of one support body, the front surfaces 212 of the first conductor and the second conductor come into contact with each other, enabling conduction. And, when the window is opened, the first conductor is pulled into the first support body 120 by the elastic force of the spring 130, and the front part 212 of the first conductor and the second conductor are energized. is released

Here, when the window is closed and the first conductor and the second conductor are in contact with each other and energization is possible, power can be supplied to the motor of the motorized blind device provided inside the window, and the window is opened so that the first conductor and the second conductor can be energized. When the 2nd conductor is de-energized, power is not supplied to the motorized blinds.

Referring to FIG. 11, the first body 100 includes a center member accommodating the first support body 120, and an extension portion 150 coupled to both sides of the center member to extend the length to both sides. Concave-convex structures are formed at both ends of the center member to be coupled with the expansion part. The first body is embedded in a space suitable for a window, and the expansion part is provided on both sides to enable the embedding to correspond to the size of the space where the window is buried. When the embedded space in the window is large, the first body is embedded in the window while the extension is coupled to both sides, and when the embedded space in the window is small, the first body is embedded in the window while the extension is removed. will be.

Although the preferred embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concept of the present invention defined in the following claims are also made according to the present invention. falls within the scope of the rights of

Claims (4)

A window equipped with a battery module mounted on the window frame and supplying power to the electric blind provided inside the window,
The battery module includes a power supply case mounted on a window frame and electrically connected to the electric blind; And a battery that is inserted into the power supply case and supplies power to the power supply case;
By introducing the battery into the power supply case, the battery and the electric blind are electrically connected to each other,
Further comprising a power connection structure for connecting power between the window frame and the window,
The power connection structure includes a first body 100 having a cylindrical first conductor 110 that can be drawn out and embedded in a window; A second body (200) disposed at a position corresponding to the first conductor, provided with a second conductor (210) provided to be energized while in contact with the first conductor in a state where it protrudes to the outside, and embedded in the window frame. );
The first conductor includes a first magnet and the second conductor includes a second magnet, so that when the window is closed, the first body and the second body are adjacent to each other, so that the first magnet and the second magnet are adjacent to each other. The electric blind window having a battery module, in which the first conductor is drawn out of the first body by the manpower of, and the first conductor and the second conductor come into contact with each other to enable energization. According to claim 1,
The battery includes a first contact 126 for electrical conduction protruding outward from the lower end and internal magnets 128 provided on both sides of the first contact,
The power supply case has an open upper surface and has an inner space, and at the bottom of the inner space, a second contact contacting and energized by contacting the first contact point and a metal part generating an attractive force with the inner magnet 128 are provided. So,
Motorized blind windows having a battery module, characterized in that the contact force between the first contact point and the second contact point is increased by the attractive force between the inner magnet and the metal part. According to claim 1,
The first body 100 of the power connection structure,
a first support 120 having a hollow part 122 for accommodating the first conductor;
a spring 130 accommodated in the hollow part 122 while surrounding the outer circumferential surface of the first conductor;
a protruding coupling portion 115 formed by protruding outward from the rear end of the first conductor in a radial direction and fitted to the spring; and
A first magnet 118 embedded in the first conductor,
The second conductor 210 of the power connection structure,
a circular plate-shaped front portion 212 in contact with the first conductor 110;
a connecting portion 214 having a cylindrical shape extending rearward from the center of the front portion;
A second magnet 216 having a cylindrical shape having a hollow in the middle into which the connection part is inserted;
When the window is closed, the first body and the second body are adjacent to each other, and the first conductor is drawn out of the first supporter by the attractive force of the first magnet and the second magnet, and the first conductor and the second body are drawn out. The front part 212 of the conductor is in contact with each other so that electricity can be conducted,
When the window is opened, the first conductor is drawn into the first support body 120 by the elastic force of the spring 130, and the front part 212 of the first conductor and the second conductor is discontinued. Characterized in that, electric blinds windows having a battery module. delete

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