KR20100118723A

KR20100118723A - Automatic driving device of slide screen

Info

Publication number: KR20100118723A
Application number: KR1020090037551A
Authority: KR
Inventors: 박영남
Original assignee: 주식회사 세명차양시스템
Priority date: 2009-04-29
Filing date: 2009-04-29
Publication date: 2010-11-08

Abstract

The present invention relates to an automatic driving device for a slide screen, and covers a hollow roll (1) on which the original screen (S) and the original screen (S) are wound, and the hollow roll (1) on which the original screen (S) is wound. A slide screen having an outer cover (2), comprising: a cylindrical hollow inner cylinder (10) embedded in the hollow roll (1); A cylindrical battery case 20 inserted into the hollow inner cylinder 10; A battery (30) embedded in the battery case (20); A motor 40 to which power of the battery 30 in the battery case 20 is supplied; Coupling means (50) for coupling the shaft and the hollow roll (1) of the motor (30); A wire 60 connecting the battery 30 and the motor 40; Including an infrared receiver 70 for intermittent power supply of the motor 40 is simple and easy to install and operate wirelessly, the upper and lower positions of the screen to be controlled and set automatically and accurately remotely from a remote control. It is possible to extend the life of the device to the maximum and to operate it correctly even if it is used for a long period of time. It is a useful invention with a special advantage that is built-in beautiful appearance.

Description

Automatic driving device of slide screen

The present invention relates to a device for operating a slide screen wirelessly, and more particularly, the device is not exposed to the outside in the form of a built-in battery while being able to wirelessly operate a slide screen that has been operated manually or semi-automatically remotely. It relates to an automatic driving device for a beautiful slide screen.

In general, slide screens are commonly used as blinds, and are objects that are installed in windows to block light, dimming, blocking, etc., and have been used as reeds, grids, shutters, and veins. Blinds, etc. In modern times, several new types of roller shades are rolled up using springs, and venetian blinds are sandwiched between double glass.

It is called Breeze Soleil, which is not only capable of demolition and movement but also built into the building itself permanently.

The architecture has some functions to block such external influences, and the blinds are not only a pursuit of a more pleasant interior environment, but also an expression of an intention to make the characteristics of the building device more prominent.

In addition, interest in modern blinds is considered economically by allowing less heat from the outside in accordance with the spread of cooling air.

The performance required for blinds is to block direct and external light, but to allow ventilation, indirect light, and to secure a certain level of view from the inside, and to easily remove and move when not needed.

On the other hand, there are many louver blinds. A louver is a parallel array of thin slats of rectangular shape, which can be blocked by varying the angle of the slats.

The most commonly used blinds are venetian blinds, with a brightly painted slat horizontally attached to the back of the window horizontally, with the angle of the plate freely obscured by direct sunlight or reflection upwards. Let's do it.

Nowadays, various electric blinds are coupled to the electric device to control them automatically, and the electric blinds are installed in the inner space between the double windows to control them automatically from the outside.

Such conventional built-in electric blinds have been adapted to adjust the rising, falling and angle of the blinds by a gear method, an arithmetic method, or a timer method.

However, such a conventional built-in electric blind is difficult to accurately set each window size when the drive power is cut off at the upper and lower limits of the blind when installing it, which takes not only a long installation time but also a long term There was a problem that needed a master. In addition, the conventional built-in electric blind not only accurately detects the winding amount of the lifting and lowering rope, but also causes the overload to shorten the life of the motor and even damage the winding part.

Furthermore, in the case of the built-in large window, the headbox should be installed in the lateral direction so that the straightness of the rotating shaft falls, causing overloading of the motor, thereby shortening the life of the motor and even damaging the motor.

In addition, such a conventional blind has a problem that the thickness of the double window is thick when the structure is complex and the front and rear width is relatively wide when used as a built-in double window.

In addition, although the slide screen which is automatically operated up and down is installed in the classroom of a university or academy, such a device separates the power supply device and the up-and-down driving device associated with the screen from the slide screen to move the screen up and down. Since it must be provided, there is a problem that the overall purchase cost and installation cost of the device takes a lot.

Moreover, since the power supply device and the up and down drive device are provided in connection with the slide screen separately, there is a problem that it is accompanied by inconvenience when moving to another place.

The present invention has been made to solve various drawbacks and problems caused by conventional slide screens and blinds in view of the above-described circumstances, and its object is to provide a simple, easy-to-install structure for the slide screen driving device. It is to provide an automatic driving device of the slide screen to operate.

Another object of the present invention is to provide an automatic driving device of a slide screen that is convenient for use by allowing the upper and lower limit positions of the screen to be automatically controlled and set accurately at a remote location through a remote controller.

Still another object of the present invention is to provide an automatic driving device of a slide screen which is operated correctly even if the operation is used for a long time while extending the life of the device as much as possible by protecting the motor and the winding part by constant and accurate winding amount of the screen. There is.

Still another object of the present invention is to provide an automatic driving device for slide screens having excellent economical efficiency, which is easy to move and install of slide screens due to the built-in top and bottom of the screens, and does not cause overload of the motors, and thus has low manufacturing cost. There is.

It is still another object of the present invention to provide an automatic driving device for a slide screen having a beautiful appearance since a battery and a driving device for supplying power to the driving device are self-built.

Automatic drive device of the slide screen of the present invention for achieving the above object is the original roll (S) and the hollow roll (1) is wound on the original screen (S), the hollow roll (1) is wound on the original screen (S) And a cover (2) surrounding the outer cover (2), the slide screen comprising: a cylindrical hollow inner tube (10) embedded in the hollow roll (1); A cylindrical battery case 20 inserted into the hollow inner cylinder 10; A battery (30) embedded in the battery case (20); A motor 40 to which power of the battery 30 in the battery case 20 is supplied; Coupling means (50) for coupling the shaft and the hollow roll (1) of the motor (30); A wire 60 connecting the battery 30 and the motor 40; It characterized in that it comprises an infrared receiver 70 for intermittent power supply of the motor 40.

The present invention has a simple built-in structure of the drive device of the slide screen, easy to install and operate wirelessly, the upper and lower limit positions of the screen can be set automatically and accurately controlled remotely from the remote control, the winding of the screen Constant and accurate dose is protected to protect the motor and winding parts to extend the life of the device as much as possible and at the same time, it operates correctly even if it is used for a long time. It does not cause overload and has a simple structure, and has low economical manufacturing cost. The battery and driving device for supplying power to the driving device have its own built-in beauty.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the automatic drive of the slide screen of the present invention.

1 is a perspective view of a slide screen employing the automatic drive of the slide screen of the present invention, Figure 2 is an exploded perspective view of the automatic drive of the slide screen of the present invention, Figure 3 is a cross-sectional view taken along the line AA of Figure 2, Figure 4 BB cross-sectional view, as a perspective view of the automatic driving device of the slide screen of the present invention, the automatic driving device of the slide screen of the present invention is a hollow roll (1) on which the original screen (S) and the original screen (S) are wound, and the original screen A slide screen having an outer cover (2) surrounding the hollow roll (1) wound (S), comprising: a cylindrical hollow cylinder (10) embedded in the hollow roll (1); A cylindrical battery case 20 inserted into the hollow inner cylinder 10; A battery (30) embedded in the battery case (20); A motor 40 to which power of the battery 30 in the battery case 20 is supplied; Coupling means (50) for coupling the shaft and the hollow roll (1) of the motor (30); A wire 60 connecting the battery 30 and the motor 40; It includes an infrared receiver 70 for intermittent power supply of the motor 40.

The cylindrical hollow cylinder 10 is made of a conductor is built in the battery case 20, the negative end (-) of the battery 30 is connected to one end, the cap 11 is coupled to the other end cap 11 Is connected to the negative electrode (-) of the battery 30 by connecting the positive electrode (+) of the battery 30 to the terminal plate 11a of the () and the terminal plate 11b of the cap 11 to the cylindrical hollow inner cylinder 10. It is.

The battery case 20 includes a plurality of batteries 30, and a battery cap 23 including contact pins 21 and 21 ′ and an elastic spring 22 is formed on a negative side of the battery 30. On the positive electrode (+) side, the battery plate (27) consisting of a connecting plate (24), an elastic spring (25) and a contact pin (26) is covered, and when the contact pin (26) is pressed, the battery case (20) is pressed. It is configured to be drawn out from the hollow inner cylinder (10).

In addition, one end of the electric wire 60 is connected to the motor 40, and the other end of the electric wire 60 is connected to the positive electrode (+) of the battery 30 through the terminal plate 11a of the cap 11. The cathode (-) of 30 is connected to the motor 40 through the cylindrical hollow cylinder 10 and the terminal plate 11b of the cap 11, and the coupling means 50 coupled to the shaft of the motor 40 is hollow. It is coupled with the roll (1).

The coupling means 50 is formed in a cylindrical shape having a groove therein so that the outer circumferential projection of the shaft of the motor 40 is formed, and a coupling groove is formed on the outer circumferential surface of the cylinder, and the projection of the hollow roll 1 is fixed to the coupling groove. .

One side of the wire 60 is connected to the battery 30 by being connected to the terminal plate (11a, 11b) of the cap 11, and inserted into the wire insertion groove formed on one end side of the outer cover (2). The other side of the wire 60 is connected to the motor 40 through the connector.

The infrared receiver 70 is connected to the motor 40 by a connector and is fixed to one side of the outer cover 2 so as to convert or interrupt the polarity of the power of the battery 30 applied to the motor 40. have.

Next, the operation of the automatic driving device of the slide screen of the present invention configured as described above will be described.

The automatic driving device of the slide screen of the present invention installed in the required place is controlled remotely by an infrared remote controller not shown. That is, when the screen lowering button of the infrared remote controller (not shown) is pressed, the infrared receiver 70 fixed to the outer cover 2 is received by the screen lowering signal emitted from the infrared remote controller.

Accordingly, the infrared receiver 70 causes the motor 40 to operate by supplying power to the motor 40 so that the shaft of the motor 40 rotates forward. Accordingly, the hollow roll 1 coupled to the shaft of the motor 40 rotates in the forward direction, and thus the raw screen S is lowered.

In this case, when the screen lowering button of the infrared remote controller is released, the screen lowering signal emitted from the infrared remote controller is not present and the operation of the motor 40 is stopped, so that the lowering of the far-end screen S is stopped.

In addition, when the screen rising button of the infrared remote control (not shown) is pressed, the infrared receiver 70 fixed to one side of the outer cover 2 receives the screen rising signal emitted from the infrared remote control.

Accordingly, the infrared receiver 70 allows the power of the battery 30 to be supplied to the motor 40 (in this case, the power of the battery 30 is supplied to the motor 40 with the opposite polarity as when the screen is lowered). The motor 40 is operated so that the shaft of the motor 40 is reversed. Accordingly, the hollow roll 1 coupled to the shaft of the motor 40 is reversely rotated so that the far-end screen S is raised.

At this time, if the screen rising button of the infrared remote control is released, the screen rising signal emitted from the infrared remote control is lost and the operation of the motor 40 is stopped, so that the rising of the far-end screen S is stopped.

In the automatic drive device of the slide screen of the present invention, if the battery 30 is to be replaced, the cover cap 2a installed on one side of the outer cover 2 is covered with a coin or other tool to cover the cover cap 2a. Rotating the cover cap (2a) through the slotted groove of the cover cap (2a) from the outer cover (2) and then pressing the contact pin 26, the battery case 20 by the elastic force of the elastic spring 25 Is pushed out of the hollow inner cylinder 10, so that the battery case 20 can be easily withdrawn from the hollow inner cylinder 10, thereby easily replacing the battery 30 in the battery case 20.

While the present invention has been described as a preferred embodiment, the present invention is not limited thereto, and various modifications can be made without departing from the gist of the invention.

1 is a perspective view of a slide screen employing the automatic drive of the slide screen of the present invention,

Figure 2 is an exploded perspective view of the automatic drive of the slide screen of the present invention,

3 is a cross-sectional view taken along the line A-A of FIG.

4 is a cross-sectional view taken along the line B-B in FIG.

Description of the Related Art

10: hollow inner cylinder 11: cap

11a, 11b: terminal plate 20: battery case

21, 21 ': contact pin 22: elastic spring

23: battery cap 24: connection board

25: elastic spring 26: contact pin

27: battery cap 30: battery

40: motor 50: coupling means

60: wire 70: infrared receiver

S: Fabric Screen

Claims

In the slide screen having a distal screen (S) and a hollow roll (1) wound around the distal screen (S), the outer cover (2) surrounding the hollow roll (1) wound on the distal screen (S), A cylindrical hollow inner cylinder 10 embedded in the hollow roll 1; A cylindrical battery case 20 inserted into the hollow inner cylinder 10; A battery (30) embedded in the battery case (20); A motor 40 to which power of the battery 30 in the battery case 20 is supplied; Coupling means (50) for coupling the shaft and the hollow roll (1) of the motor (30); A wire 60 connecting the battery 30 and the motor 40; And an infrared ray receiver (70) for interrupting power supply to the motor (40).

The method of claim 1, wherein the cylindrical hollow cylinder 10 is made of a conductor is built in the battery case 20, the negative electrode (-) of the battery 30 is connected to one end, the cap 11 to the other end The positive electrode (+) of the battery 30 is connected to the terminal plate 11a of the cap 11, and the terminal plate 11b of the cap 11 is connected to the cylindrical hollow inner cylinder 10 so that the negative electrode of the battery 30 ( -) And the automatic drive of the slide screen, characterized in that it is electrically connected.

According to claim 1, wherein the battery case 20 is a plurality of batteries 30 is built-in, the negative electrode (-) side of the battery 30 made of contact pins (21, 21 ') and the elastic spring 22 The battery cap 23 is covered, and the positive electrode (+) side is composed of a battery cap 27 composed of a connecting plate 24, an elastic spring 25 and a contact pin 26 to press the contact pin 26, Automatic drive of the slide screen, characterized in that the battery case 20 is drawn out from the hollow inner cylinder (10).

The motor 40 of claim 1, wherein one end of the electric wire 60 is connected, and the other end of the electric wire 60 is connected to the positive electrode (+) of the battery 30 through the terminal plate 11a of the cap 11. On the other hand, the negative electrode (-) of the battery 30 is connected to the motor 40 through the cylindrical hollow cylinder 10 and the terminal plate 11b of the cap 11, and coupling means coupled to the shaft of the motor 40. Automatic drive device of a slide screen, characterized in that 50 is coupled to the hollow roll (1).

According to claim 1, wherein the coupling means 50 is made of a cylindrical shape having a groove therein so that the outer peripheral surface projection of the shaft of the motor 40 is formed in the coupling groove is formed on the outer peripheral surface of the cylinder of the hollow roll (1) An automatic driving device of a slide screen, characterized in that the projection is inserted and fixed.

According to claim 1, wherein one side of the wire 60 is connected to the battery 30 by being connected to the terminal plate (11a, 11b) of the cap 11 via a connector, formed on one side end side of the outer cover (2) Inserted into one of the wire insertion groove, the other side of the wire 60 is the automatic drive device of the slide screen, characterized in that connected to the motor 40 through the connector.

The method of claim 1, wherein the infrared receiver 70 is connected to the motor 40 by a connector attached and fixed to one side of the outer cover 2 to convert or interrupt the polarity of the battery 30 power applied to the motor 40. Automatic driving device of the slide screen, characterized in that configured to be.