KR20130110700A

KR20130110700A - Blider system usig heat protecting film

Info

Publication number: KR20130110700A
Application number: KR1020120032859A
Authority: KR
Inventors: 이민창
Original assignee: 주식회사 필링크
Priority date: 2012-03-30
Filing date: 2012-03-30
Publication date: 2013-10-10

Abstract

A blinder system employing a thermal barrier film is disclosed. A screen member 10 formed of a heat shield film; a rod member 20 for winding the screen member 10; coupled to both ends of the rod member 10 so that the rod member 10 is rotatable. A drive unit 40 coupled to the rod member 10 to allow a user to rotate the rod member 10 to unwind or wind the screen member 30; and the screen member. A lower frame 50 coupled to a lower portion of the 30; a solar module 60 coupled to a side of the lower frame 50; and a storage battery for accumulating electricity produced by the solar module 60; 70); and the illumination sensor 80 coupled to the side of the lower frame 50; and whether the direct sunlight of the sun reaches the lower frame 50 by analyzing the signal transmitted from the illumination sensor 80 Whether or not, in winter, the drive unit 40 is operated to wind up the screen member 30, and in summer The system blinds down so that the machine screen member (30) applying the thermal barrier film comprising a control unit (90) for operating the driving unit 40 is provided.

Description

Blinder system with thermal barrier film {Blider system usig heat protecting film}

The present invention relates to a blinder system to which a thermal barrier film is applied. The present invention relates to a blinder system that not only generates electricity by itself but also actively operates according to seasonal and external temperature changes.

Conventional blinder systems used to manually fold or fold the screen in the sun. More advanced was the use of a motor to lower or raise the screen.

In summer, however, blinds can block sunlight while blocking out the view from the window. Once the blinder hits, the average person just leaves it in the sun despite the lack of sunlight.

If the sun's direct sunlight doesn't get into the room, the blinds can be rolled out so people can look out the window.

The present invention is to provide a blinder system applying a thermal barrier film that can lower or raise the screen member to distinguish the winter and summer.

In addition, the present invention is to provide a blinder system to which the thermal barrier film is applied to receive information about the weather and temperature from the outside, to express it as a light so that people in the room can easily know the external environment.

According to an aspect of the present invention,

A screen member 10 made of a thermal barrier film;

A rod member 20 capable of winding the screen member 10;

A housing 30 coupled to both ends of the rod member 10 such that the rod member 10 is rotatable;

A driving unit 40 coupled to the rod member 10 to allow a user to rotate the rod member 10 to unwind or wind the screen member 30;

A bottom frame 50 coupled to the bottom of the screen member 30;

A solar module 60 coupled to the side of the bottom frame 50;

A storage battery 70 for storing electricity produced by the solar module 60;

An illumination sensor (80) coupled to the side of the lower frame (50);

Analyzing the signal transmitted from the light sensor 80 to detect whether the direct sunlight of the sun reaches the bottom frame 50, and in winter to operate the drive unit 40 to wind the screen member 30 In the summer, to provide a blinder system applying a heat shield film including a control unit 90 for operating the drive unit 40 so that the screen member 30 is lowered.

In addition, the housing 30 includes a wireless communication device 100 capable of wireless communication with an external server storing weather information;

Further comprising a LED light source 110 coupled to the housing 30,

The control unit 90 provides a blinder system to which a thermal barrier film is applied, wherein the color of the LED light source 110 is changed according to an external temperature based on temperature information transmitted from the wireless communication device 100. I would like to.

The present invention provides a blinder system using a thermal barrier film capable of lowering or raising the screen member by separating winter and summer.

In addition, the present invention provides a blinder system using a thermal barrier film that receives information on the weather and temperature from the outside, and expresses it as light to allow people in the room to easily know the external environment.

1 is a perspective view of a blinder system to which another thermal barrier film is applied to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout. , Thereby not limiting the spirit and scope of the present invention.

1 is a perspective view of a blinder system to which a thermal barrier film according to an embodiment of the present invention is applied.

In the present embodiment, the blinder system 100 to which the thermal barrier film is applied includes: a screen member 10 made of a thermal barrier film; a rod member 20 capable of winding the screen member 10; and the rod member 10. A housing 30 coupled to both ends of the rod member 10 such that the rod member is rotatable; coupled to the rod member 10, the user rotates the rod member 10 to allow the screen member 30 to be rotated. A driving unit 40 for releasing or winding the light; a lower frame 50 coupled to a lower portion of the screen member 30; and a solar module 60 coupled to a side of the lower frame 50; A storage battery 70 for storing electricity produced by the solar module 60; an illumination sensor 80 coupled to a side of the lower frame 50; and a signal transmitted from the illumination sensor 80 Analyze whether the direct sunlight of the sun reaches the bottom frame 50, and in winter the drive unit 40 It operates to wind up the screen member 30, the summer includes a control unit 90 for operating the drive unit 40 so that the screen member 30 is lowered.

The blinder system 100 to which the thermal barrier film of the present embodiment is applied operates using power generated by itself. In addition, the screen member 10 is operated differently according to winter and summer.

Screen member 10 is made of a thermal barrier film. The thermal barrier film is a film that blocks infrared rays in sunlight and transmits visible light.

The screen member 10 is wound around the rod member 20. Depending on the direction in which the rod member 20 rotates, the screen member 10 may be lowered or rolled up to be upward.

The housing 30 is coupled to both ends of the rod member 10 so that the rod member 10 is rotatable, and prevents the wound screen member 10 from being exposed to the outside.

The driving unit 40 is coupled to one end of the housing member 30. The driving unit 40 includes a motor and a reducer to rotate the rod member 10.

The lower frame 50 is coupled to the lower portion of the screen member 30. The bottom frame 50 adds weight so that the screen member 30 is straightened. In addition, the solar module 60 and the storage battery 70 and the illumination sensor 80 is coupled to the side of the lower frame 50.

The solar module 60 functions to produce power. The solar module 60 is formed of a plurality, it is coupled to the side of the lower frame (50). The blinder system 100 to which the thermal barrier film of the present embodiment is applied is installed such that the solar module 60 faces the window. The power produced by the solar module 60 is stored in the storage battery 70.

The illuminance sensor 80 detects whether direct sunlight reaches the lower frame 50, and transmits this signal to the controller 90.

In the controller 90, a logic circuit and data for operating the driver 40 are embedded. In the summer months (June-September), we do not want the infrared rays in the direct sunlight to enter the room. Therefore, when the illumination sensor 80 detects sunlight, the controller 90 operates the driving unit 40 to lower the screen member 10 to the end. After that, if no direct sunlight is detected, such as in the evening or rain, the screen member 10 is raised.

On the other hand, during the winter season (November to February), the controller 90 raises the screen member 10 to the end to raise the room temperature during the day. At night, the screen member 10 is lowered to prevent the heat of the room from escaping to the outside.

On the other hand, the blinder system 100 to which the thermal barrier film is applied is added a function to easily know the temperature change in the room.

The housing 30 is coupled to a wireless communication device 100 capable of wireless communication with an external server storing weather information. The wireless communication device 100 may be a short range communication device such as Wi-Fi or Bluetooth, or may be a long range communication device using a communication network provided by a communication company. The wireless communication device 100 may be connected to an external server, and receives weather (especially temperature) information stored by the external server and transmits the weather information to the controller 90.

The controller 90 may briefly transmit outdoor temperature information by controlling the LED light source 110 coupled to the housing 30.

For example, when the LED light source 110 turns red, it means that the external temperature is more than 35 degrees Celsius, the orange may mean between 30 degrees Celsius and 35 degrees Celsius. In addition, blue may indicate that the temperature is less than or equal to 10 degrees below zero.

People in the room are not immediately aware of the outdoor temperature situation due to heating and cooling devices. When people go out, first, they look out the window, and at this time, it is easy to see the outdoor situation by looking at the color of the LED light source 110 coupled to the blinder system 100 to which the thermal barrier film is applied.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Modifications and additions by those skilled in the art to an equivalent range based on the embodiments will also fall within the scope of the present invention.

Screen member 10 Rod member 20
Housing 30 Drive 40
Bottom frame 50 Solar module 60 Storage battery 70
Ambient light sensor 80, control unit 90

Claims

A screen member 10 made of a thermal barrier film;
A rod member 20 capable of winding the screen member 10;
A housing 30 coupled to both ends of the rod member 10 such that the rod member 10 is rotatable;
A driving unit 40 coupled to the rod member 10 to allow a user to rotate the rod member 10 to unwind or wind the screen member 30;
A bottom frame 50 coupled to the bottom of the screen member 30;

An illumination sensor (80) coupled to the side of the lower frame (50);
Analyzing the signal transmitted from the light sensor 80 to detect whether the direct sunlight of the sun reaches the bottom frame 50, and in winter to operate the drive unit 40 to wind the screen member 30 Raise, summer blinder system applying a heat shield film including a control unit 90 for operating the drive unit 40 so that the screen member (30) is lowered.

The method of claim 1,
A solar module 60 coupled to the side of the bottom frame 50;
The blinder system to which the thermal barrier film is further applied, further comprising a storage battery (70) for storing electricity produced by the solar module (60).

3. The method of claim 2,
The housing 30 includes a wireless communication device 100 capable of wireless communication with an external server storing weather information;
Further comprising a LED light source 110 coupled to the housing 30,
The control unit (90) is a blind system using a heat shield film, characterized in that for changing the color of the LED light source 110 according to the external temperature based on the temperature information transmitted from the wireless communication device (100).

The method of claim 3,
The driving unit (40)
Blinder system using a thermal barrier film, characterized in that consisting of a motor and a reducer.