KR101093106B1 - Movable louver system - Google Patents

Abstract

PURPOSE: A movable lattice louver system is provided to effectively guide daylight to the interior of a building by actively coping with the direction of the building and the altitude of the sun. CONSTITUTION: A movable lattice louver system comprises guide rails(100), vertical louvers(200), horizontal louvers(300), and hinges(310). The guide rails are arranged in parallel to each other and horizontally fixed to the exterior of a building. The vertical louvers are arranged in parallel to each other, mounted on the guide rails, and moved along the guide rails. The horizontal louvers are installed to connect the adjacent vertical louvers. The hinges are installed in the horizontal louvers so that the horizontal louvers can be folded and unfolded in half.

Description

Movable Louver System

The present invention relates to a lattice louver system installed on the outer surface of a building, and more particularly, to a lattice louver system having a structure in which the horizontal louvers are folded and unfolded according to the horizontal movement of the vertical louvers.

The building is equipped with sunshade for the purpose of protecting the privacy of the inmates by blocking the solar radiation.

The sunshade is divided into the sunshade between the inner sunshade, the outer sunshade, and the windshield according to the installation position, and the outer sunshade is most advantageous for effective blocking of solar energy. The outer shade can serve to reduce the indoor cooling load by emitting the long-wavelength infrared rays generated by solar radiation to the outside, but the shade between the inner awnings and the glass windows installed indoors is cooled by the inflow of the long-wavelength infrared rays generated from the shade side. This is because it functions to reduce the load on a limited basis. Accordingly, as the passive architecture with the motto of energy saving is in the spotlight recently, the interest in the external awning is increasing.

External awnings are usually implemented by installing vertical louvers or horizontal louvers on the outer shell of the building. When the openings are southward, the horizontal louvers are installed and the vertical louvers are installed when the openings are east and west. Recently, a lattice-type louver system that adopts a horizontal louver and a vertical louver at the same time has been adopted in consideration of the simultaneous change of azimuth and altitude angles as the sun rises and changes.

However, although the conventional lattice louver system controls the inflow of daylight by changing the slab angle of the horizontal louver, since it is fixedly installed on the outer surface of the building as a whole, there is a limit in securing the overall light and also obstructs the view of the occupants. It became an element.

The present invention was developed to improve the disadvantages of the conventional lattice louver system, and has the following technical problems.

First, we will provide a new lattice-type louver system that can effectively inject daylight into the building while actively responding to changes in the orientation of the building and the elevation angle of the sun.

Second, it is intended to provide a lattice type louver system that can change the shape according to the preference of the occupants without disturbing the view of the occupants.

In order to solve the above technical problem, the present invention is a louver system installed in a building, the guide rail is horizontally fixed to the building envelope while being disposed in parallel with each other; Vertical louvers are installed parallel to each other and installed on the guide rail, the vertical louver is installed to be coupled to the guide rail to be movable along the guide rail; A horizontal louver installed to connect neighboring vertical louvers; Movable lattice louver configured to include a horizontal louver is folded and unfolded in the middle so that the horizontal louver is folded and unfolded in the middle; Provide a system.

According to the present invention, the following effects can be expected.

First, since the grid louver system by the vertical louver and the horizontal louver can be folded or unfolded while moving freely in the horizontal direction, it is possible to effectively inject daylight into the building while actively responding to changes in the building's orientation and the sun's elevation angle. . In addition, because the horizontal louver can be rotated in the unfolded state, it is possible to inflow or block indoor light performance while appropriately adjusting the slat angle of the horizontal louver.

Second, since the lattice louver system can be shifted to one side, it is possible to open the part or the front of the window in some cases, thereby ensuring the view performance of the occupants with the full lighting.

Third, because the lattice louver system can be changed in various forms, it can inject a three-dimensional feeling and vitality to the exterior wall of the building, thereby completing the building with a new aesthetic facade.

Fourth, the grating louver system according to the present invention can be simply implemented by an electric system and applied.

1 and 2 are schematic diagrams of a movable grating louver system according to the present invention.
Figure 3 is a combined detail of the vertical louver and the horizontal louver in the movable grating louver system according to the present invention.
4 is a detailed view of the coupling shaft and the gear in the vertical rotation in FIG.
5 is a detailed operation of the rotary lever in FIG.
6 is an application state diagram of the movable grating louver system according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings and preferred embodiments.

The present invention relates to a louver system installed on a building envelope to control the light flowing into a building, and FIGS. 1 and 2 schematically show a louver system according to the present invention. As can be seen, the present invention is characterized in that it is configured to be movable so that the horizontal louver 300 is folded and unfolded as the vertical louver 200 moves horizontally in the grid louver system by the vertical and horizontal louvers 300.

Specifically, the present invention, the guide rail 100 is horizontally fixed to the building envelope while being disposed parallel to each other; Vertical louvers 200 are installed to be mounted on the guide rail 100 while being disposed in parallel with each other, coupled to the guide rail 100 so as to be movable along the guide rail 100; A horizontal louver 300 installed to connect between neighboring vertical louvers 200; And a hinge 310 mounted to the horizontal louver 300 so that the horizontal louver 300 is folded and unfolded in the middle. As the vertical louver 200 moves along the guide rail 100, the horizontal louver 300 is configured to be folded and unfolded by the hinge 310. Accordingly, it is possible to adjust the daylight rate flowing into the building while freely moving the horizontal and vertical louver 200 to the position where the solar radiation is concentrated.

The rail connecting piece 210 is provided on the vertical louver 200 so that the vertical louver 200 moves along the guide rail 100, and the rail connecting piece 210 is provided in a form corresponding to the guide rail 100. do. In FIG. 1, the guide rail 100 provided with the T-shaped rail protrusion 110 and the C-type channel connecting rail 210 surrounding the T-shaped rail protrusion 110 can be seen, and the rail for smooth movement. The roller 211 is provided in the connecting piece 210. Meanwhile, although not shown, the rail connecting piece 210 may be connected to the motor for the electric movement of the vertical louver 200.

Meanwhile, FIGS. 1 and 2 are divided according to the end treatment method of the horizontal louver 300. FIG. 1 is an example in which the horizontal louver 300 is tightly fixed to the vertical louver 200. As a result, the horizontal louver 300 is folded from the hinge 310 in a state where the ends are placed in parallel as shown in FIG. It becomes an unfolding structure. 2 is an example of pinning the horizontal louver 300 to the vertical louver 200. As shown in FIG. 2 (b), the horizontal louver 300 is folded and unfolded from the pin fixing end.

3 is a combined detail view of the vertical louver 200 and the horizontal louver 300 proposed as a preferred embodiment in the movable grating louver system according to the present invention, and FIGS. 4 and 5 are vertical rotation shafts 430 in FIG. 3, respectively. ) And the operation detail of the rotation lever 420 and the coupling detail of the gear 440. In FIGS. 3 to 5, a plurality of horizontal louvers 300 installed between the vertical louvers 200 are slat-rotated at the same time so that each of the horizontal louvers 300 is fixed to the vertical louver 200. have. The coupling structure by the vertical rotating shaft 430, the gear 440, the rotary lever 420 is proposed.

The vertical rotation shaft 430 has a screw thread on its outer circumferential surface and is fixed to the vertical louver 200 to be rotatable along the screw thread. In FIG. 3, the vertical louver 200 includes the main body 220 by the C-type channel and the copper plate 230 closing the upper and lower ends of the main body 220, while the vertical rotation shaft 430 is disposed inside the main body 220. It is inserted and fixed to the copper plate 230. The vertical rotation shaft 430 may be connected to the motor and driven to rotate electrically.

The gear 440 is installed to be engaged with the vertical rotation shaft 430, and is connected to the rotation lever 420. As a result, the gear 440 rotates in accordance with the rotation of the vertical rotation shaft 430 to rotate the rotation lever 420. In FIGS. 3 and 4, a gear box 450 is provided to secure a stable installation state of the gear 440. The gear box 450 has a groove-protrusion method in the body 220 of the vertical louver 200. Is installed. The gear 440 is installed inside the gear box 450, and the vertical rotation shaft 430 is installed to mesh with the gear 440 inside the gear box 450 while passing through the through hole 451 of the gear box. In FIG. 4, the fixing nut 452 is fixed to the vertical rotation shaft 430 at the upper and lower portions of the gear box 450 to fix the position of the gear box 450.

The rotary lever 420 is configured to adjust the slat angle of the horizontal louver 300, and allows the horizontal louver 300 to be slat rotated in a completely unfolded state of the horizontal louver 300. For example, when the rotary lever 420 rotates by the rotation of the vertical rotation shaft 430, the horizontal louver 300 is also slat rotated accordingly. Daylight flowing into the room according to the slat rotation of the horizontal louver 300 can be appropriately adjusted. In particular, in FIGS. 3 to 5, the rotary lever 420 is mounted to the lever groove 320 formed on the upper surface of the horizontal louver 300, and the pin is fixed to the horizontal louver 300 by the rotation pin 422. Thereby, the horizontal louver 300 is folded up and unfolded upward from the pinned end. In addition, in FIGS. 3 to 5, the binding lever 421 protrudes from each other and is formed to protrude from each other, and the rotation lever 420 may be confirmed. Such a rotation lever 420 effectively transmits rotational force to the horizontal louver 300. To do this.

6 is an application state diagram of the movable grating louver system according to the present invention. As shown, the movable grating louver system according to the present invention may be changed in various forms according to the moving direction of the vertical louver 200. Accordingly, when the movable lattice louver system according to the present invention is applied to a building, it can be implemented as a building having a new aesthetic façade while injecting a three-dimensional feeling and vitality to the building exterior wall.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, the present invention is not limited to the above-described exemplary embodiments, and various modifications, additions and substitutions may be made without departing from the scope of the present invention. And the scope of the present invention is defined by the appended claims.

100: guide rail
110: rail turning
200: vertical louver
210: rail connection
220: main body
230: Maguripan
300: horizontal louver
320: lever groove
410: hinge
420: rotary lever
430: vertical axis of rotation
440: gear
450: gearbox
WF: Window frame (not shown)
WG: Window glass (not described)

Claims (4)

Louver system installed in the building,
A guide rail 100 fixedly installed horizontally on the building envelope while being disposed in parallel to each other;
Vertical louvers 200 are installed to be mounted on the guide rail 100 while being disposed in parallel with each other, coupled to the guide rail 100 so as to be movable along the guide rail 100;
A horizontal louver 300 installed to connect between neighboring vertical louvers 200;
A hinge 310 mounted to the horizontal louver 300 such that the horizontal louver 300 is folded and unfolded in the middle;
Movable lattice louver system comprising a horizontal louver 300 is folded and unfolded by a hinge 310 as the vertical louver 200 moves along the guide rails 100. In claim 1,
A rotation lever 420 disposed between the vertical louver 200 and the horizontal louver 300 to slat the horizontal louver 300;
The movable lattice louver system, characterized in that further comprises a slat rotation by the rotary lever 420 in a state in which the horizontal louver 300 is expanded. In claim 2,
The rotary lever 420, the horizontal grating 300 is a movable grating louver system, characterized in that the seat is installed on the lever groove 320 formed on one surface of the horizontal louver (300). 3. The method according to claim 2 or 3,
Having a screw thread on the outer circumferential surface, the vertical rotation shaft 430 is fixed to the vertical louver 200 to be rotatable; And,
A gear 440 which is installed to be engaged with the vertical rotation shaft 430 and connected to the rotation lever 420 to rotate in accordance with the rotation of the vertical rotation shaft 430 to rotate the rotation lever 420;
Movable grating louver system, characterized in that further comprises.

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