KR101522419B1 - Skylight - Google Patents

Abstract

The present invention relates to a skylight which is installed in an aperture penetrated through a ceiling or an external wall of a building, being well-lighted. The present invention comprises: an outdoor window frame installed toward the outside of the building, and guiding external light to the inside by being installed in the aperture; an outdoor window installed in the outdoor window frame, and where the external light is transmitted; and reflective members reflecting light entering the inside of the building through the outdoor window, and detachably installed on internal sides of the outdoor window frame. Detachable portions where the reflective members are detached are formed on the inner periphery of the outdoor window frame.

Description

Skylight {SKYLIGHT}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a skylight, and more particularly, to a skylight installed on a ceiling or an outer wall of a building to allow outside light to enter the interior.

Generally, a skylight is installed on the ceiling or outer wall of various buildings such as factories, warehouses, etc. in order to brighten the interior of the building by the smooth inflow of sunlight.

Particularly, in the case of a building such as a factory, it is possible to prevent the use of artificial lighting by reducing the illumination of the factory through the lighting by the skylight, thereby reducing the electricity cost for lighting.

In addition, workers at the factory reduce natural fatigue due to natural light rather than artificial light such as a fluorescent lamp, thereby improving a working environment as well as a pleasant working environment.

However, the conventional skylight window only transmits the light introduced through the skylight to the room, and there is no attempt to increase the light efficiency of the light introduced through the skylight window.

In addition, the storm flowing along the ceiling or the outer wall is structurally easily gathered around the skylight without draining smoothly due to the skylight projecting partially from the ceiling outer surface or outer wall outer surface, There is a lot of concern.

Open Utility Model No. 20-2013-0000276 (Name: A skylight capable of replacing a diffusion material by adopting a retractable frame, published on Jan. 10, 2013) Japanese Patent Application Laid-Open No. 10-2010-0131883 (titled "skylight with illumination lamps", publication date: December 16, 2010) Korean Patent Registration No. 10-0907644 (titled: skylight of a building roof, public announcement day: July 13, 2009)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a skylight capable of easily replacing and mounting a reflecting member and capable of improving indoor lighting efficiency.

It is another object of the present invention to provide a skylight that smoothly discharges the rain flowing along the ceiling or the outer wall, and prevents leakage into the room.

An object of the present invention is to provide a skylight installed in an opening penetrating through a ceiling or an outer wall of a building and provided with an outdoor window mounted on the opening to guide outside light to the room, frame; An outdoor window mounted on the outdoor window frame and through which external light is transmitted; And a reflection member that reflects light received through the outdoor window to the interior of the building and detachably provided on the inner side of the outdoor window frame, wherein the reflection member is detachably attached to the inner periphery of the outdoor window frame Can be achieved by a skylight window in which a detachable portion is formed.

The protrusion protrudes from the inner periphery of the outdoor window frame and closely supports the plate surface of the reflective member coupled to the detachable portion.

An indoor window for diffusing the light introduced through the outdoor window frame into the room; An indoor window frame supporting the indoor window and located in the interior of the building; And a support frame unit to which the indoor window frame is mounted and which is installed in an airtight manner on the ceiling of the building or on the exterior wall surface of the building.

The supporting frame unit includes a support frame provided along the opening, the supporting frame partially enclosing the indoor window frame; And coupling means for fixing the support frame to the ceiling surface of the room or the wall surface of the room.

The support frame may further include an extension jaw extending toward the center of the opening to closely support the edge of the interior window.

The outdoor window frame may have a flange protruding from the outdoor ceiling surface or the outdoor exterior wall surface of the building.

The outdoor window frame has a hollow cylindrical shape, and at least one pair of hollows are formed on the outer periphery of the outdoor window frame to allow the rainwater to flow in and out, and the inside of the outdoor window frame A flow passage may be formed.

Wherein the outdoor ceiling surface or the outdoor outer wall surface of the building has a wave-shaped cross-section in which recessed portions and projections are repeatedly formed in a transverse direction with respect to the inclined direction of the ceiling or the outer wall, And may be positioned to communicate with the recessed portion of the outer wall surface.

And a reinforcing rib provided on the inner side of the outdoor window frame to reinforce the outdoor window frame.

A picture, a pattern or an advertisement may be formed on the indoor window.

According to the present invention, by forming a pair of attaching / detaching portions for attaching / detaching the reflecting member to the inner periphery of the outdoor window frame, the reflecting member can be easily replaced and mounted, and the efficiency of indoor lighting can be improved.

Further, a pair of or more outflow holes through which the rainwater flows in and out are formed on the outer circumference of the outdoor window frame, and an outflow flow passage through which the rainwater flowing into the rainwater flows is formed inside the outdoor window frame, It is possible to smoothly drain out the storm and prevent leakage to the room.

1 is a perspective view of a skylight installed according to an embodiment of the present invention;
Fig. 2 is a longitudinal sectional view of Fig. 1,
Fig. 3 is an exploded perspective view of Fig. 1,
4 is a perspective view of the outdoor window frame of Fig. 1, Fig.
FIG. 5 is a view showing the flow of rain in a ceiling provided with a skylight according to an embodiment of the present invention. FIG.

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

1 to 4 show a skylight according to an embodiment of the present invention. As shown in these drawings, in the present embodiment, the skylight 10 is mounted on the opening 7 having a rectangular sectional shape passing through the ceiling 1 of the building. However, the present invention is not limited to this, The opening 7 may be formed in any one of a circular, elliptical, and polygonal cross-sectional shape, and the skylight 10 may have a cross-sectional shape corresponding to the opening 7.

The skylight 10 according to an embodiment of the present invention includes an outdoor window frame 11, an outdoor window 31, and a reflective member 35.

The outdoor window frame 11 is mounted to the opening 7 penetrating the ceiling 1 of the building toward the outside of the building and guides the outside light to the room.

The outdoor window frame 11 has a rectangular frame shape corresponding to the rectangular sectional shape of the opening 7. The outdoor window frame 11 is composed of a pair of horizontal frames 13 and a pair of vertical frames 15 and has a size of a cross section fitted into the openings 7 of the ceiling 1. The corner portions of the horizontal frame 13 and the vertical frame 15 are chamfered and the chamfered portions of the horizontal frame 13 and the vertical frame 15 are mutually chamfered according to the material of the outdoor window frame 11 Welded or heat-sealed to form one side edge of the outdoor window frame 11.

A flange 17 for supporting the outdoor window frame 11 on the outdoor ceiling face 3 of the building is protruded at a predetermined width at an edge of one end of the outdoor window frame 11.

Further, the outdoor window frame 11 has a cylindrical shape with a hollow square cross section. On the inner side of the outdoor window frame 11, there is provided a reinforcing rib 19 for reinforcing the endurance strength of the outdoor window frame 11. In the present embodiment, the pair of reinforcing ribs 19 are provided parallel to the ceiling surface 5 with a space therebetween. However, the present invention is not limited thereto. The reinforcing ribs 19 may be provided in a lattice shape. The inner side of the outdoor window frame 11 in this embodiment is partitioned into three inner spaces by a pair of reinforcing ribs 19 and an inner space of the outdoor window frame 11 located adjacent to the flange 17 Flows through the fine holes 29 to be described later and forms an even-numbered flow passage 21.

On the other hand, a seating groove 23 on which the edge of the outdoor window 31 is seated is formed on the outer peripheral surface of the horizontal frame 13 and the vertical frame 15 facing the outdoor of the building. It is preferable that the seating groove 23 is recessed so that the outdoor window 31 does not protrude from the plane of the flange 17 in a state where the outdoor window 31 is seated in the outdoor window frame 11.

Each of the inner frame upper end portion and the lower end portion of the horizontal frame 13 and the vertical frame 15 is provided with a pair of detachable portions for detachably attaching the reflective member 35 along the longitudinal direction of the horizontal frame 13 and the vertical frame 15, Are formed so as to protrude from each other. The reflective members 35 are mounted on the inner circumference of the outdoor window frame 11 by fitting both side edges of the reflective member 35 to the pair of fitting jaws 25. In this embodiment, a pair of fitting jaws 25 are provided on the inner peripheral upper end portion and the lower end portion of the horizontal frame 13 and the vertical frame 15 so as to face each other along the longitudinal direction of the horizontal frame 13 and the vertical frame 15 But the present invention is not limited to this configuration and the pair of fitting jaws 25 may be formed at both ends of the inner and outer sides of the horizontal frame 13 and the vertical frame 15 such that the horizontal frame 13 and the vertical frame 15 And the reflecting member 35 may be mounted.

A protruding protrusion 27 protruding from the inner circumference of the outdoor window frame 11 is provided between the pair of fitting protrusions 25 of the outdoor window frame 11, And the reflective member 35 mounted between the light guide plate 25. The projecting step 27 in the present embodiment has a flat plate shape, but is not limited thereto, and the projecting step 27 may have a predetermined radius of curvature and be curved convexly.

The outdoor window (31) is mounted on the outdoor window frame (11), and external light is transmitted. The outdoor window 31 has a rectangular plate shape corresponding to the sectional shape of the outdoor window frame 11 and is seated in the seating groove 23 of the outdoor window frame 11. The edge of the outdoor window 31 and the seat groove 23 are subjected to silicon molding so that the outdoor window 31 is adhered to the outdoor window frame 11 and the space between the edge of the outdoor window 31 and the seat groove 23, Thereby preventing the wind or rain from entering the skylight 10. It is preferable that the outdoor window 31 has a thickness not protruding from the plane of the flange 17 in a state where the outdoor window 31 is seated in the seating groove 23 of the outdoor window frame 11. Also, the outdoor window 31 may be made of a transparent tempered glass or a transparent polycarbonate material.

The reflection member 35 is detachably provided on the inner side surface of the outdoor window frame 11 and reflects the light introduced through the outdoor window 31 to the interior of the building. Sectional shape having a size corresponding to each width and length of the vertical frame 15 and the reflecting member 35 is composed of a total of four and includes a pair of horizontal frames 13 and a pair of vertical frames 15. Each reflecting member 35 is fitted into a pair of fitting jaws 25 formed on the horizontal frame 13 and the vertical frame 15 so that each reflecting member 35 is located on the inner circumference of the outdoor window frame 11 Respectively.

The reflective member 35 mounted on the inner periphery of the outdoor window frame 11 is elastically deformed convexly in the central region of the reflective member 35 by the projecting step 27 protruding from the inner periphery of the outdoor window frame 11, And is firmly coupled to each fitting jaw 25.

Due to the structure of the reflecting member 35, the light introduced through the outdoor window 31 passes through the outdoor window frame 11 and is refracted and reflected by the reflecting member 35 to be deeply drawn into the interior of the building So that the indoor lighting efficiency can be improved. Here, the reflection member 35 may be formed of a material such as a transparent polycarbonate, a silver foil or a light film. Further, it is preferable that the reflecting member 35 is elastically deformable so that the reflecting member 35 can be easily attached to or detached from the fitting jaw 25.

Meanwhile, the skylight 10 according to the present invention may further include an indoor window 41, an indoor window frame 51, and a support frame unit 61.

The indoor window (41) diffuses the light introduced through the outdoor window frame (11) into the room, thereby further improving the indoor lighting efficiency. The indoor window 41 has a plate shape of a rectangular cross section corresponding to the sectional shape of the opening 7 of the ceiling 1 and the width and the length of the indoor window 41 are larger than the opening 7. Here, it is preferable that the indoor window 41 is made of a transparent polycarbonate material having excellent durability and light diffusion. Further, a picture, a pattern, or an advertisement may be formed on the surface of the indoor window 41 so as to decorate the interior of the room or to advertise the interior.

The indoor window frame 51 is located in the interior of the building and supports the indoor window 41. The indoor window frame 51 is provided along the periphery of the opening 7 of the ceiling 1 and has a rectangular frame shape corresponding to the sectional shape of the opening 7. On the inner periphery of the indoor window frame 51, a support step 53 for seating and supporting the respective edges of the indoor window 41 is formed.

The support frame unit 61 is equipped with an indoor window frame 51 and is provided with airtightness at the ceiling 5 of the building. The support frame unit (61) includes a support frame (63) and a coupling means (69).

The supporting frame 63 is provided along the opening 7 of the ceiling 1 and has a rectangular frame shape corresponding to the sectional shape of the opening 7. The support frame 63 includes an insertion portion 65 into which an interior window frame 51 is inserted so as to partly enclose the interior window frame 51 and an insertion portion 65 extending from the center of the opening 7 along one side of the insertion portion 65 As shown in Fig.

The extension jaw 67 is disposed opposite the support jaw 53 of the indoor window frame 51 with the interior window 41 interposed therebetween so as to closely support the edge of the interior window 41 together with the support jaw 53 .

The engaging means 69 fixes the support frame 63 to the room ceiling 5 and screws and bolts can be applied as the engaging means 69. Further, the supporting frame 63 and the indoor window frame 51 are fixed by the engaging means 69.

Thereby, the support frame 63 is fixed by the engaging means 69 around the opening 7 of the ceiling 1 and the indoor window frame 51 and the support frame 63 Is fixed by the engaging means 69 so that the gap between the room ceiling surface 5 and the supporting frame 63 is not opened so that insects and foreign substances are introduced into the inside of the skylight 10 from the inside of the building .

On the other hand, a plurality of fine holes 29 are formed on the outer circumference of the outdoor window frame 11 of the skylight 10 according to the present invention. In the present embodiment, a plurality of holes 29 are formed at regular intervals along the longitudinal direction of each of the horizontal frames 13 of the outdoor window frame 11.

Therefore, as shown in Fig. 5, the rainwater inflowing into the fine holes 29 of the one side frame 13 flows along the fine flow passage 21 formed in the inner space of the outdoor window frame 11, And flows out through the fine holes (29) of the frame (13). Accordingly, the rain flowing along the ceiling 1 can be easily drained without being easily gathered around the skylight 10, and can be prevented from leaking into the room through the skylight 10 and its surroundings.

Here, the outdoor ceiling surface 3 of the building to which the skylight 10 is mounted has a cross-sectional shape in which the recessed portion 3a and the protruded portion 3b are repeatedly formed continuously in the transverse direction with respect to the inclined direction of the ceiling 1 It is preferable that each of the well holes 29 is formed at a position communicating with the recessed portion 3a of the outdoor ceiling surface 3.

The construction of the skylight 10 according to the present invention will be briefly described as follows.

Hereinafter, a skylight 10 is provided on a ceiling 1 of a building having a corrugated cross section in which recessed portions 3a and protrusions 3b of a trapezoidal cross-sectional shape are formed continuously as an embodiment.

First, an opening 7 for installing a skylight 10 is formed through the ceiling 1 of a building.

Next, the outdoor window frame 11 is fitted and fitted into the opening 7 so that the flange 17 of the outdoor window frame 11 is seated on the projecting portion 3b of the outdoor ceiling face 3. At this time, the well hole 29 of the outdoor window frame 11 is disposed at a position communicating with the recessed portion 3a of the outdoor ceiling surface 3. Here, the flange 17 of the outdoor window frame 11 is brought into close contact with the protruding portion 3b of the outdoor ceiling facet 3 and the flange 17 is fastened to the outdoor ceiling facet 3 (not shown) by fastening means (not shown) ).

The gap between the outer periphery of the outdoor window frame 11 and the opening 7 of the outdoor ceiling face 3 is adjusted so that leakage does not occur between the outer periphery of the outdoor window frame 11 and the opening 7 of the outdoor ceiling face 3, And the outdoor window frame 11 is finished on the ceiling 1 by silicone molding.

The reflective member 35 is fitted to each of the fitting jaws 25 formed on the inner periphery of the outdoor window frame 11 to mount the reflecting member 35 to the outdoor window frame 11. [

Next, after the outdoor window 31 is seated in the seating groove 23 of the outdoor window frame 11, the space between the edge of the outdoor window 31 and the seating groove 23 is subjected to silicon molding to form the outdoor window 31 To the outdoor window frame (11).

Here, the installation order is changed so that the reflection member 35 and the outdoor window 31 are assembled to the outdoor window frame 11, and then the outdoor window frame 11 is mounted on the opening 7 of the ceiling 1 It is possible.

Subsequently, when the installation of the outdoor window frame 11 is completed, the support frame 63 is fixed to the ceiling surface 5 of the room with the engaging means 69 along the opening 7 of the ceiling surface 5 of the room.

Subsequently, after the indoor window 41 is disposed between the supporting frame 63 and the indoor window frame 51, one area of the indoor window frame 51 is inserted into the inserting portion 65 of the supporting frame 63 Then, the indoor window frame 51 is fixed to the supporting frame 63 by the engaging means 69.

Thus, the construction of the skylight 10 according to the present invention is completed.

The supporting frame 63, the indoor window 41 and the indoor window frame 51 are mounted on the ceiling 5 of the building by changing the construction sequence, and then the opening of the outdoor ceiling surface 3 of the building The reflection window 35, the outdoor window 31, and the outdoor window frame 11 may be mounted on the window frame 7.

Therefore, the sunlight entering the outdoor window 31 passes through the outdoor window frame 11 and is reflected by the reflecting member 35 and diffused through the indoor window 41. [ So that natural light is indoors.

As described above, according to the present invention, the pair of attaching / detaching portions for attaching / detaching the reflecting member to the inner circumference of the outdoor window frame is formed, so that the reflecting member can be easily replaced and attached, and the efficiency of indoor lighting can be improved.

In addition, a pair of or more outflow holes through which the storm flows into and out of the outer circumference of the outdoor window frame are formed, and an outflow passage through which the storm flows into the storm hole is formed in the inside of the outdoor window frame, So that it is possible to prevent leakage to the inside of the room.

Meanwhile, in the above-described embodiments, the skylight according to the present invention is installed on the ceiling of the building, but the present invention is not limited thereto. The skylight according to the present invention can be installed on the outer wall of the building.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention. Accordingly, such modifications or variations are intended to fall within the scope of the appended claims.

1: ceiling 3: outdoor ceiling front
3a: recessed portion 3b:
5: room ceiling 7: opening
10: skylight 11: outdoor window frame
13: Horizontal frame 15: Vertical frame
17: flange 19: reinforcing rib
21: Excellent flow passage 23:
25: insertion jaw 27: protruding jaw
29: Excellent ball 31: Outdoor window
35: reflective member 41: indoor window
51: Indoor window frame 53: Support jaw
61: support frame unit 63: support frame
65: insertion portion 67: extension jaw
69: coupling means

Claims (10)

A skylight installed in an opening penetrating a ceiling or an outer wall of a building,
An outdoor window frame installed to the outside of the building and installed in the opening to guide outside light to the room;
An outdoor window mounted on the outdoor window frame and through which external light is transmitted; And
And a reflective member detachably mounted on an inner surface of the outdoor window frame to reflect the light received through the outdoor window to the interior of the building,
Wherein an attaching / detaching portion for attaching / detaching the reflective member is formed on an inner circumference of the outdoor window frame,
The outdoor window frame has a hollow cylindrical shape. At least one or more pairs of hollow holes are formed on the outer circumference of the outdoor window frame to allow the rain flowing along the ceiling or the outer wall to flow in and out. A skylight with an excellent flow path through which the stormwater inflow into the wells flows. The method according to claim 1,
Further comprising a projecting jaw projecting from the inner periphery of the outdoor window frame and closely supporting the plate surface of the reflecting member coupled to the detachable portion. The method according to claim 1,
An indoor window for diffusing the light introduced through the outdoor window frame into the room;
An indoor window frame supporting the indoor window and located in the interior of the building; And
Further comprising a support frame unit mounted with the indoor window frame and provided with airtightness on the ceiling or indoor wall surface of the building. The method of claim 3,
The support frame unit includes:
A support frame provided along the perimeter of the opening and partially enclosing the indoor window frame; And
And fixing means for fixing the support frame to the room ceiling surface or the room outer wall surface. 5. The method of claim 4,
Wherein the support frame further comprises an extension jaw extending toward the center of the opening to closely support the edge of the interior window. The method according to claim 1,
Wherein the outdoor window frame is formed with a flange protruding from the outdoor ceiling surface or the outdoor exterior wall surface of the building. delete The method according to claim 1,
Wherein the outdoor ceiling surface or the outdoor outer wall surface of the building has a wave-shaped cross-section in which recessed portions and projections are repeatedly formed in a transverse direction with respect to the inclined direction of the ceiling or the outer wall, And is positioned to communicate with the recessed portion of the outer wall surface. The method according to claim 1,
And a reinforcing rib provided inside the outdoor window frame to reinforce the outdoor window frame. The method of claim 3,
Wherein the indoor window is provided with a picture, a pattern or an advertisement.

Images