CN215594648U - Roof daylighting skylight - Google Patents

Abstract

The utility model relates to a roof lighting skylight, which comprises a roof framework, wherein the top of the roof framework is symmetrically provided with a first fixed window and a second fixed window by taking a ridge as a symmetry axis, one end of the first fixed window, which is far away from the ridge, is provided with a first roof panel, and the other end of the second fixed window is provided with a second roof panel; make first opening window and second open the window and pass through sealing device and be connected with first connecting portion, can be in the first window of opening and second when opening the window and be in the closed condition like this, can make first opening window and second open the window and do not have the gap that can supply the rainwater to get into with the junction of first connecting portion through sealing device, the emergence of the infiltration condition has been avoided, through setting up first fixed window, the fixed window of second, because the adoption is fixed continuous with the roofing, can not only promote the whole daylighting rate of roofing, simultaneously and the junction of roofing also need not reserve the gap that can supply to open, the emergence of infiltration problem has been avoided.

Description

Roof daylighting skylight

Technical Field

The utility model relates to the technical field of daylighting skylights, in particular to a roof daylighting skylight.

Background

In some large buildings, such as gymnasiums or shopping malls, in order to meet the requirements of energy conservation, emission reduction, ventilation and the like, a lighting skylight is often required to be arranged on the roof of the building, and natural light in the daytime is used for illuminating the indoor space, so that energy is saved.

For example, publication No. CN204492032U discloses a lighting and ventilating skylight, which includes a lighting window, a solar air collector, sealing plates on two sides, an electric baffle, an air inlet, and an air outlet; the solar air heat collector is placed in the south-facing direction, the lighting window is placed in the north-south direction, the sealing plates made of aluminum alloy materials are arranged at two ends of the skylight, and the heat insulation plates are arranged in the sealing plates; the air inlet is provided with an electric baffle plate for controlling the opening and closing of the air inlet; the solar air heat collector is connected with the frame, the sealing plate is connected with the frame, and the lighting window is connected with the frame through bolts; the frame is embedded in the concrete roof, and this utility model though combine daylighting, ventilation into a whole, but the skylight all sets up on the roofing basically, because need open the ventilation moreover, so the skylight is opened and must have the gap that can supply to open between the window frame in fan and skylight, causes the problem of rainwater seepage very easily like this.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provides a roof lighting skylight, which has the advantage of avoiding water seepage in the use process of the skylight.

The technical scheme for realizing the purpose is as follows:

the utility model provides a roof lighting skylight, which comprises a roof framework, wherein the top of the roof framework is symmetrically provided with a first fixed window and a second fixed window by taking a ridge as a symmetry axis, one end of the first fixed window, which is far away from the ridge, is provided with a first roof panel, one end of the second fixed window, which is far away from the first fixed window, is provided with a second roof panel, one end of the first roof panel, which is far away from the first fixed window, is rotatably connected with a first opening window, one end of the second roof panel, which is far away from the second fixed window, is rotatably connected with a second opening window, the first opening window and the second opening window are internally provided with window frames and glass arranged in the window frames, the bottom of the window frames is provided with a connecting groove with a downward opening, the bottom of the connecting groove is connected with a first connecting part in a buckling manner, and a sealing device for sealing is arranged between the connecting groove and the first connecting part, the bottom of the first connecting part is connected with the roof framework.

Preferably, one side of the first opening window and one side of the second opening window facing the roof framework are both connected with screw type window openers used for controlling opening and closing. To facilitate the support of the first opening window and the second opening window.

Preferably, two the one end of screw ware of windowing respectively with first open the window with the window is opened to the second rotates and connects, two the screw ware other end of windowing pass through the second connecting piece with roof skeleton connects, wherein the second connecting piece includes connecting plate, mount and rotary rod, the connecting plate is fixed roof skeleton department, the mount with the screw ware of windowing rotates and connects, just the connecting plate with rotary rod connection is passed through to the mount. In order to facilitate the process that the two screw type window openers push the first opening window and the second opening window to keep smooth.

Preferably, the two screw type window openers are connected to the control box through control lines. The first opening window and the second opening window are automatically opened or closed through the screw type window opener according to requirements or weather conditions.

Preferably, sealing device, including vacuum pump, connecting pipe, intercommunicating pore and sealing strip, the internally mounted of spread groove has two sealing strips, and two the top of sealing strip with the window frame is connected, two the bottom of sealing strip with first connecting portion are connected, the window frame bottom is close to the vacuum pump is installed to one side of first connecting portion, the intercommunicating pore has been seted up to the inside of window frame, the internally mounted of intercommunicating pore has the connecting pipe, wherein the one end of connecting pipe with the spread groove link up, the connecting pipe other end with vacuum pump connection. To facilitate sealing of the first and second opening windows.

Preferably, sealing device still includes pressure release handle, pressure release pipe, control valve and control handle, the pressure release handle through the pressure release pipe with the connecting pipe is linked together, the one end of pressure release pipe with the connecting pipe is linked together, the other end with the surface of pressure release handle is linked together, be provided with the control valve that is used for controlling the break-make of pressure release pipe in the pressure release handle, it is provided with the control handle that is used for controlling the pressure release valve to rotate on the pressure release handle. In order to facilitate the vacuum pump or the screw type window opener to break down, the first opening window and the second opening window are convenient to push and open.

Preferably, one side, close to the glass, of the first connecting portion is provided with a water bar, a water drainage groove is arranged above the water bar, the bottom of the water drainage groove is obliquely and downwards arranged and is communicated with a water drainage hole formed in the first connecting portion, and one end, far away from the water drainage groove, of the water drainage hole is communicated with a drainage ditch of a roof. In order to eliminate rainwater seeping to one side of the first connecting part relative to the glass when the first opening window and the second opening window are failed and can not be completely closed or are not completely closed in the early stage of rainfall.

The utility model has the beneficial effects that: in the use process of the utility model, the first opening window and the second opening window are connected with the first connecting part through the sealing device, so that when the first opening window and the second opening window are in a closed state, no gap for rainwater to enter exists at the connecting part of the first opening window and the second opening window and the first connecting part through the sealing device, and the occurrence of water seepage is avoided.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the screw-type window opener of FIG. 1 connected to a second connecting member according to the present invention;

FIG. 3 is a schematic view illustrating a coupling structure of the first coupling part and the window frame of FIG. 1 according to the present invention;

FIG. 4 is a schematic cross-sectional view of the window frame of FIG. 1 according to the present invention;

description of reference numerals:

1. a first fixed window; 2. a second fixed window; 3. a first opening window; 301. a window frame; 302. glass; 303. connecting grooves; 304. a vacuum pump; 305. a connecting pipe; 307. a communicating hole; 308. a pressure relief handle; 309. a pressure relief pipe; 310. a control valve; 311. a control handle; 4. a second opening window; 5. a roof ridge; 6. a first roof panel; 7. a second roof panel; 8. a first connection portion; 801. a sealing strip; 802. a water bar; 803. a water discharge tank; 804. a drain hole; 9. a screw type window opener; 10. a roof skeleton; 11. a drainage ditch; 12. a second connecting member; 1201. a connecting plate; 1202. a fixed mount; 1203. the rod is rotated.

Detailed Description

The utility model is further described with reference to the following figures and specific examples.

Referring to fig. 1 to 4, the utility model provides a roof skylight, which includes a roof frame 10, a first fixed window 1 and a second fixed window 2 are symmetrically installed on the top of the roof frame 10 by taking a ridge 5 as a symmetry axis, a first roof panel 6 is installed on one end of the first fixed window 1 away from the ridge 5, a second roof panel 7 is installed on one end of the second fixed window 2 away from the first fixed window 1, one end of the first roof panel 6 away from the first fixed window 1 is rotatably connected with a first opening window 3, one end of the second roof panel 7 away from the second fixed window 2 is rotatably connected with a second opening window 4, a window frame 301 and glass 302 arranged in the window frame 301 are both installed in the first opening window 3 and the second opening window 4, a connecting groove 303 with a downward opening is arranged at the bottom of the window frame 301, a first connecting part 8 is connected at the bottom of the connecting groove 303 in a buckling manner, a sealing device for sealing is installed between the connecting groove 303 and the first connecting part 8, the bottom of the first connecting portion 8 is connected to a roof framework 10.

In this example, make first opening window 3 and second open window 4 and be connected with first connecting portion 8 through sealing device, can be in the first opening window 3 and second when opening window 4 and being in the closed condition like this, can make first opening window 3 and second open window 4 and first connecting portion 8's junction do not have the gap that can supply the rainwater to get into through sealing device, the emergence of the infiltration condition has been avoided, through setting up first fixed window 1, the fixed window 2 of second, because the adoption is fixed continuous with the roofing, can not only promote the whole daylighting rate of roofing, simultaneously also need not reserve the gap that can supply to open with the junction of roofing, the emergence of infiltration problem has been avoided.

Further, as shown in fig. 1, one side of the first opening window 3 and one side of the second opening window 4 facing the roof framework 10 are both connected with a screw type window opener 9 for controlling opening and closing, and by arranging the screw type window opener 9, the first opening window 3 and the second opening window 4 can be supported in an opening state of the first opening window 3 and the second opening window 4, so that the first opening window 3 and the second opening window 4 are prevented from being suddenly closed due to the self gravity and the wind power of the first opening window 3 and the second opening window 4.

Further, as shown in fig. 1 and fig. 2, one end of each of two screw type window openers 9 is rotatably connected to the first opening window 3 and the second opening window 4, and the other end of each of the two screw type window openers 9 is connected to the roof framework 10 through a second connecting member 12, wherein the second connecting member 12 includes a connecting plate 1201, a fixing frame 1202 and a rotating rod 1203, the connecting plate 1201 is fixed to the roof framework 10, the fixing frame 1202 is rotatably connected to the screw type window openers 9, and the connecting plate 1201 and the fixing frame 1202 are connected through the rotating rod 1203, so that the two screw type window openers 9 can keep smooth in the process of pushing the first opening window 3 and the second opening window 4 by the connecting plate 1201, the fixing frame 1202 and the rotating rod 1203 inside the second connecting member 12.

Further, as shown in fig. 1, the two screw type window openers 9 are connected to the control box through a control line, so that the screw type window openers 9 are set to be electrically driven, remote operation can be achieved through the control box, and written programs are written in the control module in advance, so that automation of the screw type window openers 9 can be achieved, and the first opening window 3 and the second opening window 4 can be automatically opened or closed through the screw type window openers 9 according to requirements or weather conditions.

Further, as shown in fig. 1 and 3, the sealing device includes a vacuum pump 304, a connecting pipe 305, a communication hole 307 and a sealing strip 801, two sealing strips 801 are installed inside the connecting groove 303, the tops of the two sealing strips 801 are connected with the window frame 301, the bottoms of the two sealing strips 801 are connected with the first connecting portion 8, the vacuum pump 304 is installed at one side of the bottom of the window frame 301 close to the first connecting portion 8, the communication hole 307 is opened inside the window frame 301, the connecting pipe 305 is installed inside the communication hole 307, wherein one end of the connecting pipe 305 is communicated with the connecting groove 303, the other end of the connecting pipe 305 is connected with the vacuum pump 304, when the first opening window 3 and the second opening window 4 are closed, the first connecting portion 8 is connected with the connecting groove 303, the lower end of the sealing strip 801 is fixed on the upper side of the first connecting portion 8, the upper end is attached to the groove bottom of the connecting groove 303, and the vacuum pump 304 starts to operate, by evacuating the air between the two sealing strips 801, the connecting groove 303 is pressed down on the sealing strip 801 so that the groove bottom of the connecting groove 303 closely adheres to the upper side of the sealing strip 801, and the connection between the first connecting portion 8 and the connecting groove 303 is locked by atmospheric pressure. Vacuum pump 304 is connected to the control box through vacuum pump 304 control line, realizes remote operation through the control box, writes into the program of writing in advance in the control module in the control box, can realize the automatic cooperation of vacuum pump 304 and screw ware 9 of windowing, when screw ware 9 of windowing accomplishes to close first window 3 and the work of opening window 4 of second, starts vacuum pump 304 and locks the connection between first connecting portion 8 and the connecting groove 303. When the first opening window 3 and the second opening window 4 need to be opened, the vacuum pump 304 fills air between the two sealing strips 801 in advance, so that the subsequent screw type window opener 9 can smoothly open the first opening window 3 and the second opening window 4.

Further, as shown in fig. 1 and 4, the sealing device further includes a pressure release handle 308, a pressure release tube 309, a control valve 310 and a control handle 311, the pressure release handle 308 is communicated with the connection tube 305 through the pressure release tube 309, one end of the pressure release tube 309 is communicated with the connection tube 305, the other end is communicated with the outer surface of the pressure release handle 308, the control valve 310 for controlling the on-off of the pressure release tube 309 is arranged in the pressure release handle 308, the control handle 311 for controlling the pressure release valve is rotatably arranged on the pressure release handle 308, when the vacuum pump 304 or the screw type window opener 9 on the first opening window 3 and the second opening window 4 fails to open, so that the first opening window 3 cannot be opened, by rotating the lever 311 on the pressure relief lever handle 308, the control valve 310 can be opened, so that air is introduced into the coupling groove 303 through the pressure relief pipe 309 and the coupling pipe 305, by releasing the vacuum pressure, the first and second opening windows 3 and 4 are pushed open.

Further, as shown in fig. 3, a water bar 802 is installed on one side of the first connecting portion 8 close to the glass 302, a drainage channel 803 is disposed above the water bar 802, a groove bottom of the drainage channel 803 is inclined downward and is communicated with a drainage hole 804 formed in the first connecting portion 8, one end of the drainage hole 804 far away from the drainage channel 803 is communicated with a drainage ditch 11 of the roof, when the first opening window 3 and the second opening window 4 fail to be completely closed or are not completely closed in the early stage of rainfall, rainwater seeping to one side of the first connecting portion 8 opposite to the glass 302 is collected into the drainage channel 803 through the water bar 802 and is removed from the drainage ditch 11 through the drainage hole 804.

The working principle of the utility model is as follows: in the using process of the utility model, the first opening window 3 and the second opening window 4 are connected with the first connecting part 8 through the sealing device, so that when the first opening window 3 and the second opening window 4 are in a closed state, no gap for rainwater to enter is formed at the connecting part of the first opening window 3 and the second opening window 4 and the first connecting part 8 through the sealing device, and the occurrence of water seepage is avoided.

While the present invention has been described in detail and with reference to the embodiments thereof as illustrated in the accompanying drawings, it will be apparent to one skilled in the art that various changes and modifications can be made therein. Therefore, certain details of the embodiments are not to be interpreted as limiting, and the scope of the utility model is to be determined by the appended claims.

Claims (7)

1. A roof lighting skylight is characterized by comprising a roof framework, wherein the top of the roof framework is symmetrically provided with a first fixed window and a second fixed window by taking a ridge as a symmetry axis, one end of the first fixed window, which is far away from the ridge, is provided with a first roof panel, one end of the second fixed window, which is far away from the first fixed window, is provided with a second roof panel, one end of the first roof panel, which is far away from the first fixed window, is rotatably connected with a first opening window, one end of the second roof panel, which is far away from the second fixed window, is rotatably connected with a second opening window, the first opening window and the second opening window are internally provided with window frames and glass arranged in the window frames, the bottom of the window frames is provided with a connecting groove with a downward opening, the bottom of the connecting groove is connected with a first connecting part in a buckling manner, and a sealing device for sealing is arranged between the connecting groove and the first connecting part, the bottom of the first connecting part is connected with the roof framework.

2. The roof light skylight of claim 1, wherein a screw type window opener for controlling opening and closing is connected to both sides of the first opening window and the second opening window facing the roof framework.

3. The roof lighting skylight of claim 2, wherein one end of each of the two screw type window openers is rotatably connected to the first opening window and the second opening window, and the other end of each of the two screw type window openers is connected to the roof framework through a second connecting member, wherein the second connecting member comprises a connecting plate, a fixing frame and a rotating rod, the connecting plate is fixed to the roof framework, the fixing frame is rotatably connected to the screw type window openers, and the connecting plate is connected to the fixing frame through the rotating rod.

4. A roof light skylight according to claim 2, wherein two of said screw-type window openers are connected to a control box by a control line.

5. The roof lighting skylight of claim 1, wherein the sealing device comprises a vacuum pump, a connecting pipe, a communication hole and sealing strips, two sealing strips are installed inside the connecting groove, the tops of the two sealing strips are connected with the window frame, the bottoms of the two sealing strips are connected with the first connecting portion, the vacuum pump is installed on one side, close to the first connecting portion, of the bottom of the window frame, the communication hole is formed inside the window frame, the connecting pipe is installed inside the communication hole, one end of the connecting pipe is communicated with the connecting groove, and the other end of the connecting pipe is connected with the vacuum pump.

6. The roof lighting skylight of claim 5, wherein the sealing device further comprises a pressure release handle, a pressure release tube, a control valve and a control handle, the pressure release handle is communicated with the connecting tube through the pressure release tube, one end of the pressure release tube is communicated with the connecting tube, the other end of the pressure release tube is communicated with the outer surface of the pressure release handle, the control valve for controlling the on-off state of the pressure release tube is arranged in the pressure release handle, and the control handle for controlling the pressure release tube is rotatably arranged on the pressure release handle.

7. The roof skylight according to claim 1, wherein a water bar is installed on a side of the first connecting portion close to the glass, a drainage groove is installed above the water bar, a bottom of the drainage groove is inclined downward and is communicated with a drainage hole formed in the first connecting portion, and an end of the drainage hole, which is far away from the drainage groove, is communicated with a drainage ditch of the roof.

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