CN216893182U - Fastening structure between single skylight bodies - Google Patents

Abstract

The utility model discloses a buckling structure between single skylight bodies, which is used for connecting two adjacent skylight bodies (1), and comprises two buckling plates (3) respectively connected to the connecting ends of the two adjacent skylight bodies (1), and buckling parts (2) buckled on the two buckling plates (3) and used for connecting the two buckling plates (3), wherein the buckling plates (3) can prevent rainwater from flowing out of the end parts of the skylight bodies (1). The buckling plates are divided into a first blocking part which is connected to the main body of the single skylight body and used for preventing rainwater from flowing out of the end part of the main body, a second blocking part which is connected to the plane section of the flashing plate of the single skylight body and used for preventing rainwater from flowing out of the end part of the plane section, and a third blocking part which is connected to the vertical surface section of the flashing plate of the single skylight body and used for preventing rainwater from flowing out of the end part of the vertical surface section, so that the flashing plates of the two single skylight bodies do not need to be lapped, silica gel sealing is not needed, and the prevention performance of the skylight is effectively improved.

Description

Fastening structure between single skylight bodies

Technical Field

The utility model relates to the technical field of skylights, in particular to a buckling structure between single skylights.

Background

Skylights are windows that are placed on roofs to ventilate and transmit light. The large skylight is usually spliced together by a plurality of window frames, and the splicing part of the window frames is bonded by silica gel to improve the waterproof performance, and although the installation mode can play a good waterproof performance in a short time, the skylight is aged after being used for a long time, and rainwater enters into the room from the splicing part. In order to solve the problem, the utility model patent with application number CN201921817863.2 provides a no nail does not have waterproof electronic daylighting of gluey overall structure of window frame structure that discharges fume skylight, and its window frame is that the whole welding waterproof nature of steel sheet is better, and this patent is connected two adjacent skylight monomers through the lock structure to the whole waterproof performance in skylight has been improved. However, in the specific use process, the applicant finds that the above patent technology has the defect that the flashing plates on two adjacent skylight bodies are directly overlapped with each other, the overlapping part of the flashing plates still needs to be sealed by using silica gel, and after the skylight is used for a long time, the silica gel is aged, so that rainwater can infiltrate from the overlapping part of the flashing plates and flow into the skylight. Therefore, it is an urgent subject of research in the art to provide a window frame for a sunroof that can solve the problem of water leakage more thoroughly.

SUMMERY OF THE UTILITY MODEL

The present invention is to solve the above problems, and provides a fastening structure between single skylight bodies.

The purpose of the utility model is realized by the following technical scheme: the locking structure comprises two locking plates respectively connected to the connecting ends of two adjacent skylight units, and a locking part locked on the two locking plates and used for connecting the two locking plates; the buckling parts can cover gaps between the two buckling plates, and the buckling plates can prevent rainwater from flowing out of the end parts of the skylight single bodies.

The buckling part is an independent part, or the buckling part and any one buckling plate are of an integrated structure.

The buckling plate comprises a first blocking part connected to the main body of the single skylight body and used for preventing rainwater from flowing out of the end part of the main body, a second blocking part connected to the plane section of the flashing plate of the single skylight body and used for preventing rainwater from flowing out of the end part of the plane section, and a third blocking part connected to the vertical section of the flashing plate of the single skylight body and used for preventing rainwater from flowing out of the end part of the vertical section.

The first blocking part, the second blocking part and the third blocking part are of an integrated structure and are integrally in an inverted C shape.

The buckling parts comprise a first buckling part, a second buckling part and a third buckling part which are respectively matched with the first blocking part, the second blocking part and the third blocking part, and the first buckling part, the second buckling part and the third buckling part are of an integrated structure and are integrally inverted-C-shaped.

The skylight monomer is provided with a connecting water tank, and the first baffle part forms a side wall connected with the water tank.

The plane section of the flashing plate is lower than the bottom surface of the connecting water tank; or the plane section of the flashing plate and the bottom surface of the connecting water tank are on the same horizontal plane and are connected into a whole; or the plane section of the flashing plate is connected with the bottom surface of the connecting water tank into a whole and inclines downwards.

Compared with the prior art, the utility model has the following advantages and beneficial effects:

(1) two ends of each skylight monomer are respectively provided with a buckling plate, and when two adjacent skylight monomers are connected, the two buckling plates at the connecting end of each skylight monomer are connected through a buckling part, so that the two skylight monomers are connected into a whole; meanwhile, the buckling parts can cover gaps between the two buckling plates, rainwater is prevented from flowing into a room from the gaps between the two buckling plates, and the waterproof performance of the skylight is improved.

(2) The buckling plate comprises a first blocking part, a second blocking part and a third blocking part, wherein the first blocking part is connected to the main body of the single skylight body and used for preventing rainwater from flowing out of the end part of the main body, the second blocking part is connected to the plane section of the flashing plate of the single skylight body and used for preventing rainwater from flowing out of the end part of the plane section, and the third blocking part is connected to the vertical section of the flashing plate of the single skylight body and used for preventing rainwater from flowing out of the end part of the vertical section.

Drawings

FIG. 1 is a schematic view of two single skylight units connected by a snap-fit structure according to the present invention.

FIG. 2 is a front view of two single skylight units connected by a fastening structure according to the present invention.

Fig. 3 is a structural view of the engaging part of the present invention as a separate member.

Fig. 4 is an enlarged schematic view of fig. 3 at B.

FIG. 5 is a structural view of the fastening portion and the fastening plate of the present invention in an integral structure.

Fig. 6 is an enlarged schematic view of a point a in fig. 5.

The reference numbers in the above figures refer to: 1-skylight monomer, 11-main part, 2-buckling parts, 3-buckling plates, 31-first blocking part, 32-second blocking part, 33-third blocking part, 4-connecting water tank, 5-flashing plate, 51-plane section and 52-vertical section.

Detailed Description

The present invention will be described in further detail with reference to examples, but the embodiments of the present invention are not limited thereto.

Example 1

As shown in fig. 1 to 6, the fastening structure of the single skylight units of the present invention is used for connecting two adjacent single skylight units 1. The skylight unit 1 comprises a main body 11 and flashing plates 5 arranged on two sides of the main body 11. The flashing 5 comprises a planar section 51 and a vertical section 52.

As shown in fig. 3, the fastening structure includes two fastening plates 3 respectively connected to the connecting ends of two adjacent skylight units 1, and a fastening portion 2 fastened to the two fastening plates 3 and used for connecting the two fastening plates 3. Two buckling plates 3 and a buckling part 2 constitute a buckling structure promptly, and two buckling plates 3 set up respectively in the one end that two adjacent skylight monomers 1 need interconnect, and buckling part 2 then the lock is on two buckling plates 3 to link together two buckling plates 3, and then make two skylight monomers 1 can link together. The fastening part 2 can cover the gap between the two fastening plates 3, so that rainwater is prevented from flowing into the room from the gap between the two fastening plates 3, and the rainproof performance of the skylight is improved.

The buckling parts 2 are independent parts, and after the two adjacent skylight units 1 are butted well in use, the buckling parts 2 are buckled on the two buckling plates 3 at the butt ends of the two skylight units 1.

In addition, the engaging portion 2 may be integrated with any one of the engaging plates 3 in the engaging structure, and in this case, the engaging portion 2 only needs to be engaged with the other engaging plate 3 in use.

The buckling plate 3 can prevent rainwater from flowing out from the end of the skylight single body 1. Specifically, the fastening sheet 3 includes a first barrier 31, a second barrier 32, and a third barrier 33. The first barrier 31 is connected to the main body 11 of the roof cell 1 and prevents rainwater from flowing out from the end of the main body 11. The second barrier 32 is connected to the flat section 51 of the flashing 5 of the single skylight 1, and is used for preventing rainwater from flowing out of the second barrier 32 at the end of the flat section 51. The third barrier 33 is connected to the vertical section 52 of the flashing 5 of the single skylight 1, and prevents rainwater from flowing out from the end of the vertical section 52.

The first barrier portion 31, the second barrier portion 32 and the third barrier portion 33 are integrated, so that the whole fastening plate 3 is in an inverted "C" shape. Through blockking up of buckling plate 3, the unable tip outflow from skylight monomer 1 of rainwater, the junction that two skylight monomers 1 can't be flowed to the rainwater promptly can only flow to the roofing along flashing 5 downwards, can solve the rainwater like this and flow into indoor problem from the junction of two skylight monomers 1.

Correspondingly, the buckling part 2 includes a first buckling part, a second buckling part and a third buckling part, and the first buckling part, the second buckling part and the third buckling part are respectively matched with the first blocking part 31, the second blocking part 32 and the third blocking part 33, so that the first buckling part, the second buckling part and the third buckling part can just be buckled on the first blocking part 31, the second blocking part 32 and the third blocking part 33 of the two buckling blocks 3.

Similarly, the first buckling part, the second buckling part and the third buckling part are also of an integrated structure and are integrally in an inverted C shape.

Example 2

In this embodiment, the roof unit 1 is provided with the connecting water tank 4 in addition to embodiment 1, and as shown in fig. 5, the first blocking portion 31 forms one side wall of the connecting water tank 4.

Specifically, the connecting water tank 4 is arranged on the main body 11 of the skylight unit 1, the plane section 51 of the flashing plate 5 is lower than the bottom surface of the connecting water tank 4, rainwater on the main body 11 can be collected in the connecting water tank 4, and then is discharged onto the flashing plate 5 along the connecting water tank 4, and finally falls onto the roof along the flashing plate 5.

The flat surface section 51 of the flashing 5 may be integrally connected to the bottom surface of the connecting tank 4 at the same level.

Of course, the plane section 51 of the flashing 5 may be integrally connected to the bottom surface of the connecting trough 4 and inclined downward.

As described above, the present invention can be preferably realized.

Claims (7)

1. The structure comprises a plurality of skylight units, a fastening structure between the skylight units and a plurality of skylight units, wherein the skylight units are used for connecting two adjacent skylight units (1), the fastening structure comprises two fastening plates (3) respectively connected to the connecting ends of the two adjacent skylight units (1), and fastening parts (2) fastened on the two fastening plates (3) and used for connecting the two fastening plates (3); the buckling parts (2) can cover gaps between the two buckling plates (3), and the buckling plates (3) can prevent rainwater from flowing out of the end parts of the skylight single bodies (1).

2. The fastening structure of the single skylight units according to claim 1, wherein the fastening part (2) is an independent component, or the fastening part (2) and any one fastening plate (3) are an integrated structure.

3. The fastening structure between the single skylight units according to claim 1 or 2, wherein the fastening plate (3) comprises a first blocking part (31) connected to the main body (11) of the single skylight unit (1) for preventing rainwater from flowing out from the end of the main body (11), a second blocking part (32) connected to the plane section (51) of the flashing (5) of the single skylight unit (1) for preventing rainwater from flowing out from the end of the plane section (51), and a third blocking part (33) connected to the vertical section (52) of the flashing (5) of the single skylight unit (1) for preventing rainwater from flowing out from the end of the vertical section (52).

4. The fastening structure of the single skylight units according to claim 3, wherein the first barrier portion (31), the second barrier portion (32) and the third barrier portion (33) are of an integrated structure and are integrally formed in an inverted C shape.

5. The buckling structure of the single skylight bodies according to claim 4, wherein the buckling part (2) comprises a first buckling part, a second buckling part and a third buckling part which are respectively matched with the first blocking part (31), the second blocking part (32) and the third blocking part (33), and the first buckling part, the second buckling part and the third buckling part are of an integrated structure and are integrally in an inverted C shape.

6. The fastening structure of the single skylight units according to claim 3, wherein the single skylight unit (1) is provided with a connecting sink (4), and the first baffle portion (31) forms a side wall of the connecting sink (4).

7. The fastening structure of the roof window units according to claim 6, wherein the flat section (51) of the flashing (5) is lower than the bottom surface of the connecting gutter (4); or the plane section (51) of the flashing plate (5) and the bottom surface of the connecting water tank (4) are on the same horizontal plane and are connected into a whole; or the plane section (51) of the flashing plate (5) is connected with the bottom surface of the connecting water tank (4) into a whole and inclines downwards.

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