CN216616600U - Daylighting skylight connecting structure capable of freely rotating and adjusting angle at internal and external corners - Google Patents

Abstract

The utility model provides a lighting skylight connecting structure capable of freely rotating in internal and external corners to adjust the angle, which comprises an aluminum alloy lighting skylight section keel (1), wherein aluminum alloy bases (2) are symmetrically arranged at the top of the aluminum alloy lighting skylight section keel (1), an aluminum alloy pressing block (3) is arranged above the aluminum alloy base (2), the aluminum alloy base (2) is provided with circular convex strips (4) which protrude out of the side surface of the aluminum alloy lighting skylight section keel (1) in the transverse direction of the aluminum alloy lighting skylight section keel (1), and the circular convex strips (4) are connected with an external corner auxiliary frame (5) or an internal corner auxiliary frame (6); the utility model can realize free rotation to adjust the angle between the glass plates of the daylighting skylight, and realize the facade appeal of multi-angle and multi-shape change of the daylighting skylight.

Description

Daylighting skylight connection structure capable of freely rotating and adjusting angle at internal and external corners

Technical Field

The utility model relates to the field of building design, in particular to a lighting skylight connecting structure capable of freely rotating in a concave-convex angle to adjust the angle.

Background

At present, in the building industry, as the design of the exterior decoration of buildings is more and more complex, the appearance of the buildings presents a trend of heterotypic and diversification. At present, some architects often design various special-shaped curved surfaces to express facade requirements in order to make the outer facade of a building look more ambitious and ambitious. Particularly, the skylight is not single plane glass to realize artistic appeal, but if the skylight is not only single plane size, a structure capable of freely rotating and adjusting the angle between the skylight glass plates is needed to solve the problem.

Based on the situation, the utility model provides the connecting structure of the lighting skylight, which can freely rotate in the internal and external corners to adjust the angle, and can effectively solve the problems.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model aims to provide a lighting skylight connecting structure capable of freely rotating in the internal and external corners to adjust the angle. The utility model can realize free rotation to adjust the angle between the glass plates of the daylighting skylight, and realize the facade appeal of multi-angle and multi-shape change of the daylighting skylight.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

the utility model provides a can be reentrant and hermaphroditic corner free rotation angle regulation's daylighting skylight connection structure which characterized in that: the aluminum alloy lighting skylight section keel structure comprises aluminum alloy lighting skylight section keels, aluminum alloy bases are symmetrically arranged at the tops of the aluminum alloy lighting skylight section keels, aluminum alloy pressing blocks are arranged above the aluminum alloy bases, the aluminum alloy bases are provided with circular convex strips protruding out of the side faces of the aluminum alloy lighting skylight section keels in the transverse direction of the aluminum alloy lighting skylight section keels, and the circular convex strips are connected with an external corner auxiliary frame or an internal corner auxiliary frame.

And further: the two sides at the top of the aluminum alloy daylighting skylight section keel are provided with first limiting bulges, the connecting end of the aluminum alloy base and the first limiting bulges is provided with second limiting bulges, and the second limiting bulges are limited at the inner sides of the first limiting bulges by the first limiting bulges.

Further: pressing strips are arranged on two sides of the bottom of the aluminum alloy pressing block and abut against the aluminum alloy base, and the pressing strips are used for fixing the aluminum alloy base.

Further: the middle of the top of the aluminum alloy lighting skylight section keel is provided with a bolt fixing groove, a stainless steel bolt assembly is arranged on the bolt fixing groove in a penetrating mode, and the aluminum alloy pressing block is fixed with the top of the aluminum alloy lighting skylight section keel through the stainless steel bolt assembly.

Further: the two side edges of the bolt fixing groove extend upwards and are extruded with the side edges of the aluminum alloy base, the top of the bolt fixing groove is set to be a concave arc surface, and the bottom of the aluminum alloy pressing block is set to be a convex arc surface matched with the concave arc surface.

Further: the external corner auxiliary frame and the internal corner auxiliary frame are provided with arc-shaped grooves matched with the circular convex strips.

Further: and the upper parts of the external corner subframe and the internal corner subframe are connected with the lighting roof plate blocks, and a foam rod and a sealant are arranged between every two adjacent lighting roof plate blocks.

Further: the aluminum alloy base is provided with a circular convex strip in the transverse direction of the aluminum alloy base in a protruding manner through two continuous and vertically arranged right-angle bending parts.

Further: the aluminum alloy daylighting skylight section bar fossil fragments have two symmetrical outside open-ended first open cavity, and the upper portion symmetry of first open cavity sets up two second open cavity to open-top, and two second open cavity intermediate connections are closed the cavity.

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

the utility model can realize free rotation to adjust the angle between the glass plates of the lighting skylight, is suitable for the internal corner auxiliary frame and the external corner auxiliary frame, reduces the number of the die sinking of the special-shaped multi-angle lighting skylight section, realizes the elevation appeal of the lighting skylight with multi-angle and multi-shape change, and has the advantages of convenient construction operation and firm and reliable structure.

Drawings

FIG. 1 is an assembled view of the male subframe of the present invention;

FIG. 2 is an assembled schematic view of the female subframe of the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 1A;

fig. 4 is a partially enlarged view of fig. 2B.

Reference numerals: 1-aluminum alloy lighting skylight section keel; a 2-aluminum alloy base; 3-aluminum alloy briquetting; 4-circular convex strips; 5-external corner auxiliary frame; 6-internal corner auxiliary frame; 7-a first limit projection; 8-a second limiting bulge; 9-pressing a strip; 10-bolt fixing groove; 11-stainless steel bolt assembly; 12-an arc-shaped groove; 13-daylighting roof plate; 14-a foam rod; 15-sealing glue; 16-a first open cavity; 17-a second open cavity; 18-a closed cavity; 19-concave arc surface; 20-convex arc surface; 21-buckling a cover.

Detailed Description

In order that those skilled in the art will better understand the technical solutions of the present invention, the following description of the preferred embodiments of the present invention is provided in conjunction with specific examples, but it should be understood that the drawings are for illustrative purposes only and should not be construed as limiting the patent; for the purpose of better illustrating the embodiments, certain features of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted. The positional relationships depicted in the drawings are for illustrative purposes only and are not to be construed as limiting the present patent.

The utility model is further illustrated by the following figures and examples, which are not to be construed as limiting the utility model.

As shown in fig. 1 to 4, a daylighting skylight connection structure capable of freely rotating and adjusting angles at internal and external corners comprises an aluminum alloy daylighting skylight section keel 1, wherein aluminum alloy bases 2 are symmetrically arranged at the top of the aluminum alloy daylighting skylight section keel 1, an aluminum alloy pressing block 3 is arranged above the aluminum alloy bases 2, each aluminum alloy base 2 is provided with a circular convex strip 4 protruding towards the transverse direction of the aluminum alloy daylighting skylight section keel 1, and the circular convex strips 4 are connected with an external corner auxiliary frame 5 or an internal corner auxiliary frame 6. The circular convex strips 4 protrude out of the side surfaces of the aluminum alloy lighting skylight section keel 1 in the transverse direction of the aluminum alloy lighting skylight section keel 1, so that the adjusting angle of the external angle auxiliary frame 5 between the two lighting roof plates 13 can reach 90-180 degrees or the adjusting angle of the internal angle auxiliary frame 6 can reach 180-270 degrees. The lighting roof plate 13 is made of glass or metal panel.

The two sides at the top of the aluminum alloy lighting skylight section keel 1 are provided with first limiting bulges 7, the connecting ends of the aluminum alloy base 2 and the first limiting bulges 7 are provided with second limiting bulges 8, and the second limiting bulges 8 are limited on the inner sides of the first limiting bulges 7 by the first limiting bulges 7.

The aluminum alloy base 2 is provided with a circular convex strip 4 protruding in the transverse direction of the aluminum alloy base 2 through two continuous vertical right-angle bending parts. Because adopt first spacing arch 7 to carry on spacingly, spacing arch 7 highly is lower for the angle increase that aluminum alloy briquetting 3 rotated, and, make the length of right angle kink can subtract the weak point.

The pressing strips 9 are arranged on two sides of the bottom of the aluminum alloy pressing block 3, the pressing strips 9 are abutted to the aluminum alloy base 2, and the pressing strips 9 are used for fixing the aluminum alloy base 2.

The middle of 1 top of aluminum alloy daylighting skylight section bar fossil fragments has bolt fixed slot 10, wears to establish stainless steel bolt subassembly 11 on the bolt fixed slot 10, aluminum alloy briquetting 3 is fixed mutually through stainless steel bolt subassembly 11 and 1 tops of aluminum alloy daylighting skylight section bar fossil fragments.

The two side edges of the bolt fixing groove 10 extend upwards and are extruded with the side edges of the aluminum alloy base 2, and the first limiting bulge 7 and the two side edges of the bolt fixing groove 10 extend upwards to form a limiting structure to limit the aluminum alloy base 2. The top of the bolt fixing groove 10 is provided with a concave cambered surface 19, and the bottom of the aluminum alloy pressing block 3 is provided with a convex cambered surface 20 matched with the concave cambered surface 19. Has the functions of increasing the contact surface and enhancing the lateral connection strength.

The external corner auxiliary frame 5 and the internal corner auxiliary frame 6 are provided with arc-shaped grooves 12 matched with the circular convex strips 4. The arc-shaped groove 12 rotates relative to the circular convex strip 4 by taking the circular convex strip 4 as the center, so that the aim of adjusting the angle between the skylight glass plates is fulfilled.

And the upper parts of the external corner subframe 5 and the internal corner subframe 6 are connected with lighting roof plates 13, and a foam rod 14 and a sealant 15 are arranged between every two adjacent lighting roof plates 13 for connection.

The aluminum alloy daylighting skylight section bar keel 1 is provided with two symmetrical first opening cavities 16 which are opened towards the outside, the upper parts of the first opening cavities 16 are symmetrically provided with two second opening cavities 17 which are opened towards the top, and the middle parts of the two second opening cavities 17 are connected with a closed cavity 18. Two second opening cavity 17 set up the opening position and give the rotation of external corner auxiliary frame 5 or internal corner auxiliary frame 6 and give way, the intensity of aluminum alloy daylighting skylight section bar fossil fragments 1 can be strengthened in the setting of first opening cavity 16 and closed cavity 18, the opening side of first opening cavity 16 sets up buckle closure 21, and first opening cavity 16 is inside can to walk the line. Thereby not only ensuring the structural strength, but also increasing the functions and simultaneously strengthening the matching with other structures.

According to the description and the drawings of the utility model, a person skilled in the art can easily manufacture or use the skylight connecting structure capable of freely rotating and adjusting the angle of the internal and external corners, and can generate the positive effects recorded in the utility model.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and all simple modifications and equivalent variations of the above embodiments according to the technical spirit of the present invention are included in the scope of the present invention.

Claims (9)

1. The utility model provides a can be reentrant and hermaphroditic corner free rotation angle regulation's daylighting skylight connection structure which characterized in that: including aluminum alloy daylighting skylight section bar fossil fragments (1), aluminum alloy daylighting skylight section bar fossil fragments (1) top symmetry sets up aluminum alloy base (2), and the top of aluminum alloy base (2) sets up aluminum alloy briquetting (3), and aluminum alloy base (2) have to aluminum alloy daylighting skylight section bar fossil fragments (1) transverse direction outstanding aluminum alloy daylighting skylight section bar fossil fragments (1) side outside circular sand grip (4) that set up, and external corner subframe (5) or internal corner subframe (6) are connected in circular sand grip (4).

2. A skylight connecting structure with freely rotatable internal and external angles and adjustable angle according to claim 1, characterized in that: the aluminum alloy daylighting skylight section bar fossil fragments (1) both sides at top set up first spacing arch (7), aluminum alloy base (2) sets up spacing arch of second (8) with the link of first spacing arch (7), spacing arch of second (8) are injectd in the inboard of first spacing arch (7) by first spacing arch (7).

3. A skylight connecting structure with freely rotatable internal and external angles and adjustable angle according to claim 1, characterized in that: pressing strips (9) are arranged on two sides of the bottom of the aluminum alloy pressing block (3), and the pressing strips (9) are abutted to the aluminum alloy base (2).

4. A skylight connecting structure with freely rotatable internal and external angles and adjustable angle according to claim 1, characterized in that: the aluminum alloy daylighting skylight section bar keel structure is characterized in that a bolt fixing groove (10) is formed in the middle of the top of the aluminum alloy daylighting skylight section bar keel (1), a stainless steel bolt assembly (11) is arranged on the bolt fixing groove (10) in a penetrating mode, and the aluminum alloy pressing block (3) is fixed with the top of the aluminum alloy daylighting skylight section bar keel (1) through the stainless steel bolt assembly (11).

5. A skylight connecting structure with freely rotatable internal and external angles and adjustable angle according to claim 4, characterized in that: the both sides limit of bolt fixed slot (10) extends to the top, and extrudees mutually with the side of aluminum alloy base (2), bolt fixed slot (10) top sets up to concave arc face (19), aluminum alloy briquetting (3) bottom sets up to convex arc face (20) with concave arc face (19) matched with.

6. A skylight connecting structure with freely rotatable internal and external angles and adjustable angle according to claim 1, characterized in that: the external corner auxiliary frame (5) and the internal corner auxiliary frame (6) are provided with arc-shaped grooves (12) matched with the circular convex strips.

7. A skylight connecting structure with freely rotatable internal and external angles and adjustable angle according to claim 1, characterized in that: and the lighting roof plates (13) are connected above the external corner subframe (5) and the internal corner subframe (6), and a foam rod (14) and a sealant (15) are arranged between two adjacent lighting roof plates (13).

8. A skylight connecting structure with freely rotatable internal and external angles and adjustable angle according to claim 2, characterized in that: the aluminum alloy base (2) is provided with a circular convex strip (4) in a protruding manner in the transverse direction of the aluminum alloy base (2) through two continuous perpendicular right-angle bending parts.

9. A skylight connecting structure with freely rotatable internal and external angles and adjustable angle according to claim 1, characterized in that: aluminum alloy daylighting skylight section bar fossil fragments (1) have two symmetrical outside open-ended first open cavity (16), and the upper portion symmetry of first open cavity (16) sets up two second open cavity (17) to open-top, and two second open cavity (17) intermediate junction close cavity (18).

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