CN111005511B - Sliding roof daylighting panel system and installation method thereof - Google Patents

Abstract

The invention provides a sliding roof daylighting panel system and an installation method thereof, and relates to the technical field of roof daylighting panels, the sliding roof daylighting panel system comprises a roof purline, a roof bottom plate fixed on the roof purline, and a daylighting band opening arranged on the roof bottom plate, and the sliding roof daylighting panel system comprises a sliding support fixed on the roof purline and positioned around a fan opening, an upper roof panel in sliding fit with the sliding support, and a daylighting panel in sliding fit with the sliding support and covered on the daylighting opening; the upper roof panel is provided with a hole and fixed with the peripheral edge of the daylighting panel, and a waterproof structure is arranged at the joint of the upper roof panel and the daylighting panel. The waterproof effect of the invention is long: the daylighting panel can deform (slide) along with the upper roof panel, so that the deformation stress caused by expansion with heat and contraction with cold in the length direction of the upper roof panel is released, the stress concentration of the roof panel around the lighting window opening is avoided, the firmness of connection between the roof panel and the periphery of the daylighting panel is enhanced, and the waterproof effect is long.

Description

Sliding roof daylighting panel system and installation method thereof

Technical Field

The invention relates to a roof daylighting panel and an installation method thereof, in particular to a sliding roof daylighting panel system and an installation method thereof.

Background

In a steel structure factory building, a roof lighting window is widely used all the time, the indoor natural illumination effect can be effectively improved, artificial illumination is reduced, and a comfortable working environment is provided. The conventional roof lighting window and the main structure are generally directly connected by screws or welding, and the lighting window support and the main structure are firmly connected and cannot relatively slide. At present, a large number of public building roof boards are connected by 180-degree occlusion, and meanwhile, a special sliding fixed support enables the roof boards and a main structure to have certain relative displacement, so that expansion with heat and contraction with cold caused by temperature change can be prevented. The roof panel and the periphery of the lighting window support are usually connected by aluminum alloy flashing plates, so as to achieve the effects of roof waterproofing and roof panel relative sliding. The roof lighting window is basically constructed by protruding roof boards by more than 250mm, so more supports are needed to achieve the construction. In addition, the roof needs to slide, and the aluminum alloy flashing plate and the roof are not fixedly sealed, so that the hidden danger of water leakage is caused, the manufacturing cost is high, and the structure is widely applied to public buildings with high investment. It is obvious that such product level has not been able to meet the requirements of the development of the economic society, with respect to the industrial construction where the economic and waterproof properties are more important.

The present application was made based on this.

Disclosure of Invention

In order to solve the defects in the prior art, the invention provides a sliding roof daylighting panel system and an installation method thereof, which can effectively solve the problem of roof water leakage caused by the separation of a roof panel and a daylighting window and save more cost.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

the sliding roof daylighting panel system comprises a roof purline, a roof bottom plate fixed on the roof purline, and a daylighting band opening formed in the roof bottom plate, and comprises a sliding support fixed on the roof purline and positioned around a fan opening, an upper roof panel in sliding fit with the sliding support, and a daylighting panel in sliding fit with the sliding support and covered on the daylighting opening; the upper roof panel is provided with a hole and fixed with the peripheral edge of the daylighting panel, and a waterproof structure is arranged at the joint of the upper roof panel and the daylighting panel.

Preferably, in order to facilitate the sliding of the daylighting panel, the daylighting panel also comprises support angle steel which is arranged on the roof bottom plate at the hole of the daylighting strip and is not fixed with the roof bottom plate, and a back plate which is fixed on the support angle steel; the supporting angle steel is arranged along the sliding direction, and the opening of the upper roof panel and the two sides of the daylighting panel are fixed on the back plate of the supporting angle steel together. The sliding support is only fixed with the roof bottom plate and the roof purline and is not fixed with the upper roof panel, the daylighting panel and the support angle steel, so that the upper roof panel and the daylighting panel can drive the support angle steel to slide along the roof bottom plate together when the roof bottom plate expands with heat and contracts with cold. Therefore, the stability of the upper roof panel and the daylighting panel can be enhanced by adding the supporting angle steel, and the structural strength of the whole roof system is improved.

Preferably, the waterproof structure comprises an outer plug, the outer plug is installed on an upper roof panel at the bottom of the lighting belt hole, the outer plug and the end of the lighting plate are sealed through polyurethane sealant, and one side, close to the lighting belt hole, of the outer plug is plugged through polyurethane foaming materials. Through the waterproof structure and the adopted sealing material, the integral waterproof effect of the roof is good.

Preferably, in order to enable the joint of the daylighting panel to have a better waterproof effect, M-shaped butyl daub is laid at the joint of the upper roof panel, the outer plug and the daylighting panel.

Preferably, in order to ensure that the daylighting panel is lapped with the upper roof panel, the width of the daylighting panel is matched with that of the upper roof panel, and two sides of the daylighting panel are respectively connected with two adjacent panels of the upper roof panel through seams.

Preferably, the back plate is a c-type galvanized part with the thickness of less than 1.5 mm.

Preferably, the upper roof panel is made of aluminum-magnesium-manganese plates.

The invention discloses an installation method of a sliding roof fan system, which comprises the following steps:

(1) mounting a roof bottom plate on a roof purline;

(2) fixing the sliding support on the purline;

(3) marking on a roof bottom plate after the position of the lighting plate is determined, and removing a sliding support at the marked position;

(4) punching holes in the roof bottom plate along the marked lines;

(5) re-fixing the sliding support subjected to the on-site limb cutting treatment on the purline;

(6) fixing support angle steel on two sides of the sliding support, fixing a back plate on the support angle steel, and installing an opening decoration edge at the bottom of the lighting opening;

(7) arranging the upper roof panel on the sliding support;

(8) after the seam locking of the upper roof panel, the outer plug is fixed on the upper roof panel and is plugged by polyurethane foam material;

(9) laying a circle of butyl daub at the locking seam of the upper roof panel and on the outer plug;

(10) fixing the daylighting panel on the outer plug, the locking seam of the upper roof panel, the support angle steel and the back plate, and avoiding the sliding support;

(11) the joint of the daylighting panel and the daylighting panel adopts polyurethane sealant;

(12) the ridge is fixed with the daylighting panel by adopting a ridge cover plate.

The working principle of the invention is as follows: because the traditional roof lighting window base and the roof main structure are usually fixedly connected, the lighting window base and the main structure cannot generate relative sliding, and thus the stress generated by the roof panel expanding with heat and contracting with cold and deforming cannot be released; and the lighting window base has higher manufacturing cost. The sliding roof daylighting panel system can enable the daylighting panel to deform (slide) along with the upper roof panel, thereby releasing the deformation stress caused by thermal expansion and cold contraction in the length direction of the upper roof panel, avoiding the stress concentration of the roof panel around the lighting window hole, further strengthening the firmness of the connection between the roof panel and the periphery of the lighting window, avoiding the problems of looseness and water leakage of the roof panel around the lighting window hole caused by thermal expansion and cold contraction, reducing the support members and saving the manufacturing cost.

The invention can realize the following technical effects:

(1) the waterproof effect is long: the daylighting panel can deform (slide) along with the upper roof panel, so that the deformation stress caused by expansion with heat and contraction with cold in the length direction of the upper roof panel is released, the stress concentration of the roof panel around the lighting window opening is avoided, the firmness of connection between the roof panel and the periphery of the daylighting panel is enhanced, and the waterproof effect is long.

(2) The cost is economical: because the structure of the plane skylight reduces the bracket components, the manufacturing cost is correspondingly reduced.

(3) The replacement is convenient: the service life of the plane skylight is far shorter than that of an aluminum-magnesium-manganese board, and when the plane skylight is aged, the structure is easy to remove and replace, and the structure is different from other plane daylightings which cannot be removed.

Drawings

Fig. 1 is a three-dimensional schematic view of the sliding roof daylighting panel of the embodiment;

FIG. 2 is a schematic view of the two-side structure of the sliding roof single-layer daylighting panel according to the embodiment;

fig. 3 is a schematic view of the bottom end structure of the sliding roof single-layer daylighting panel of the embodiment;

fig. 4 is a schematic diagram illustrating the lapping of the sliding roof single-layer daylighting panel according to the embodiment;

fig. 5 is a schematic view illustrating the extension and contraction of the ridge of the sliding roof single-layer daylighting panel according to the embodiment;

fig. 6 is a schematic view illustrating the fixing of the sliding roof support angle steel, the fixing seat and the back plate according to the embodiment;

fig. 7 to 13 are views illustrating the installation process of the sliding roof daylighting panel of the embodiment;

description of the labeling: the roof structure comprises a roof purline 1, a roof bottom plate 2, an upper roof plate 3, a daylighting band opening 4, an opening decoration edge 5, a sliding support 6, support angle steel 7, a back plate 8, M-shaped butyl daub 9, roof structure nails 10, rivet bolts 11, polyurethane sealant 12, a steam barrier layer 13, glass wool or rock wool felt 14, an outer plug 15, a ridge cover plate 16, a daylighting plate 17 and polyurethane foam materials 18.

Detailed Description

In order to make the technical means and technical effects achieved by the technical means of the present invention more clearly and more perfectly disclosed, the following embodiments are provided, and the following detailed description is made with reference to the accompanying drawings:

as shown in fig. 1 to 13, the sliding roof daylighting panel system of the present embodiment includes a roof purlin 1, a roof base plate 2 fixed to the roof purlin 1, and a fan opening 4 provided in the roof base plate 2, and includes a support angle steel 7 disposed on the roof purlin 1 at the lighting strip opening 4 but not fixed to the roof base plate 2, a daylighting panel 17 fixed to the upper roof panel 3, sliding supports 6 fixed to the roof purlin 1 and located at two ends of the lighting strip opening 4, and an upper roof panel 3 in sliding fit with the sliding supports 6; an outer plug and polyurethane sealant 15 are fixed on the upper roof panel 3, and a waterproof structure is arranged at the joint of the upper roof panel 3 and the daylighting panel 17.

Because the roof panel needs to release stress due to thermal expansion and cold contraction, the sliding support 6 is arranged on the roof purline 1, the upper roof panel 3, the daylighting panel 17, the supporting angle steel 7 and the back panel 8 are fixed together, and the four roof panels are not fixed with the roof bottom plate 2 and can slide back and forth along the sliding support 6 together, so that the deformation stress caused by thermal expansion and cold contraction in the length direction of the upper roof panel 3 is released, the stress concentration of the roof panel around the daylighting band opening 4 is avoided, the firmness of connection between the roof panel and the periphery of the daylighting band opening 4 is enhanced, the problems of looseness and water leakage of the roof panel around the daylighting band opening 4 caused by thermal expansion and cold contraction are avoided, and the M-shaped butyl daub 9 is adopted for plugging one lap joint of the daylighting panel 17 and the upper roof panel 3, so that the waterproof performance can be greatly improved.

In this embodiment, preferably, M-type butyl mastic 9 is applied to the joint between the upper roof panel 3 and the lighting panel 17. The waterproof effect of handing-over department can further be strengthened to the daub of laying.

Preferably, a support angle steel 7 is installed between the daylighting panel 17 and the roof bottom plate 2, the support angle steel 7 is not fixedly connected with the roof purline 1, and the support angle steel 7 is not fixedly connected with the sliding support 6. The angle steel 7 and the back plate 8 are supported, so that the daylighting plate 17 is not directly contacted with the roof bottom plate 2, and the fan base can slide along with the sliding formed by the expansion with heat and contraction with cold of the upper roof plate.

In the preferred embodiment, the upper roof panel 3 needs to be suspended 250mm and lapped with the daylighting panel at the lap joint of the upper roof panel 3 and the daylighting panel 17, the outer plug 15 is fixed at the position 100mm away from the end of the upper roof panel 3, and the polyurethane foam material 18 blocks the gap. The upper part of the outer plug 15 is fixed with the lighting board 17 by polyurethane sealant 12, so as to ensure the waterproof effect of the lap joint.

In the preferred embodiment, the waterproof structure at the side junction of the daylighting panel 17 and the upper roof panel 3 is M-shaped butyl rubber cement 9, that is, the ribs of the upper roof panel 3 on both sides of the daylighting band opening 4 are plugged with the M-shaped butyl rubber cement 9, and are combined with the waterproof structure formed by the roof structure nails 10 to form a sealing waterproof structure, so that the possibility of water leakage is greatly reduced.

The preferred of this embodiment, daylighting area entrance to a cave 4 is equipped with entrance to a cave trim 5, support angle steel 7, and entrance to a cave trim 5, support angle steel 7 arrange on the roofing bottom plate 2 of entrance to a cave round promptly to shelter from the deckle edge behind the opening.

In the preferred embodiment, the daylighting panel 17 and the daylighting panel 17 are overlapped at the sliding support 6, the overlapping width is 300mm, and 3 polyurethane sealants 12 are arranged in the middle to ensure the sealing performance.

In the present embodiment, the support angle 7 and the back plate 8 are preferably temporarily fixed to the support angle 7 and the back plate 8 by a pull rivet 11 while avoiding the intermediate sliding support 6 by 80mm, respectively, to form a slidable structure for fixing the lighting panel 17.

In the preferred embodiment, the upper roof panel 3 is made of aluminum-magnesium-manganese plate. The aluminum-magnesium-manganese plate has the characteristics of light weight, high strength and strong corrosion resistance, and is a novel environment-friendly section.

In the embodiment, the daylighting panels 17 are arranged on one side of a ridge, and gaps of 80mm are reserved on the one side, and M-shaped butyl mastic 9 is paved at two ends of a ridge cover plate 16 and fixed with the daylighting panels 17 or an outer plug. Polyurethane sealant 12 is applied at the edges to ensure the overall waterproofness.

The installation method of the sliding roof daylighting panel system of the embodiment, which is the installation process, comprises the following steps: firstly, the roof bottom plate 2 is installed on the roof purline 1, then the sliding supports 6 are fixed on the purline, the lighting strip positioning is determined according to the roof row plate, the sliding supports 6 on the two sides of the lighting plate are taken as references to open holes and line the roof bottom plate 2, the sliding supports 6 on the two sides of the lighting plate are dismantled, and the hole is opened on the roof bottom plate 2. And after the hole is opened, the sliding support 6 after limb cutting treatment is installed again to the original position. The support angle steel 7 is placed close to the sliding support 6 towards the direction of the roof bottom plate 2, and the support angle steel 7, the roof bottom plate 2 and the roof purline 1 cannot be fixed. The backboard 8 and the support angle steel 7 clamp the sliding support 6 and then are temporarily fixed by the rivet 11, and the rivet 11 needs to avoid the two sides of the sliding support 6 by 80mm respectively. The roof bottom plate 2 is paved with a steam-isolating layer 13 and a glass wool or rock wool felt 14, and then an upper roof plate 3 is paved. An outer plug 15 is installed after the upper roof panel 3 is locked and sewed, and the polyurethane foaming material 18 is plugged. The side face of the upper roof panel 3 is paved with M-shaped butyl daub 9, the upper part of the outer plug 15 is coated with polyurethane sealant 12, and the daylighting panel 17, the upper roof panel 3, the supporting angle steel 7 and the back panel 8 are fixed together by roof structure nails 10. The daylighting panel 17 and the daylighting panel 17 overlap joint in the support 6 department that slides, and the overlap joint width is 300mm, and 3 polyurethane sealant 12 of intermediate arrangement are in order to guarantee its leakproofness. The daylighting panel 17 is sealed at the ridge with a ridge cover 16.

The embodiment can lead the daylighting panel to deform (slide) along with the upper roof panel, thereby releasing the deformation stress caused by the expansion with heat and contraction with cold in the length direction of the upper roof panel, avoiding the stress concentration of the roof panel around the lighting window opening, further strengthening the firmness of the connection between the roof panel and the daylighting panel, and having long waterproof effect. Because the structure of the plane skylight reduces the bracket components, the manufacturing cost is correspondingly reduced. Meanwhile, the daylighting panel is connected with the aluminum-magnesium-manganese panel, and the fixed seat is connected with the main purlin of the roof through screws, so that the construction is convenient, fast, safe and reliable, and the overhead welding is avoided.

The above description is provided for the purpose of further elaboration of the technical solutions provided in connection with the preferred embodiments of the present invention, and it should not be understood that the embodiments of the present invention are limited to the above description, and it should be understood that various simple deductions or substitutions can be made by those skilled in the art without departing from the spirit of the present invention, and all such alternatives are included in the scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Claims (4)

1. The utility model provides a sliding roofing daylighting board system, includes the roofing purlin, be fixed in roofing bottom plate on the roofing purlin, set up the daylighting band entrance to a cave on the roofing bottom plate, its characterized in that: the roof lighting system comprises a sliding support fixed on a roof purline and positioned around a lighting hole, an upper roof panel in sliding fit with the sliding support, and a lighting panel in sliding fit with the sliding support and covering the lighting hole; the upper roof panel is provided with a hole and is fixed with the peripheral edge of the daylighting panel, and a waterproof structure is arranged at the joint of the upper roof panel and the daylighting panel; the roof floor structure also comprises supporting angle steel which is arranged on the roof floor at the lighting strip hole and is not fixed with the roof floor, and a back plate which is fixed on the supporting angle steel; the supporting angle steel is arranged along the sliding direction, and the opening of the upper roof panel and the two sides of the daylighting panel are fixed on the back plate of the supporting angle steel together; the waterproof structure comprises an outer plug, the outer plug is installed on an upper roof panel at the bottom of the lighting belt hole, the outer plug and the end part of the lighting plate are sealed through polyurethane sealant, and one side, close to the lighting belt hole, of the outer plug is plugged through polyurethane foaming materials; m-shaped butyl daub is laid at the joints of the upper roof panel, the outer plug and the daylighting panel;

the installation method of the sliding roof lighting system comprises the following steps:

(1) mounting a roof bottom plate on a roof purline;

(2) fixing the sliding support on the purline;

(3) marking on a roof bottom plate after the position of the lighting plate is determined, and removing a sliding support at the marked position;

(4) punching holes in the roof bottom plate along the marked lines;

(5) re-fixing the sliding support subjected to the on-site limb cutting treatment on the purline;

(6) fixing support angle steel on two sides of the sliding support, fixing a back plate on the support angle steel, and installing an opening decoration edge at the bottom of the lighting opening;

(7) arranging the upper roof panel on the sliding support;

(8) after the seam locking of the upper roof panel, the outer plug is fixed on the upper roof panel and is plugged by polyurethane foam material;

(9) laying a circle of butyl daub at the locking seam of the upper roof panel and on the outer plug;

(10) fixing the daylighting panel on the outer plug, the locking seam of the upper roof panel, the support angle steel and the back plate, and avoiding the sliding support;

(11) the joint of the daylighting panel and the daylighting panel adopts polyurethane sealant;

(12) the ridge is fixed with the daylighting panel by adopting a ridge cover plate.

2. A sliding roof daylighting panel system of claim 1, wherein: the width of the daylighting panel is matched with that of the upper roof panel, and two sides of the daylighting panel are respectively connected with two adjacent panel seams of the upper roof panel.

3. A sliding roof daylighting panel system of claim 1, wherein: the back plate is a c-shaped galvanized part with the thickness of less than 1.5 mm.

4. A sliding roof daylighting panel system of claim 1, wherein: the upper roof board is made of aluminum magnesium manganese board.

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