CN215926490U - Arc-shaped inclined roof synthetic resin tile installation structure - Google Patents

Abstract

The utility model discloses an arc-shaped inclined roof synthetic resin tile mounting structure, wherein synthetic resin tiles are arranged at the upper ends of a ridge structure, an internal structure, an inclined edge structure and a cornice structure, and a tile hanging strip layer, a water guiding strip layer and a concrete layer are sequentially arranged below the synthetic resin tiles; the tile hanging strip layer comprises a plurality of tile hanging strips which are arranged in parallel, the water guiding strip layer comprises a plurality of water guiding strips which are arranged in parallel, the length direction of the tile hanging strips is vertical to the length direction of the water guiding strips, and the tile hanging strips and the water guiding strips are both made of Indonesia pineapple lattice wood; a plurality of wooden plugs are embedded in the concrete layer, each wooden plug is arranged below one tile-hanging strip, and the synthetic resin tiles, the tile-hanging strips and the wooden plugs are sequentially connected through stainless steel nails. The utility model can ensure that the batten and the water-smoothing strip can meet longer service life and better corrosion-resistant and moisture-proof effects, strengthen the firmness, further ensure the integral stability and improve the quality.

Description

Arc-shaped inclined roof synthetic resin tile installation structure

Technical Field

The utility model belongs to the technical field of house construction, and particularly relates to an arc-shaped inclined roof synthetic resin tile installation structure.

Background

In the house building, the roof synthetic resin tile is installed in the construction period of the whole project and occupies a great proportion, and the installation process of the existing roof synthetic resin tile has the following difficulties:

1. after the tile is installed, the periphery and the end part of the bottom of the tile are in a plurality of gaps and are not closed, and the firmness of the tile is directly influenced when typhoon occurs;

2. the light steel keel tile hanging strips recommended and used conventionally by resin tile manufacturers begin to be rusted in 3 years after investigation in the Hainan area, the design service life cannot be ensured, and the quality cannot be ensured in the exposed environment of the service life;

3. how to effectively fix and connect the water bar with the surface layer of the concrete structure is a key and difficult point to be solved in the field, and how to solve an important measure for the resin tile to resist typhoon, and the local standard and the conventional method are that the water bar is fixed by directly driving the water bar into the concrete after the steel nail is embedded into the water bar, but the effect of the scheme is not ideal after the scheme is tried on site.

SUMMERY OF THE UTILITY MODEL

The present invention has been made in an effort to provide an arc-shaped sloping roof synthetic resin tile installation structure which solves at least one of the above-mentioned problems occurring in the prior art.

In order to achieve the purpose, the utility model adopts the following technical scheme:

an arc-shaped inclined roof synthetic resin tile installation structure comprises a ridge structure, an internal structure, an inclined edge structure and a cornice structure, wherein synthetic resin tiles are arranged at the upper ends of the ridge structure, the internal structure, the inclined edge structure and the cornice structure, and a tile hanging strip layer, a water guiding strip layer and a concrete layer are sequentially arranged below the synthetic resin tiles; the tile hanging strip layer comprises a plurality of tile hanging strips which are arranged in parallel, the water guiding strip layer comprises a plurality of water guiding strips which are arranged in parallel, the length direction of each tile hanging strip is perpendicular to the length direction of each water guiding strip, and the tile hanging strips and the water guiding strips are both made of Indonesia pineapple wood; the concrete layer is embedded with a plurality of wooden plugs, each wooden plug is arranged below one of the battens, and the synthetic resin tile, the battens and the wooden plugs are sequentially connected through the stainless steel nails.

As a preferred technical scheme of the utility model, the ridge structure further comprises an aluminum alloy ridge and a cement mortar base mortar connected with the aluminum alloy ridge, the synthetic resin tiles in the ridge structure are arranged at the upper end of the cement mortar base mortar, and the synthetic resin tiles and the aluminum alloy ridge are sealed through weather-resistant glue.

In this preferred scheme, the processing of roof top and the aluminum plate handing-over department of ridge is especially important, need carry out the seat thick liquid to the tile mouth at the top and seal, can make it tight airtight, strengthens the stability of synthetic resin tile, and seals through resistant time glue between synthetic resin tile and the aluminum alloy ridge, strengthens waterproof and rainproof wholeness effect.

In a preferred embodiment of the present invention, C20 fine stone concrete for reinforcement is provided between the battens and the battens in the ridge structure.

In a preferred embodiment of the present invention, C20 fine stone concrete for reinforcement is provided between the battens and the battens in the cornice structure.

In a preferable technical scheme of the utility model, C20 fine stone concrete for reinforcement is arranged between the battens and the water-guiding strips in the bevel edge structure.

In the above preferred scheme, the C20 fine stone concrete can be connected with the original concrete as a whole, and then the stability of the C20 fine stone concrete is guaranteed, then the C20 fine stone concrete is utilized to wrap the battens and the water-guiding strips, wherein mainly aiming at the main stress parts and the weak stress parts such as the lap joints of the battens and the peripheral end parts of the battens, the C20 fine stone concrete is matched to strengthen the whole stress of the lap joints on one hand, and on the other hand, the bonding surfaces of the peripheral end battens and the concrete surface are strengthened, so that the uplift resistance is increased, the whole stability is improved, and the typhoon and other conditions can be better resisted.

As a preferable aspect of the present invention, the edges of the bevel edge structure, the ridge structure, and the cornice structure are provided with decorative pieces, and the decorative pieces are connected to the synthetic resin tiles by reinforcing members. Adopt this preferred scheme, can guarantee that the stability of decoration is good, set up the decoration at the edge of hypotenuse structure, ridge structure and eaves mouth structure simultaneously, can be so that holistic outward appearance effect is better.

In a preferred embodiment of the present invention, the decorative member and the synthetic resin tile are sealed by weather-resistant glue. Adopt this preferred scheme, can strengthen waterproof and rain-proof wholeness effect through resistant time glue, prolong holistic service life.

Has the advantages that: in the utility model, Indonesia pineapple lattice wood is selected as a raw material of the battens and the battens, and the material has the characteristics of hard texture, high strength, small drying shrinkage, good stability, strong corrosion resistance and the like, can ensure that the battens and the battens can meet longer service life and better corrosion and moisture prevention effects, ensure the quality of the battens and the battens, and further ensure the longest service life of the mounting structure of the synthetic resin tile for the arc inclined roof; according to the utility model, after the tile is installed, the plurality of tile hanging strips and the stainless steel nails for enhancing the stability of the tile hanging strips are arranged in parallel, so that the firmness can be effectively enhanced, meanwhile, the stainless steel nails are sequentially connected with the synthetic resin tiles, the tile hanging strips and the water-smoothening strips to form integral connection, the integral stability is further ensured, and the quality is improved.

Drawings

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

FIG. 2 is a schematic structural view of the cornice construction of the present invention;

FIG. 3 is a schematic view showing the structure of the internal structure of the present invention;

FIG. 4 is a schematic diagram of the bevel edge configuration of the present invention;

FIG. 5 is a cross-sectional view of a roof of the present invention;

fig. 6 is a plan view of the roof of the present invention.

In the figure: 1-synthetic resin tile; 2-hanging battens; 3-water-flowing strips; 4-concrete layer; 5-wooden plug; 6-aluminum alloy ridge; 7-setting cement mortar; 8-weather-resistant glue; 9-C20 fine stone concrete; 10-a decorative piece; 11-stainless steel nail.

Detailed Description

The utility model is further described with reference to the following figures and specific embodiments. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto. Specific structural and functional details disclosed herein are merely illustrative of example embodiments of the utility model. This invention may, however, be embodied in many alternate forms and should not be construed as limited to the embodiments set forth herein.

The first embodiment is as follows:

as shown in fig. 1-6, the present embodiment provides an arc-shaped inclined roof synthetic resin tile installation structure, which includes a ridge structure, an internal structure, an inclined edge structure and a cornice structure, wherein synthetic resin tiles 1 are respectively disposed at upper ends of the ridge structure, the internal structure, the inclined edge structure and the cornice structure, and a tile hanging strip layer, a water guiding strip layer and a concrete layer 4 are sequentially disposed below the synthetic resin tiles 1, and the concrete layer 4 is an existing mature structure and is located at a lower end of the arc-shaped inclined roof synthetic resin tile installation structure; the tile hanging strip layer comprises a plurality of tile hanging strips 2 which are arranged in parallel, the water guiding strip layer comprises a plurality of water guiding strips 3 which are arranged in parallel, the length direction of the tile hanging strips 2 is vertical to the length direction of the water guiding strips 3, and the tile hanging strips 2 and the water guiding strips 3 are both made of Indonesia pineapple lattice wood, so that the strength and the corrosion and moisture prevention effects are ensured; concrete layer 4 is embedded to be equipped with a plurality of wooden plugs 5, and every wooden plug 5 all sets up in the below of a water bar 3, synthetic resin tile 1, battens 2, water bar 3 and wooden plug 5 connect gradually through stainless steel nail 11. It should be noted that the stainless steel nail 11 is preferably a slender steel nail for construction, and the nail cap is painted with the anti-rust paint before the tile is installed. It should be further noted that, in practice, when the wooden plug 5 is embedded, the electric hammer on the concrete layer expands a hole, then the wooden plug made of the same material is embedded, and finally the stainless steel nail 11 is driven into the wooden plug.

It should be noted that the detailed structure is subject to the text description, and fig. 1 to 4 are only referred to, and will slightly change due to the difference of the viewing angle and the position, but will not affect the implementation of the main connection structure of the present invention.

In the utility model, Indonesia pineapple lattice wood is selected as a raw material of the battens and the battens, and the material has the characteristics of hard texture, high strength, small drying shrinkage, good stability, strong corrosion resistance and the like, can ensure that the battens and the battens can meet longer service life and better corrosion and moisture prevention effects, ensure the quality of the battens and the battens, and further ensure the longest service life of the mounting structure of the synthetic resin tile for the arc inclined roof; according to the utility model, after the tile is installed, the plurality of tile hanging strips and the stainless steel nails 4 for enhancing the stability of the tile hanging strips are arranged in parallel, so that the firmness can be effectively enhanced, meanwhile, the stainless steel nails 4 are sequentially connected with the synthetic resin tile 1, the tile hanging strips 2 and the water smoothening strips 3 to form integral connection, the integral stability is further ensured, and the quality is improved.

As a preferred technical scheme of the utility model, the ridge structure further comprises an aluminum alloy ridge 6 and a cement mortar base mortar 7 connected with the aluminum alloy ridge 6, the synthetic resin tiles 1 in the ridge structure are installed at the upper end of the cement mortar base mortar 7, and the synthetic resin tiles 1 and the aluminum alloy ridge 6 are sealed through weather-resistant glue 8, so that the integral effect of water proofing and rain proofing is enhanced. In the preferred scheme, the treatment of the joint of the roof top and the aluminum plate of the ridge is particularly important, and the tile opening needs to be sealed by base slurry at the top, so that the tile opening can be airtight and the stability of the synthetic resin tile 1 is enhanced.

In a preferred embodiment of the present invention, C20 fine stone concrete 9 for reinforcement is provided between the battens 2 and the battens 3 in the ridge structure. C20 fine stone concrete 9 for reinforcement is arranged between the battens 2 and the water-guiding strips 3 in the cornice structure. And C20 fine stone concrete 9 for reinforcement is arranged between the battens 2 and the water-guiding strips 3 in the bevel edge structure.

In the above preferred scheme, the C20 fine stone concrete 9 is connected with the original concrete as a whole, and further the stability of the C20 fine stone concrete 9 is ensured, then the C20 fine stone concrete 9 is utilized to wrap the battens 2 and the water-guiding strips 3, wherein mainly aiming at the main stress parts and weak stress parts such as the lap joint of the battens 2 and the peripheral end parts of the battens 2, the C20 fine stone concrete 9 is matched to strengthen the whole stress of the lap joint on one hand, and strengthen the bonding surfaces of the peripheral end battens and the concrete surface on the other hand, thereby increasing the pulling resistance, improving the whole stability, and enabling the battens to better resist the conditions such as typhoons.

Example two:

the present embodiment is a further improvement on the basis of the first embodiment, and specific differences between the present embodiment and the first embodiment are as follows:

as a preferable technical solution of the present invention, the decorative pieces 10 are disposed at the edges of the bevel edge structure, the ridge structure and the cornice structure, and the decorative pieces 10 are connected to the synthetic resin tile 1 through the reinforcing member, so that the decorative pieces 10 can be ensured to have good stability, and the decorative pieces 10 are disposed at the edges of the bevel edge structure, the ridge structure and the cornice structure, so that the overall appearance effect is better.

As a preferred technical scheme of the utility model, the decorating part 10 and the synthetic resin tile 1 are sealed by the weather-resistant glue 8, so that the integral effect of water resistance and rain resistance can be enhanced, and the integral service life can be prolonged.

Finally, it should be noted that: the above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The arc-shaped inclined roof synthetic resin tile mounting structure comprises a ridge structure, an internal structure, a bevel edge structure and a cornice structure, and is characterized in that synthetic resin tiles (1) are arranged at the upper ends of the ridge structure, the internal structure, the bevel edge structure and the cornice structure, and a tile hanging strip layer, a water flowing strip layer and a concrete layer (4) are sequentially arranged below the synthetic resin tiles (1); the tile hanging strip layer comprises a plurality of tile hanging strips (2) which are arranged in parallel, the water guiding strip layer comprises a plurality of water guiding strips (3) which are arranged in parallel, the length direction of the tile hanging strips (2) is vertical to the length direction of the water guiding strips (3), and the tile hanging strips (2) and the water guiding strips (3) are both made of Indonesia pineapple lattice wood; concrete layer (4) are embedded to be equipped with a plurality of wooden plugs (5), and every wooden plug (5) all set up in the below of a water bar (3), synthetic resin tile (1), battens (2), water bar (3) and wooden plug (5) connect gradually through stainless steel nail (11).

2. The arc-shaped sloping roof synthetic resin tile installation structure as claimed in claim 1, wherein the ridge structure further comprises an aluminum alloy ridge (6) and a cement mortar base (7) connected with the aluminum alloy ridge (6), the synthetic resin tile (1) in the ridge structure is installed at the upper end of the cement mortar base (7), and the synthetic resin tile (1) and the aluminum alloy ridge (6) are sealed through weather-resistant glue (8).

3. The arc-shaped sloping roof synthetic resin tile installation structure as claimed in claim 2, wherein C20 fine stone concrete (9) for reinforcement is arranged between the battens (2) and the water-guiding strips (3) in the ridge construction.

4. The arc-shaped sloping roof synthetic resin tile installation structure according to claim 1, wherein a C20 fine stone concrete (9) for reinforcement is arranged between the battens (2) and the downcast strips (3) in the cornice construction.

5. The curved sloping roof synthetic resin tile installation structure as claimed in claim 1, wherein a reinforcing C20 fine stone concrete (9) is arranged between the battens (2) and the downcast battens (3) in the sloping edge construction.

6. The arc-shaped sloping roof synthetic resin tile mounting structure as claimed in claim 1, wherein the edges of the sloping edge structure, the ridge structure and the cornice structure are provided with decorative pieces (10), and the decorative pieces (10) are connected with the synthetic resin tiles (1) through reinforcing members.

7. The arc-shaped sloping roof synthetic resin tile installation structure as claimed in claim 6, wherein the decorative member (10) and the synthetic resin tile (1) are sealed by weather-resistant glue (8).

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