CN213062671U - Roof heat radiation structure of imitation three-dimensional plane power generation tile - Google Patents

Abstract

The utility model discloses a roof heat radiation structure of imitative three-dimensional plane electricity generation tile connects two roof structure that constitute by imitative three-dimensional plane electricity generation tile, include: a fireproof heat-insulating layer laid on the inclined roof; the waterproof layer is laid on the fireproof heat-insulating layer; a plurality of aluminum alloy keel blocks fixedly arranged on the waterproof layer in an array manner and used for supporting and fixing the roof structure so as to form a heat dissipation space between the roof structure and the waterproof layer; and the ridge cap is positioned right above the ridge, fixedly connected with the roof structures on two sides and communicated with the heat dissipation space at the bottom. Wherein, the both sides wall of roof ridge cap all seted up the tripe louvre that inclines downwards. Thereby effectively dissipating heat from the roof.

Description

Roof heat radiation structure of imitation three-dimensional plane power generation tile

Technical Field

The utility model relates to a roof heat radiation structure.

Background

With the development of technology, the application of the power generation tile roof is increasingly wide, and solar energy is cheap and clean, is renewable energy and is suitable for wide application. Meanwhile, in order to avoid the problems that devices such as a solar panel are erected to damage and occupy positions of the roof and the wall surface, it is necessary to design a roof formed by effective and reliable power generation tiles.

The power generation tile as a material for solar power generation has the problem that the generated power is reduced at a certain temperature, and in order to avoid the problem, heat dissipation treatment is carried out between the power generation tile and a building roof so as to meet the power generation effect of the power generation tile under the condition of sufficient sunlight and high temperature.

Disclosure of Invention

An object of the utility model is to provide a roof heat radiation structure of imitative three-dimensional plane electricity generation tile can effectively dispel the heat to the roof.

The technical scheme for realizing the purpose is as follows:

the utility model provides a roof heat radiation structure of imitative three-dimensional plane electricity generation tile, connects two roof structure that constitute by imitative three-dimensional plane electricity generation tile, includes:

a fireproof heat-insulating layer laid on the inclined roof;

the waterproof layer is laid on the fireproof heat-insulating layer;

a plurality of aluminum alloy keel blocks fixedly arranged on the waterproof layer in an array manner and used for supporting and fixing the roof structure so as to form a heat dissipation space between the roof structure and the waterproof layer; and

the ridge cap is positioned right above the ridge, fixedly connected with the roof structures on two sides, and the bottom of the ridge cap is communicated with the heat dissipation space;

wherein, the both sides wall of roof ridge cap all seted up the tripe louvre that inclines downwards.

Preferably, each of the aluminum alloy keel blocks is arranged in a rectangular array.

Preferably, the aluminum alloy keel blocks are arranged in a staggered array.

Preferably, the transverse direction refers to: the direction of the ridge is horizontal;

the longitudinal direction refers to: from the ridge perpendicularly towards the eave.

Preferably, the bottom of the ridge cap is provided with an opening, and the opening extends downwards obliquely along two sides of the opening to form two fixing plates, and the two fixing plates are respectively fixedly connected with the corresponding roof structures through screws.

The utility model has the advantages that: the utility model discloses the structure heat dissipation space will remain 10mm-15mm thermal-insulated space (region sunshine shines differently between power generation tile and the building roof, and is different to power generation tile thermal conductance effect influence), cooperates the roof cap simultaneously, and the new trend gets into from heat dissipation space bottom, through heat dissipation space, from the discharge of roof cap tripe, effectively dispels the heat, satisfies the power generation effect of the power generation tile under the sufficient high temperature of sunshine.

Drawings

Fig. 1 is a sectional view of a roof heat dissipation structure of the three-dimensional plane-imitated power generation tile of the present invention;

FIG. 2 is a schematic view of rectangular array arrangement of aluminum alloy keel blocks according to the present invention;

fig. 3 is a schematic diagram of the staggered array arrangement of the middle aluminum alloy keel blocks of the present invention.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

Referring to fig. 1-3, the roof heat dissipation structure of the present invention, which is made of three-dimensional imitating planar power generating tiles, connects two roof structures 100, which are made of three-dimensional imitating planar power generating tiles, and includes: the fireproof heat-insulating layer 1, the waterproof layer 2, the aluminum alloy keel blocks 3 and the ridge cap 4. In this embodiment, the roof structure 100 is composed of a plurality of longitudinal aluminum alloy water guiding keels 300 fixed on the aluminum alloy keel block 3, and the three-dimensional simulated planar power generation tiles 400 hung on the longitudinal aluminum alloy water guiding keels 300.

The fireproof heat-insulating layer 1 is laid on the inclined roof 200. The waterproof layer 2 is laid on the fireproof heat-insulating layer 1.

A plurality of aluminum alloy keel blocks 3 are fixedly installed in an array on the waterproof layer 2 for supporting and fixing the roof structure 100 such that a heat dissipation space 5 is formed between the roof structure 100 and the waterproof layer 2. The aluminum alloy keel blocks 3 are arranged in a rectangular array or a staggered array.

The ridge cap 4 is located right above the ridge, fixedly connects the roof structures 100 on both sides, and the bottom is communicated with the heat dissipation space 5. Specifically, the ridge cap 4 is open at the bottom, and two fixing plates 41 are formed by extending obliquely downward along both sides of the opening, and the two fixing plates 41 are respectively fixedly connected with the respective roof structures 100 by screws.

Both side walls of the ridge cap 4 are provided with louver heat dissipation holes 41 which are inclined downwards.

The transverse direction is as follows: the direction of the ridge is horizontal; the longitudinal direction is as follows: from the ridge perpendicularly towards the eave.

In summary, fresh air enters from the lower part (eave) of the heat dissipation space 5 and then is discharged from the louver heat dissipation holes 41, so that heat dissipation can be effectively performed.

The above embodiments are provided only for the purpose of illustration, not for the limitation of the present invention, and those skilled in the relevant art can make various changes or modifications without departing from the spirit and scope of the present invention, therefore, all equivalent technical solutions should also belong to the scope of the present invention, and should be defined by the claims.

Claims (4)

1. The utility model provides a roof heat radiation structure of imitative three-dimensional plane electricity generation tile, connects two roof structure that constitute by imitative three-dimensional plane electricity generation tile, its characterized in that includes:

a fireproof heat-insulating layer laid on the inclined roof;

the waterproof layer is laid on the fireproof heat-insulating layer;

a plurality of aluminum alloy keel blocks fixedly arranged on the waterproof layer in an array manner and used for supporting and fixing the roof structure so as to form a heat dissipation space between the roof structure and the waterproof layer; and

the ridge cap is positioned right above the ridge, fixedly connected with the roof structures on two sides, and the bottom of the ridge cap is communicated with the heat dissipation space;

wherein, the both sides wall of roof ridge cap all seted up the tripe louvre that inclines downwards.

2. The roof heat dissipation structure of the pseudo-three-dimensional planar power generation tile according to claim 1, wherein each of the aluminum alloy keel blocks is arranged in a rectangular array.

3. The roof heat dissipation structure of the pseudo-stereoscopic planar power generation tile according to claim 1, wherein the aluminum alloy keel blocks are arranged in a staggered array.

4. The roof heat dissipation structure of the simulated three-dimensional planar power generation tile as recited in claim 1, wherein the bottom of the roof cap is open, and two fixing plates are formed by extending obliquely downward along two sides of the opening, and the two fixing plates are respectively fixedly connected with the corresponding roof structures through screws.

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