CN205399853U - Embedded roofing system structure of solar energy - Google Patents

Abstract

The utility model provides an embedded roofing system structure of solar energy, it includes solar collector and roofing tile, solar collector is embedded to be installed on sloping roofing, solar collector and roofing tile keeping parallelism and keep same height with the finished surface of roofing tile, around the solar collector and centre all is provided with the guiding gutter, compared with the prior art, solar collector combines the roofing construction to adopt embedded installation, makes solar collector and roofing tile be in same horizontal position, improves thermal -insulated heat preservation efficiency effectively, makes the more firm of solar collector installation, solar collector is equipped with the guiding gutter all around, and the gap department of guiding gutter setting between solar collector and roofing tile makes roofing tile overlap joint inseparable more around solar collector, realizes the roof rainwater reposition of redundant personnel, avoids regional the leaking of solar collector, has improved the drainage function, improves the integrated practicality of roofing thermal -arrest and with pleasing to the eye, has realized that solar energy and building are integrated.

Description

A kind of embedded roofing system structure of solar energy

Technical field

This utility model relates to a kind of roofing system structure, particularly to a kind of embedded roofing system structure of solar energy.

Background technology

Along with the reinforcement of energy-conserving and environment-protective consciousness, solar energy has been widely used for civil buildings and utilities building.

But, in the prior art, solar thermal collector when mounted, owing to the windage of solar thermal collector is big, it is necessary to install bigger bearing and support, cause the inconvenience of installation.

It addition, the water of solar thermal collector and roofing after melt water, is discharged roofing and is easily caused rain leakage after rainwater and snow.

It is accordingly required in particular to a kind of embedded roofing system structure of solar energy, to solve above-mentioned existing Problems existing.

Utility model content

The purpose of this utility model is in that to provide a kind of embedded roofing system structure of solar energy, for the deficiencies in the prior art, by by solar thermal collector installation by adhering on pitched roof, make solar thermal collector and pitched roof keeping parallelism, and keep sustained height with roofing finished surface, fundamentally solve solar thermal collector anti-wind problems, simultaneously, by solar thermal collector periphery and middle water-guiding element of installing, after effective solution rainwater and snow, the derivation problem of melt water, does not cause rain leakage.

This utility model is solved the technical problem that to realize by the following technical solutions:

A kind of embedded roofing system structure of solar energy, it is characterized in that, it includes solar thermal collector and roofing tile, and described solar thermal collector installation by adhering is on pitched roof, and the described solar thermal collector finished surface with described roofing tile keeping parallelism and with described roofing tile keeps sustained height；Surrounding and the centre of described solar thermal collector are provided with guiding gutter.

In an embodiment of the present utility model, described pitched roof includes the concrete, cement mortar screeding layer, waterproof bed course, insulation flaggy and the mortar cover that set gradually from the bottom to top.

In an embodiment of the present utility model; described solar thermal collector is fixed on described pitched roof by auxiliary stand; the upper end of described auxiliary stand is connected with solar thermal collector, and the lower end of described auxiliary stand is connected through the mortar cover of pitched roof with insulation flaggy.

In an embodiment of the present utility model, described roofing tile is laid on described pitched roof by counter battens and tile batten, and described counter battens is provided with lateral keel, and the mortar cover of described pitched roof is provided with longitudinal Os Draconis.

In an embodiment of the present utility model, both sides guiding gutter it is provided with between described solar thermal collector and longitudinal Os Draconis of solar thermal collector both sides, the inner side edge of described both sides guiding gutter is for being provided with dash crotch L-shaped limit, and the horizontal edge of inner side edge is clipped on solar thermal collector, the outer side edges of described both sides guiding gutter is be provided with the L-shaped limit of the curved ditch of dash, and the horizontal edge of outer side edges rides in lateral keel.

In an embodiment of the present utility model, described solar thermal collector and solar thermal collector vertical between be provided with vertical in the middle of guiding gutter, the side of described vertical middle guiding gutter is the L-shaped limit being provided with the curved ditch of dash, on the solar thermal collector being overlapped on both sides of the curved ditch of described dash.

In an embodiment of the present utility model, guiding gutter in the middle of laterally it is provided with between described solar thermal collector and the transverse direction of solar thermal collector, the both sides of described laterally middle guiding gutter are the L-shaped limit being provided with the curved ditch of dash, described dash crotch is overlapped on solar thermal collector, and cross with vertical middle guiding gutter, the flanging folding of described laterally middle guiding gutter bottom side is in vertical middle guiding gutter side, and bottom side is without the fixing connection of pulling rivet, reduce the hidden danger leaked, effectively improve drainage efficiency.

In an embodiment of the present utility model, it is provided with upside guiding gutter on the upside of described solar thermal collector and lateral keel, Os Draconis it are provided with on the upside of solar thermal collector, the inner side edge of described upside guiding gutter is the L-shaped limit being provided with the curved ditch of dash, and the horizontal edge of the inner side edge of described upside guiding gutter is overlapped on solar thermal collector, the outer side edges of described upside guiding gutter is be provided with the L-shaped limit of the curved ditch of dash, and the outer side edges of described upside guiding gutter is overlapped in lateral keel.

In an embodiment of the present utility model, downside guiding gutter it is provided with between described solar thermal collector and roofing tile, the inner side edge of described downside guiding gutter is straight flange and is attached to closely on solar thermal collector, and the outer side edges of described downside guiding gutter is flanging and rides on roofing tile.

The embedded roofing system structure of solar energy of the present utility model has a characteristic that

1, when solar thermal collector is installed, it is no longer necessary to relatively larger support and base support, effectively reduce support steel and the concrete use of bearing, fundamentally reduce the application of highly energy-consuming material, be truly realized the environmental protection purpose of energy-saving and emission-reduction.

2, also it is significantly improved in economic worth and in the time value, first no longer fabrication and installation fixed support and hold-down support, this expense will necessarily be saved, effectively reduce construction cost, this installation process useless simultaneously, will necessarily effectively shorten construction period, make time cost be substantially reduced.

3, by the installation of guiding gutter, after effectively solving solar thermal collector installation by adhering rainwater and avenging, the discharge of melt water, makes current form organized drainage path by guiding gutter, and after not resulting in rainwater and snow, melt water leaks into roof-base, causes seepage.

4, in practicality and aesthetically effect is obvious for solar thermal collector installation by adhering, makes roofing form an entirety, prominent attractive in appearance and practicality.

The embedded roofing system structure of solar energy of the present utility model, compared with prior art, solar thermal collector adopts installation by adhering in conjunction with roofing construction, solar thermal collector and roofing tile is made to be in same level position, it is effectively improved heat-insulation and heat-preservation efficiency, energy-saving ventilating air more, what make that solar thermal collector installs is more firm；Solar thermal collector be formed around guiding gutter, guiding gutter is arranged on the gap place between solar thermal collector and roofing tile, roofing tile is made more closely to be overlapped on the surrounding of solar thermal collector, realize rain water on roof shunting, it is to avoid leaking of solar thermal collector region, improve drain function, reduce the application of highly energy-consuming material, improve the practicality of roofing thermal-arrest integration and attractive in appearance, it is achieved that solar energy and architecture-integral, it is achieved the purpose of this utility model.

Feature of the present utility model see graphic and better embodiment below the detailed description of this case and obtains and be well understood to.

Accompanying drawing explanation

Fig. 1 is the structural representation of the embedded roofing system structure of solar energy of the present utility model；

Fig. 2 is the horizontal section schematic diagram of pitched roof of the present utility model；

Fig. 3 is the longitudinal profile schematic diagram of pitched roof of the present utility model；

Fig. 4 is the horizontal section schematic diagram of the embedded roofing system structure of solar energy of the present utility model；

Fig. 5 is the longitudinal profile schematic diagram of the embedded roofing system structure of solar energy of the present utility model；

Fig. 6 is the structural representation of both sides of the present utility model guiding gutter；

Fig. 7 is the structural representation of vertical middle guiding gutter of the present utility model；

Fig. 8 is the structural representation of laterally middle guiding gutter of the present utility model；

Fig. 9 is the structural representation of upside of the present utility model guiding gutter；

Figure 10 is the structural representation of downside of the present utility model guiding gutter.

Detailed description of the invention

For the technological means making this utility model realize, creation characteristic, reach purpose and effect and be easy to understand, below in conjunction with being specifically illustrating, this utility model is expanded on further.

Embodiment

As shown in Figure 1, Figure 4 and Figure 5, the embedded roofing system structure of solar energy of the present utility model, it includes solar thermal collector 100 and roofing tile 200, solar thermal collector 100 installation by adhering at pitched roof 300(referring to Fig. 2 and Fig. 3) on, solar thermal collector 100 finished surface with roofing tile 200 keeping parallelism and with roofing tile 200 keeps sustained height；The surrounding of solar thermal collector 100 and centre are respectively arranged with both sides guiding gutter 110, vertical middle guiding gutter 120, laterally middle guiding gutter 130, upside guiding gutter 140 and downside guiding gutter 150.

In the present embodiment, concrete 310, cement mortar screeding layer 320, waterproof bed course 330, insulation flaggy 340 and the mortar cover 350 that pitched roof 300 includes setting gradually from the bottom to top.

In the present embodiment; solar thermal collector 100 is fixed on pitched roof 300 by auxiliary stand 160; the upper end of auxiliary stand 160 is connected with solar thermal collector 100, and the lower end of auxiliary stand 160 is connected through the mortar cover 350 of pitched roof 300 with insulation flaggy 340.

In the present embodiment, roofing tile 200 is laid on pitched roof 300 by counter battens 210 and tile batten 220, and counter battens 210 is provided with lateral keel (not shown), and the mortar cover 350 of pitched roof 300 is provided with longitudinal Os Draconis (not shown).

When the embedded roofing system structure of solar energy of the present utility model is installed, its step is as follows:

Step one, longitudinal Os Draconis (not shown) steel nail is fixed on the mortar cover 350 of pitched roof 300；

Step 2, lateral keel (not shown) steel nail is fixed on counter battens 210;

Step 3, laying solar thermal collector 100, both sides guiding gutter 110, vertical middle guiding gutter 120, laterally middle guiding gutter 130, upside guiding gutter 140, downside guiding gutter 150 and roofing tile 200；Sequencing is first lay solar thermal collector 100, rear laying downside guiding gutter 150, both sides guiding gutter 110, laterally middle guiding gutter 130, vertical middle guiding gutter 120 and upside guiding gutter 140, finally lays roofing tile 200.

In the present embodiment, as shown in Figure 6, it is provided with both sides guiding gutter 110 between solar thermal collector 100 and longitudinal Os Draconis (not shown) of solar thermal collector 100 both sides, the inner side edge of both sides guiding gutter 110 is for being provided with dash crotch L-shaped limit, and the horizontal edge of inner side edge is clipped on solar thermal collector 100, the outer side edges of both sides guiding gutter 110 is be provided with the L-shaped limit of the curved ditch of dash, and the horizontal edge of outer side edges rides on lateral keel (not shown).

In the present embodiment, as shown in Figure 7, solar thermal collector 100 and solar thermal collector 100 vertical between be provided with vertical in the middle of guiding gutter 120, in the middle of vertical, the side of guiding gutter 120 is the L-shaped limit being provided with the curved ditch of dash, on the solar thermal collector 100 being overlapped on both sides of the curved ditch of described dash.

In the present embodiment, as shown in Figure 8, guiding gutter 130 in the middle of laterally it is provided with between the transverse direction of solar thermal collector 100 and solar thermal collector 100, in the middle of laterally, the both sides of guiding gutter 130 are the L-shaped limit being provided with the curved ditch of dash, described dash crotch is overlapped on solar thermal collector 100, and cross with vertical middle guiding gutter 120, in the middle of laterally, the flanging folding of guiding gutter 130 bottom side is in vertical middle guiding gutter 120 side, bottom side connects without pulling rivet is fixing, reduce the hidden danger leaked, effectively improve drainage efficiency.

In the present embodiment, as shown in Figure 9, it is provided with upside guiding gutter 140 on the upside of solar thermal collector 100 and lateral keel (not shown), it is provided with Os Draconis on the upside of solar thermal collector 100, the inner side edge of upside guiding gutter 140 is the L-shaped limit being provided with the curved ditch of dash, and the horizontal edge of the inner side edge of upside guiding gutter 140 is overlapped on solar thermal collector 100, the outer side edges of upside guiding gutter 140 is be provided with the L-shaped limit of the curved ditch of dash, and the outer side edges of upside guiding gutter 140 is overlapped on lateral keel (not shown).

In the present embodiment, as shown in Figure 10, being provided with downside guiding gutter 150 between solar thermal collector 100 and roofing tile 200, the inner side edge of downside guiding gutter 150 is straight flange and is attached on solar thermal collector 100 closely, and the outer side edges of downside guiding gutter 150 is flanging and rides on roofing tile 200.

The embedded roofing system structure of solar energy of the present utility model adopts solar thermal collector in conjunction with the construction technology of roofing construction, heat-insulation and heat-preservation efficiency can be effectively improved, energy-saving ventilating air more, what make that solar thermal collector installs is more firm, and keeping consistent with tiling level, whole work progress is simple and more attractive in appearance.

The embedded roofing system structure of solar energy of the present utility model, solar thermal collector is installed to pitched roof by insert structure, makes solar thermal collector and roofing tile be in same level position, and uniformity is good.Solar thermal collector be formed around special both sides guiding gutter, vertical in the middle of guiding gutter, laterally in the middle of guiding gutter, upside guiding gutter and downside guiding gutter.Both sides guiding gutter, upside guiding gutter, guiding gutter in the middle of vertical, guiding gutter in the middle of laterally, downside guiding gutter is arranged on the gap place between solar thermal collector and roofing tile, roofing tile is made more closely to be overlapped on the surrounding (gap between roofing tile and solar thermal collector is less than 2cm) of solar thermal collector, rainwater can be made to flow on the tile on the downside of solar thermal collector, import problem when solving rainy, effectively improve drain function to a certain extent, serve effective water-proof function, solve the aesthetic problem of roofing solar energy equipment, also improve practicality and the aesthetic problem of roofing solar energy heating integration simultaneously, achieve solar energy and architecture-integral.

Of the present utility model ultimate principle and principal character and of the present utility model advantage have more than been shown and described.Skilled person will appreciate that of the industry; this utility model is not restricted to the described embodiments; described in above-described embodiment and description is that principle of the present utility model is described; under the premise without departing from this utility model spirit and scope; this utility model also has various changes and modifications; these changes and improvements both fall within the scope of claimed this utility model, and this utility model claims scope and defined by appending claims and equivalent thereof.

Claims (9)

1. the embedded roofing system structure of solar energy, it is characterized in that, it includes solar thermal collector and roofing tile, and described solar thermal collector installation by adhering is on pitched roof, and the described solar thermal collector finished surface with described roofing tile keeping parallelism and with described roofing tile keeps sustained height；Surrounding and the centre of described solar thermal collector are provided with guiding gutter.

2. the embedded roofing system structure of solar energy as claimed in claim 1, it is characterised in that described pitched roof includes the concrete, cement mortar screeding layer, waterproof bed course, insulation flaggy and the mortar cover that set gradually from the bottom to top.

3. the embedded roofing system structure of solar energy as claimed in claim 1; it is characterized in that; described solar thermal collector is fixed on described pitched roof by auxiliary stand; the upper end of described auxiliary stand is connected with solar thermal collector, and the lower end of described auxiliary stand is on the mortar cover of pitched roof.

4. the embedded roofing system structure of solar energy as claimed in claim 1; it is characterized in that; described roofing tile is laid on described pitched roof by counter battens and tile batten, and described counter battens is provided with lateral keel, and the mortar cover of described pitched roof is provided with longitudinal Os Draconis.

5. the embedded roofing system structure of solar energy as claimed in claim 1, it is characterized in that, both sides guiding gutter it is provided with between described solar thermal collector and longitudinal Os Draconis of solar thermal collector both sides, the inner side edge of described both sides guiding gutter is for being provided with dash crotch L-shaped limit, and the horizontal edge of inner side edge is clipped on solar thermal collector, the outer side edges of described both sides guiding gutter is be provided with the L-shaped limit of the curved ditch of dash, and the horizontal edge of outer side edges rides in lateral keel.

6. the embedded roofing system structure of solar energy as claimed in claim 1, it is characterized in that, described solar thermal collector and solar thermal collector vertical between be provided with vertical in the middle of guiding gutter, the side of described vertical middle guiding gutter is the L-shaped limit being provided with the curved ditch of dash, on the solar thermal collector being overlapped on both sides of the curved ditch of described dash.

7. the embedded roofing system structure of solar energy as claimed in claim 1, it is characterized in that, guiding gutter in the middle of laterally it is provided with between described solar thermal collector and the transverse direction of solar thermal collector, the both sides of described laterally middle guiding gutter are the L-shaped limit being provided with the curved ditch of dash, described dash crotch is overlapped on solar thermal collector, and cross with vertical middle guiding gutter, the flanging folding of described laterally middle guiding gutter bottom side is in vertical middle guiding gutter side.

8. the embedded roofing system structure of solar energy as claimed in claim 1, it is characterized in that, it is provided with upside guiding gutter on the upside of described solar thermal collector and lateral keel, Os Draconis it are provided with on the upside of solar thermal collector, the inner side edge of described upside guiding gutter is the L-shaped limit being provided with the curved ditch of dash, and the horizontal edge of the inner side edge of described upside guiding gutter is overlapped on solar thermal collector, the outer side edges of described upside guiding gutter is be provided with the L-shaped limit of the curved ditch of dash, and the outer side edges of described upside guiding gutter is overlapped in lateral keel.

9. the embedded roofing system structure of solar energy as claimed in claim 1, it is characterized in that, downside guiding gutter it is provided with between described solar thermal collector and roofing tile, the inner side edge of described downside guiding gutter is straight flange and is attached to closely on solar thermal collector, and the outer side edges of described downside guiding gutter is flanging and rides on roofing tile.