CN204001486U - Solar building roof - Google Patents

Abstract

The utility model provides a kind of solar building roof, comprises the metal framework being set up on room beam; This framework comprises a rectangle frame; In rectangle frame, be divided into a series of sashes by crossbeam, longeron; Rectangle frame, crossbeam, longeron, form by open slot channel-section steel upwards, and the open slot of each channel-section steel is interconnected in intersection; Two upper edges of the open slot of each channel-section steel are provided with valve rubber; The shape of each sash, a photovoltaic panel assembly of size coupling; Photovoltaic module comprises an opening up frame box, in this frame box, is equipped with photovoltaic wafer, and the top capping of frame box has a glass cover-plate; The brim of a hat under the surrounding of frame box is outward extended with and is tilted to; Two photovoltaic panel assemblies are embedded after two adjacent sashes, between the brim of a hat of these two photovoltaic panel assemblies, leave gap; The junction box of each photovoltaic panel assembly is electrically connected charger, battery.This roof can provide large-area daylighting, and construction is easy, and structural strength is large, also has superior draining, protection effect.

Description

Solar building roof

Technical field

The utility model relates to solar building facility field, especially, relates to a kind of solar building roof.

Background technology

Along with increasingly sharpening of global energy crisis, energy-conserving and environment-protective concept has obtained promoting widely; Especially, for the utilization of solar energy, very universal.

Wherein the concept on photovoltaic roof has also started extensively to construct and implement.But, current photovoltaic roof, the main problem existing is that photovoltaic panel and building roof are separate, in the time that photovoltaic panel is installed, must on the roofing of brick and tile or concrete structure, first build metallic support, and then lay photovoltaic panel assembly.The shortcoming of this kind of structure is: one, roofing burden is extremely heavy, to such an extent as to more a part of roofing cannot be built at all; Two, wind-proof performance is very weak, is difficult to resist violent typhoon.In addition, the construction of this kind of structure is very inconvenient, and construction speed is slow, and construction cost is high.

In view of the foregoing, there are at present some patented technology files, photovoltaic roof has been improved; Typically, as application number is: 201120171039.1, name is called: a kind of embedded photovoltaic roof component; Be characterized in, surrounding at photovoltaic panel assembly adds framework, left and right framework is the male and female channel shaped structure that can mutually fasten, like this, as saying in its manual, when mounted, photovoltaic module can be used as to tile equally to cover on roofing, adjacent photovoltaic module is acted in collusion, with water conservancy diversion rainwater by their left and right side frame.

For above-mentioned patent application, really can alleviate roof load-bearing burden; But, in manual, do not record and this kind of photovoltaic module is installed as He Jianshe, from its design feature, in this, photovoltaic module will be installed on roofing, still need by connectors such as bolts, photovoltaic module to be fixed on roofing, otherwise, only rely on the frictional fit of photovoltaic module bottom surface and roof brick face, and the snap fit of the male and female frame of adjacent photovoltaic module, the attack that at all cannot bear strong wind.On the other hand, for neighbouring photovoltaic module, in manual, do not provide a kind of fit system, and according to the structure of its photovoltaic module, be difficult to infer a kind of suitable fit system yet, make can waterproof to overlap between neighbouring photovoltaic module, because photovoltaic panel assembly compared with tile and Yan Yaohou is a lot, for neighbouring photovoltaic panel assembly, is cannot be the same with tile, by the upper edge of below photovoltaic panel assembly, above being pressed under the lower edge of photovoltaic panel assembly; As can be seen here, for this kind of photovoltaic panel assembly, in fact exist obvious constructional difficulties; In addition, this kind relies on the fit system of male and female frame hasp, under rainstorm weather, is easy to make roof ponding cover hasp gap owing to having little time draining, causes roof to leak.

Utility model content

For the problems referred to above, the purpose of this utility model is to provide a kind of solar building roof, and this roof can provide large-area daylighting, and construction is easy, and structural strength is large, also has superior draining, protection effect.

The utility model solves the technical scheme that its technical problem adopts: this solar building roof comprises the metal framework being set up on room beam; This metal framework comprises a rectangle frame adapting with roofing size; Described rectangle frame is interior by the crossbeam being equally spaced, and the longeron being equally spaced is divided into a series of sashes; Described rectangle frame, crossbeam, longeron, form by open slot channel-section steel upwards, and the open slot of each channel-section steel is interconnected in intersection; Two upper edges of the open slot of each channel-section steel are provided with valve rubber; The shape of each described sash, a photovoltaic panel assembly of size coupling; Described photovoltaic module comprises an opening up frame box, in this frame box, is equipped with photovoltaic wafer, and this frame box top capping has a glass cover-plate; The brim of a hat under the surrounding of described frame box is outward extended with and is tilted to; Two described photovoltaic panel assemblies are embedded after two adjacent described sashes, between the brim of a hat of these two photovoltaic panel assemblies, leave gap; The mode that the junction box of each described photovoltaic panel assembly is mixed with parallel connection or connection in series-parallel is electrically connected charger, battery.

As preferably, the low inclined position setting in high south to the north of described metal framework, to provide a good lighting angle; In the case, further, described crossbeam, longeron be all with respect to the upper edge of described rectangle frame, the line of centres tilt distribution of lower edge, and all crossbeams and all longerons are about the upper edge of described rectangle frame, the line of centres symmetry of lower edge; This structural change the horizontally disposed general layout in lower edge on traditional photovoltaic panel assembly, make photovoltaic panel assembly in unconventional location status, its benefit obtaining is: one, make each described sash become two for the side-strut of photovoltaic panel assembly from one, improved structural strength; Two, for the rainwater impacting on roofing, in the process toward current downflow, the state full symmetric in the open slot of described crossbeam, longeron, makes the open slot of crossbeam, longeron can bring into play drain function completely.

As preferably, in described frame box, glass cover-plate annular seal space that sealed, that be provided with described photovoltaic wafer, be pumped into vacuum, described photovoltaic wafer sticks on by heat-conducting glue on the metal base plate of described frame box; Thereby obtain following technique effect: in the time that rainwater hits on glass cover-plate, vibration on glass cover-plate cannot see through the air in described annular seal space, be passed to roofing below, only can be applied on the valve rubber on the open slot of described sash surrounding by the brim of a hat of frame box, and absorbed by valve rubber, like this, even if roofing top heavy rain is as note, roofing below be can't hear the sound of rainwater impact roofing substantially, has superior soundproof effect.

As preferably, described photovoltaic wafer sticks on the metal base plate of described frame box by heat-conducting glue, and the described metal base plate snakelike thermal conductive water pipe that has been sticked on indoor surface, and should be plated to towards indoor surface reflecting surface; After thermal conductive water pipe on the metal base plate of each described frame box connects mutually, be connected in series again a circulation pump, then serial connection is to the two ends of the energy device being formed in parallel by an attemperater and cooling tower, the two ends of described energy device are provided with total electromagnetic valve, and the two ends of described cooling tower are also provided with a point electromagnetic valve; The centre position that described thermal conductive water pipe forms Chuan road is provided with the cooling-water temperature sensor that can survey the water temperature in centre position, Gai Chuan road, this cooling-water temperature sensor is coupled to a controller, the water temperature that described controller senses according to described cooling-water temperature sensor, controls described circulation pump, total electromagnetic valve, point electromagnetic valve; When described water temperature is during higher than N DEG C (N=50～60), start described circulation pump, total electromagnetic valve, otherwise close circulation pump, total electromagnetic valve; When described water temperature is during higher than M DEG C (M>N), open described point electromagnetic valve, otherwise close described point electromagnetic valve.The advantage of this preferred version is: described photovoltaic wafer collects after solar energy, 15% left and right is for generating, remaining 85% left and right solar energy is converted into heat energy, is absorbed by described thermal conductive water pipe, concentrates on the below of described metal base plate, after this, thermal conductive water pipe launches with thermal-radiating form a part of heat to surrounding, because described metal base plate is plated to reflecting surface towards indoor surface, therefore, overwhelming majority heat radiation is all invested indoor below, thereby indoor people is basked; And when meeting in indoor warm situation, in thermal conductive water pipe, when excess Temperature, unnecessary heat is migrated to again in described attemperater, for the production of hot water; And in the situation that summer, solar energy was extremely abundant, if water temperature has risen to higher in attemperater, while causing thermal conductive water pipe's temperature to continue to be elevated to limit value, again by the external release heat of described cooling tower, thereby make indoorly to remain warm and not hot temperature regime has effect cool in summer and warm in winter.

As preferably, extend to bilateral symmetry the bottom surface of described channel-section steel, forms the supporting plate extending along whole piece channel-section steel; Described photovoltaic panel assembly meet with an accidet cracked after, described frame box will be held by described supporting plate, thereby be unlikely to fall into indoor; Further, on described supporting plate, be longitudinally equidistantly provided with bolt hole, and also correspondence is provided with bolt hole on the base plate of described frame box, described supporting plate, frame box can be realized bolt by this bolt hole and fix, and further strengthen the overall structure stability on this solar building roof.

The beneficial effects of the utility model are: this solar building roof, in the time building, first adopts channel-section steel to form described metal framework by welding manner, and speed is far above concrete or brick structure; Then, directly each photovoltaic panel assembly is directly embedded in the sash of described metal framework; Like this, the brim of a hat of each photovoltaic panel assembly fastens a circle edge of the channel-section steel that surrounds its corresponding sash just, utilizes the gravity of photovoltaic panel assembly self, makes the valve rubber press seal of the described the brim of a hat and channel-section steel upper edge; And impact rainwater on the glass cover-plate of each photovoltaic panel assembly, just to glass cover-plate surrounding along the brim of a hat landing to forming in the open slot of each channel-section steel of described metal framework, obtain perfect drain measure performance; As can be seen here, this roof can provide large-area daylighting, and construction is easy, has superior draining, protection effect; And because each photovoltaic panel assembly is all embedded in metal sash, almost without any the parts that keep out the wind, therefore, structural strength is large, protection effect is good.

Brief description of the drawings

Fig. 1 is the top view of this solar building roof embodiment mono-.

Fig. 2 is the structural representation of each channel-section steel intersection on this solar building roof.

Fig. 3 is the top view of a photovoltaic panel assembly on this solar building roof.

Fig. 4 is that the A-A of Fig. 3 is to sectional view.

Fig. 5 is the schematic diagram that coordinates of adjacent two photovoltaic panel assemblies and channel-section steel in this solar building roof.

Fig. 6 is in this solar building roof, an embodiment schematic diagram of photovoltaic panel assembly.

Fig. 7 is in this solar building roof, is formed the connection diagram of Chuan road and energy device by the thermal conductive water pipe of photovoltaic panel assembly.

Fig. 8 is the top view of this solar building roof embodiment bis-.

Detailed description of the invention

Below in conjunction with drawings and Examples, the utility model is further illustrated:

Embodiment mono-:

In the embodiment mono-shown in Fig. 1, this solar building roof comprises the metal framework being set up on room beam; This metal framework comprises a rectangle frame 21 adapting with roofing size; Described rectangle frame 21 is interior by the crossbeam 22 being equally spaced, and the longeron 23 being equally spaced is divided into a series of sashes; Described rectangle frame 21, crossbeam 22, longeron 23, form by open slot channel-section steel 200 upwards, and the open slot of each channel-section steel 200 is interconnected in intersection, as shown in Figure 2, can link by the mode of welding; Two upper edges of the open slot of each channel-section steel 200 are provided with valve rubber (not shown); The shape of each described sash, a photovoltaic panel assembly 1 of size coupling; Described photovoltaic module 1 as shown in Figure 3,4, comprises an opening up frame box 13, in the annular seal space 10 in this frame box 13, is equipped with photovoltaic wafer 12, and this frame box top capping has a glass cover-plate 11; The brim of a hat 111 under the surrounding of described frame box 13 is outward extended with and is tilted to, in the present embodiment, this brim of a hat 111 is directly stretched out and is formed by described glass cover-plate 11.

As shown in Figure 5, two described photovoltaic panel assemblies 1 are embedded to two adjacent described sashes (in Fig. 5, only draw the public channel-section steel 200 of two adjacent sashes) after, the brim of a hat 111 of these two photovoltaic panel assemblies is shelved on the upper edge (having omitted valve rubber) of channel-section steel 200, between the brim of a hat of adjacent photovoltaic panel assembly, leave gap, so that construction and installation.

The mode that the junction box of each described photovoltaic panel assembly is mixed with parallel connection or connection in series-parallel is electrically connected charger, battery.

In addition, as shown in Fig. 2, Fig. 5, the improved structure of described channel-section steel 200 is that extend to bilateral symmetry the bottom surface of channel-section steel 200, forms the supporting plate 2001 extending along whole piece channel-section steel; Described photovoltaic panel assembly meet with an accidet cracked after, described frame box 13 will be held by described supporting plate, thereby be unlikely to fall into indoor;

Further, on described supporting plate 2001, can also longitudinally equidistantly offer bolt hole, and also correspondence is offered bolt hole on the base plate of described frame box 13, described supporting plate 2001, frame box 13 can be realized bolt by this bolt hole and fix, and further strengthen the overall structure stability on this solar building roof; Because bolt hole structure is simple, therefore no longer illustrate.

Above-mentioned solar building roof, is pumped into vacuum in described frame box 13, glass cover-plate 11 annular seal space 10 that sealed, that be provided with described photovoltaic wafer 12, and described photovoltaic wafer 12 sticks on by heat-conducting glue on the metal base plate of described frame box 13; Thereby obtain following technique effect: in the time that rainwater hits on glass cover-plate 11, vibration on glass cover-plate cannot see through the air in described annular seal space 10, be passed to roofing below, only can be applied on the valve rubber on the open slot of described sash surrounding by the brim of a hat of frame box 111, and absorbed by valve rubber, like this, even if roofing top heavy rain is as note, roofing below be can't hear the sound of rainwater impact roofing substantially, has superior soundproof effect.

When described annular seal space 10 is pumped into after vacuum, remaining solar energy after 12 generatings of photovoltaic wafer, by both direction radiation up and down on photovoltaic wafer 12, thereby causes thermal waste; Therefore, described photovoltaic wafer 12 can be sticked on the metal base plate of described frame box 13 by heat-conducting glue, and the described metal base plate snakelike thermal conductive water pipe 3 that has been sticked on indoor surface as shown in Figure 6, and should be plated to towards indoor surface reflecting surface; After thermal conductive water pipe on the metal base plate of each described frame box 13 connects mutually, form string road 31, as shown in Figure 7, Gai Chuan road 13 is connected in series a circulation pump 8 again, then serial connection is to the two ends of the energy device being formed in parallel by an attemperater 4 and cooling tower 5, the two ends of described energy device are provided with total electromagnetic valve 6, and the two ends of described cooling tower 5 are also provided with point electromagnetic valve 7; The centre position that described thermal conductive water pipe forms Chuan road 31 is provided with the cooling-water temperature sensor (not shown) that can survey the water temperature in centre position, Gai Chuan road, this cooling-water temperature sensor is coupled to a controller (not shown), the water temperature that described controller senses according to described cooling-water temperature sensor, controls described circulation pump 8, total electromagnetic valve 6, point electromagnetic valve 7; When described water temperature is during higher than N DEG C (N=50～60), start described circulation pump 8, total electromagnetic valve 6, otherwise close circulation pump 8, total electromagnetic valve 6; When described water temperature is during higher than M DEG C (M>N), open described point electromagnetic valve 7, otherwise close described point electromagnetic valve 7.The advantage of this scheme is: described photovoltaic wafer 12 collects after solar energy, 15% left and right is for generating, remaining 85% left and right solar energy is converted into heat energy, absorbed by described thermal conductive water pipe 3, thereby will originally a large amount of heat energy of upwards radiation be moved, and concentrate on the below of described metal base plate, after this, thermal conductive water pipe 3 launches with thermal-radiating form a part of heat to surrounding, because described metal base plate is plated to reflecting surface towards indoor surface, therefore, most heat radiations are all invested indoor below, thereby indoor people is basked; And when meeting in indoor warm situation, in thermal conductive water pipe 3, when excess Temperature, unnecessary heat is migrated to again in described attemperater 4, for the production of hot water; And in the situation that summer, solar energy was extremely abundant, if the interior water temperature of attemperater 4 has risen to higher, while causing thermal conductive water pipe's temperature to continue to be elevated to limit value, again by the external release heat of described cooling tower 5, thereby make indoorly to remain warm and not hot temperature regime has effect cool in summer and warm in winter.

Above-mentioned solar building roof, in the time building, first adopts channel-section steel 200 to form described metal framework by welding manner, and speed is far above concrete or brick structure; Then, directly each photovoltaic panel assembly 1 is directly embedded in the sash of described metal framework; Like this, the brim of a hat 111 of each photovoltaic panel assembly fastens a circle edge of the channel-section steel that surrounds its corresponding sash just, utilizes the gravity of photovoltaic panel assembly 1 self, makes the valve rubber press seal of the described the brim of a hat 111 and channel-section steel 200 upper edges; And impact rainwater on the glass cover-plate 11 of each photovoltaic panel assembly, just to glass cover-plate surrounding along the brim of a hat landing to forming in the open slot of each channel-section steel 200 of described metal framework, obtain perfect drain measure performance; As can be seen here, this roof can provide large-area daylighting, and construction is easy, has superior draining, protection effect; And because each photovoltaic panel assembly is all embedded in metal sash, almost without any the parts that keep out the wind, therefore, structural strength is large, protection effect is good.

Embodiment bis-:

For embodiment bis-, the low inclined position setting in high south to the north of described metal framework, to provide a good lighting angle; In the case, the difference of itself and embodiment mono-is:

As shown in Figure 8, described crossbeam 22, longeron 23 be all with respect to the upper edge of described rectangle frame 21, the line of centres of lower edge (being the a-a line in Fig. 8) tilt distribution, and all crossbeams 22 with all longerons 23 about the upper edge of described rectangle frame, the line of centres symmetry of lower edge; This structural change the horizontally disposed general layout in lower edge on traditional photovoltaic panel assembly,, adopt unconventional position to lay photovoltaic panel assembly, and the benefit that it obtains is: one, make each described sash become two for the side-strut of photovoltaic panel assembly from one, improved structural strength; Two, the force-bearing situation full symmetric that makes crossbeam 22 and longeron 23, has improved structural stability; Three, for the rainwater impacting on roofing, in the process toward current downflow, the state full symmetric in the open slot of described crossbeam, longeron, makes the open slot of crossbeam, longeron can bring into play drain function completely.

For embodiment bis-, from structural strength, stability, drainability, be obviously superior to embodiment mono-; But it should be noted in the discussion above that the circle photovoltaic panel assembly for described metal framework periphery, also need to be made into triangle, that is, whole roof need to adopt the photovoltaic panel assembly of two kinds of specifications, and the versatility of assembly is more inferior a little.

The foregoing is only preferred embodiment of the present utility model, not in order to limit the utility model, all within spirit of the present utility model and principle, any amendment of doing, be equal to replacement, improvement etc., within all should being included in protection domain of the present utility model.

Claims (7)

1. a solar building roof, this solar building roof comprises the metal framework being set up on room beam; This metal framework comprises a rectangle frame adapting with roofing size (21); Described rectangle frame is interior by the crossbeam being equally spaced (22), and the longeron being equally spaced (23) is divided into a series of sashes; Described rectangle frame (21), crossbeam (22), longeron (23), form by open slot channel-section steel (200) upwards, and the open slot of each channel-section steel (200) is interconnected in intersection; Two upper edges of the open slot of each channel-section steel are provided with valve rubber; The shape of each described sash, a size photovoltaic panel assembly of coupling (1); Described photovoltaic module comprises an opening up frame box (13), is equipped with photovoltaic wafer (12) in this frame box, and this frame box top capping has a glass cover-plate (11); The brim of a hat (111) under the surrounding of described frame box is outward extended with and is tilted to; Two described photovoltaic panel assemblies (1) are embedded after two adjacent described sashes, between the brim of a hat (111) of these two photovoltaic panel assemblies, leave gap; The mode that the junction box of each described photovoltaic panel assembly (1) is mixed with parallel connection or connection in series-parallel is electrically connected charger, battery.

2. solar building according to claim 1 roof, is characterized in that: the low inclined position setting in high south to the north of described metal framework.

3. solar building according to claim 2 roof, it is characterized in that: described crossbeam (22), longeron (23) be all with respect to the upper edge of described rectangle frame (1), the line of centres tilt distribution of lower edge, and all crossbeams (22) with all longerons (23) about the upper edge of described rectangle frame (1), the line of centres symmetry of lower edge.

4. according to the solar building roof described in claim 1 or 3, it is characterized in that: in described frame box (13), glass cover-plate (11) annular seal space (10) that sealed, that be provided with described photovoltaic wafer (12), be pumped into vacuum, described photovoltaic wafer (12) sticks on the metal base plate of described frame box (13) by heat-conducting glue.

5. according to the solar building roof described in claim 1～3 any, it is characterized in that: extend to bilateral symmetry the bottom surface of described channel-section steel (200), form the supporting plate (2001) extending along whole piece channel-section steel.

6. according to the solar building roof described in claim 4 any, it is characterized in that: extend to bilateral symmetry the bottom surface of described channel-section steel (200), form the supporting plate (2001) extending along whole piece channel-section steel.

7. solar building according to claim 5 roof, it is characterized in that: on described supporting plate (2001), be longitudinally equidistantly provided with bolt hole, and also correspondence is provided with bolt hole on the base plate of described frame box (13), described supporting plate (2001), frame box (13) can be realized bolt by this bolt hole and fix.