CN105672586A - BIPV (Building Integrated Photovoltaic) photovoltaic roof of integrated intelligent heat exchange system - Google Patents

Abstract

The invention provides a BIPV (Building Integrated Photovoltaic) photovoltaic roof of an integrated intelligent heat exchange system. The BIPV photovoltaic roof comprises a solar photovoltaic assembly, a main water tank, a secondary water tank, a waterproof cover, an assembly pressing block, a vibration absorption pressing block, a grounding stabbing sheet, a vibration absorption cushion, a heat exchange chamber and a ventilation window, wherein the main water tank is vertically fixed through fixing the assembly pressing block and the vibration absorption pressing block on the two sides of the solar photovoltaic assembly; supporting seats on the two sides of the main water tank are fixed on purlines of the roof through self-tapping screws; the secondary water tank is vertical to the direction of the main water tank and is overlapped on the main water tank; the secondary water tank is provided with an occlusion structure; the secondary water tank is fixed with the solar photovoltaic assembly through the occlusion structure; the waterproof cover is buckled on the assembly pressing block; the main water tank and the secondary water tank are filled with structural adhesives, so that the heat under the solar photovoltaic assembly is stopped from being dissipated from a gap of the solar photovoltaic assembly; and the heat exchange chamber is arranged under the solar photovoltaic assembly and the ventilation window is arranged on the heat exchange chamber.

Description

A kind of BIPV photovoltaic roof of integrated intelligent heat-exchange system

Technical field

The present invention relates to field of solar thermal power generation, particularly to integration roof of photovoltaic construction.

Background technology

BIPV and BuildingIntegratedPV is BIPV. PV and Photovoltaic. BIPV technology is that solar electrical energy generation (photovoltaic) product is integrated into architectural technology. Photovoltaic building body (BIPV) is different from photovoltaic system and is attached to the form of architectural (BAPV:BuildingAttachedPV). In modernized society, people are more and more higher to the pursuit of comfortable architectural environment, cause that the energy consumption of building and heating and air-conditioning is growing. In developed country, energy for building has accounted for 30% the 40% of whole nation total energy consumption, economic development is defined certain restrictive function, the appearance of BIPV, effectively utilize regenerative resource and carry out generating for user, the roof of BIPV material is longer than traditional roof life more than 30 years simultaneously, is the preferred plan substituting conventional roof.

According to the different modes of photovoltaic arrays Yu Integration of building, the application of building photovoltaic is divided into two big classes:

One, the combination of photovoltaic arrays and building:

Packaged photovoltaic module flat board or curved slab are arranged on the roof of building in the way of support and tiling, and photovoltaic generating system is attached to architectural as additional member, and building, as photovoltaic arrays carrier, plays a supportive role. The combination of this type is not enough to photovoltaic module Exploitation degree, and the degrees of fusion of photovoltaic module and building is not high.

Two, photovoltaic arrays and building is integrated:

Being occurred with the form of a kind of construction material or building element by photovoltaic module, photovoltaic component becomes building inalienable part, for substituting traditional roof structure, it is achieved the function such as generating, energy-conservation, waterproof, long service life.

In above-mentioned two ways, the integrated a kind of advanced form being photoelectricity and building of photovoltaic arrays and building. It requires that solar photovoltaic assembly not only to possess the function of photovoltaic generation, also to take into account the becalming of building, keep off the rain, insulation, waterproof fireproofing, decoration, the function such as protection, and organically combine with building, combine together. But photovoltaic arrays is, by simple supporting construction or in the way of tiling, photovoltaic module is attached to building roof mostly in China's existing photovoltaic building project at present, it is not belonging to the required preferential building-material-type photovoltaic component category adopted of national standard specification.

The following is and retrieve the document about photovoltaic roof:

Chinese patent 1, title: a kind of photovoltaic roof;Application number: 201420476010.8 applyings date: 2014-08-22; Applicant: Xu Qinghong; Address: 225316 Room, No. 1 building 1402 of Yao Cheng main road 1 commercial affairs, Taizhou City medicine high and new technology industrial development zone, Jiangsu Province; Summary: the photovoltaic roof of a kind of modular Synchronization Design construction. Girder and the secondary beam on this roof are vertically staggered, form the arrangement of uphill opening type cross beam, vertical concrete thin plates is built above cross beam, section becomes and is formed around window frame above square shape masterplate, window frame is provided with screw, it is aboveground that photovoltaic module is fixed on sky by screw, and the back of girder and secondary beam is provided with some filtration, purification grooves. Modular solar power photovoltaic roof of the present utility model one-shot forming when building roof, saves construction cost; Adopt south orientation daylighting and draining, meet photovoltaic and the requirement such as gradient and fire-proof and water-proof is installed; Filtration, purification groove can be collected rainwater and purify the air of a room; The photovoltaic module on this roof assembles simple, long service life, and optoelectronic transformation efficiency is high.

Chinese patent 2, title: photovoltaic and photothermal solar roof system; Application number: 201310022338.2 applyings date: 2013-01-22; Applicant: Yu Qinyong; Address: 310004 unit 401 Room, west part of the ring road, Xiacheng District, Hangzhou, Zhejiang province city 38 3; Summary: photovoltaic and photothermal solar roof system, it includes several photovoltaic and photothermal solar panels, water-supply-pipe and supporting construction, described photovoltaic and photothermal solar panel is fixing on the support structure by connector, mutually overlap between described photovoltaic and photothermal solar panel is longitudinal, being provided with heat exchanger tube in described photovoltaic and photothermal solar panel, described water-supply-pipe is connected to water inlet and the outlet of heat exchanger tube by pipeline. Photovoltaic and photothermal solar is fixed in the supporting construction at the top of described building by the present invention by connector, mutually overlap between photovoltaic and photothermal solar panel is longitudinal, can lay in roof large area, improve photoelectricity, solar thermal utilization efficiency, can completely replace or part replaces modern tradition roof, integral installation and use cost can be reduced, and provide the water resistance on solar energy roof.

Chinese patent 3, title: a kind of heat insulation type photovoltaic tile roof structure; Application number: the 201420738502.X applying date: 2014-12-02; Applicant: Wu little Song Zhejiang Vocational College of Commerce; Address: 310053 BinWen Road, Binjiang District, HangZhou City, ZheJiang Province 470 Zhejiang Vocational College of Commerce; Summary: a kind of heat insulation type photovoltaic tile roof structure, including roof panels and the tile batten being located in roof panels, being equipped with photovoltaic tile on tile batten, ridge is provided with ridge tiles, and every piece of photovoltaic tile is designed with connecting hole, photovoltaic tile is connected with tile batten by screw, being additionally provided with splash guard in roof panels, splash guard is corrugated plating, surrounds some air channels being distributed to eaves along ridge between splash guard and roof panels, roof panels is provided with some connection seats, and tile batten is connected with being connected seat by bolt. Therefore, this utility model can weaken the heat transmission between photovoltaic tile and roof panels, good heat dissipation effect greatly, effectively reduces roof temperature, keeps cool environment within doors.

Chinese patent 4, title: the photovoltaic roof of waterproof water conservancy diversion; Application number: 201420730220.5 applyings date: 2014-11-26; Applicant: Jieyang Zhong Cheng Group Co., Ltd; Address: 522021 west sides, Center Road, economic developing testing zones, Jie Yang County Guangdong Provice, C, cross road north side, Xisi;Summary: the photovoltaic roof of a kind of waterproof water conservancy diversion, it is longitudinally disposed supporting rail that this photovoltaic roof is installed with some rows at the top of netted truss by adpting flange, often fix the photovoltaic cells being equipped with some pieces of plate-shaped structures between adjacent two supporting rails successively, often arrange the corresponding leading tank being installed with in longitudinally arrangement on the end face of described supporting rail, this leading tank is embedded between the longitudinal slot of often adjacent two photovoltaic cells, and seal between the transverse slot of every adjacent two photovoltaic cells and be installed with a cover plate, owing to all adopting rubber waterproof bar to seal between photovoltaic cells and each parts being in contact with it, therefore can effectively prevent rain penetration to photovoltaic cells square formation, the hydrops on roof can before leading tank be guided to simultaneously, in rearmounted guiding gutter, can be quickly discharged, it is particularly well-suited to the area use that rainfall is big.

Can be seen that from above-mentioned document, the waterproof problem of photovoltaic roof is one of technological difficulties that this art is specialized at present, photovoltaic module is fixed on roof usually by splicing, when adopting photovoltaic module to replace roof, what photovoltaic module splicing caused leak, immersion eroded components etc. is particularly problematic for a long time. Generally, the hydrops on tank water conservancy diversion roof can be passed through in photovoltaic module both sides, but general single ply waterproofing structure can not meet waterproof requirement, and majority photovoltaic roof passes through self-tapping screw and holes fixing on module frame, through long-time erosion by wind and rain, rock and rub, screw can loosen, and forms leakage point, causes that photovoltaic roof integral waterproofing effect is poor; When intensity of sunshine district higher, south uses photovoltaic roof, though can utilize generate electricity sunshine very well, but the high temperature at the heat that assembly generating itself produces and long-time strong sunshine can cause architecture indoor temperature drift, general builder can adopt aeration structure design to be discharged by heat, but these heats are regenerative resource in fact, should be used, reduce building entirety discharge.

Summary of the invention

It is an object of the invention to provide and a kind of can store, shift sunshine and heat that solar components generating produces, the BIPV roof of a kind of integrated intelligent heat-exchange system used that heats to user.

For solving the problems referred to above, the technical scheme is that

The BIPV photovoltaic roof of integrated intelligent heat-exchange system, including solar photovoltaic assembly, main tank, secondary tank, waterproof cover, damping briquetting, cushion, assembly briquetting, Heat Room, electrically ventilating window, temperature control sensor and heat exchanger, described main tank is fixed in solar photovoltaic assembly both sides longitudinally through assembly briquetting and damping briquetting, waterproof cover and assembly briquetting are connected, main bottom of gullet is provided with cushion, the supporting seat of main tank both sides is fixed on the purlin on roof by self-tapping screw, secondary tank is vertical with main tank direction to be overlapped on main tank, secondary tank is provided with occlusion structure, secondary tank is fixed by occlusion structure and solar components, it it is Heat Room below solar photovoltaic assembly, temperature control sensor it is provided with in Heat Room, Heat Room metope is provided with electrically ventilating window, Heat Room top is equipped with heat exchanger.

Described main tank is used for inter-module axial clearance waterproof, and the main tank of the present invention is provided with the supporting seat on both sides, and it is fixed on both sides, is substantially reduced probability of leaking, making tank more stable, supporting seat plays the effect supporting solar photovoltaic assembly and fixing main tank simultaneously;

Described secondary tank is used for assembly lateral clearance waterproof, and the secondary tank of the present invention is provided with occlusion structure, and occlusion structure is used for connecting upper and lower two pieces of solar photovoltaic assemblies;

Described assembly briquetting for being fixed on main tank by solar photovoltaic assembly, bottom is cased with ground connection thorn sheet, two block assembly frames are simultaneously turned at fixation kit, assembly briquetting is connected with damping briquetting, main bottom of gullet is provided with cushion, for reducing the friction of tank and metal purlins, it is to avoid tank anti oxidation layer weares and teares;

Described Heat Room, for absorbing sunshine and the heat of solar photovoltaic assembly generating generation, gathers heat for indoor heating for indoor heat exchanger, and electrically ventilating window, by temperature control sensor control, plays the effect discharging unnecessary hot-air;

The gap of described main tank, secondary tank and solar photovoltaic assembly is filled with structure glue, plays the effect of sealing, it is prevented that hot-air spills from gap.

The beneficial effects of the present invention is:

(1) present invention only has that assembly briquetting, damping briquetting and main tank supporting seat are fixing adopts self-tapping screw to fix, all the other all adopt overlap joint, the mode of snapping connects each assembly, effectively prevent screw boring from forming leakage point due to air slaking, abrasion, avoid solar components water inlet to increase the service life simultaneously.

(2) the main tank of the present invention and conventional sink are distinctive in that, the main tank both sides of the present invention have for fixing supporting seat, conventional sink is only by fixation kit and tank in the middle part of the through tank of assembly briquetting, tank both sides are not fixed, long-time extruding easily makes tank both sides modification leak, and connect between high-low-position tank and generally adopt welding, the mode of bonding or screw, very easily produce fracture and leakage point, and the tank both sides self-tapping screw of the present invention is fixed on the purlin in house, by assembly briquetting and damping briquetting, solar photovoltaic assembly is fixed on main tank, and the main tank of a high position is directly to be overlapped on the main tank of low level, need not weld or screw is fixed, reduce leakage point, 20-30 is improved service life than conventional sink.

(3) the secondary tank that the present invention adopts is connected with solar photovoltaic assembly by occlusion structure, it is not necessary to use screw, and construction technology is simple, reduces leakage point, simple installation, cost cutting more than 30%.

(4) present invention is socketed with ground connection thorn sheet below assembly briquetting, it is required for an earth lead bottom traditional each assembly briquetting, the present invention connects solar photovoltaic assembly by ground connection thorn sheet, makes a string solar components only need connecting ground connection end to end, installs easier, lower in cost.

(5) Heat Room of the present invention is by absorbing sunshine and the heat of solar photovoltaic assembly generation, it is stored in Heat Room, the heat exchanger utilizing Heat Room top absorbs the heat in air, by heat transfer for indoor heating, Heat Room wall is provided with electrically ventilating window, vertical parallax is had between electrically ventilating window, when electrically ventilating window is opened, form free convection, cold wind enters from low level electrically ventilating window, and hot blast flows out from high-order electrically ventilating window, it is not necessary to set up equipment, less costly, radiating effect is notable.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the invention will be further described:

Fig. 1 is main sink structure schematic diagram, and in figure, each mark implication is as follows: 1-solar photovoltaic assembly; The main tank of 2-; 4-waterproof cover; 5-assembly briquetting; 6-ground connection thorn sheet; 9-supporting seat;14-damping briquetting; 15-cushion; 16-structure glue.

Fig. 2 is the structural representation of time tank, and in figure, each mark implication is as follows: 1-solar photovoltaic assembly; 3-tank; 10-occlusion structure; 16-structure glue.

Fig. 3 is heat exchange chamber structure schematic diagram, and in figure, each mark implication is as follows: 7-Heat Room; 8-vent window; 11-thermal insulation layer; 12-temperature control sensor; 13-heat exchanger.

Fig. 4 is overall construction drawing of the present invention, and in figure, each mark implication is as follows: 1-solar photovoltaic assembly; The main tank of 2-; 3-tank; 5-assembly briquetting.

Fig. 5 is main tank schematic perspective view.

Fig. 6 is time tank schematic perspective view.

Detailed description of the invention

The BIPV photovoltaic roof of integrated intelligent heat-exchange system, including solar photovoltaic assembly 1, main tank 2, secondary tank 3, waterproof cover 4, assembly briquetting 5, ground connection thorn sheet 6, damping briquetting 14, cushion 15, Heat Room 7, electrically ventilating window 8, temperature control sensor 12 and heat exchanger 13, described main tank 2 is fixed in solar photovoltaic assembly 1 both sides longitudinally through assembly briquetting 5 and damping briquetting 14, waterproof cover 4 and assembly briquetting 5 are connected, it is provided with cushion 15 bottom main tank 2, the supporting seat 9 of main tank 2 both sides is fixed on the purlin on roof by self-tapping screw, secondary tank 3 is vertical with main tank 2 direction to be overlapped on main tank 2, secondary tank 3 is provided with occlusion structure 10, secondary tank 3 is fixed with solar photovoltaic assembly 1 by occlusion structure 10, main tank and time tank constitute mutually mesh-supported solar components, ground connection thorn sheet 6 it is cased with bottom assembly briquetting 5 in the middle of solar photovoltaic assembly square formation, the solar photovoltaic assembly at component string two ends is provided with earth lead, it it is heat dissipation chamber 7 below solar photovoltaic assembly 1, vent window 8 it is provided with in Heat Room 7, thermal insulation layer 11 it is covered with bottom Heat Room 7, thermal insulation layer 11 is heat insulation foam and thermal insulation board, heat insulation foam is filled in thermal insulation board gap. roof hydrops goes downstream and discharges from edge, part is discharged after entering main tank 2 from the water that solar photovoltaic assembly 1 gap leaks through, the water leaking into time tank 3 is discharged by after the secondary tank 3 water conservancy diversion main tank 2 of entrance, temperature control sensor 12 it is provided with in Heat Room 7, being provided with electrically ventilating window 8 on Heat Room 7 metope, Heat Room 7 top is equipped with heat exchanger 13.

The heat that solar photovoltaic assembly 1 and sunshine produce enters the Heat Room 7 below roof by solar photovoltaic assembly, temperature control sensor 12 it is provided with in Heat Room 7, under normality, electrically ventilating window 8 is closed, hot-air in Heat Room 7 rises, contact with the heat exchanger 12 at Heat Room 7 top, heat exchanger 12 absorbs air themperature, and by medium, heat is shifted, for indoor heating or other purposes, when heat exchanger 13 is under starting state, when temperature control sensor 12 detects in Heat Room 7 temperature beyond preset temperature, temperature control sensor 12 sends a signal to the electrically ventilating window 8 in Heat Room 7, electrically ventilating window 8 electric motor starting window opened via, now high-temperature gas is discharged from high-order electrically ventilating window 8, cryogenic gas pours into from low level electrically ventilating window 8, form convection current, unnecessary hot-air is discharged, when temperature control sensor 12 detects that in Heat Room 7, temperature is lower than preset temperature, close electrically ventilating window 8.

Claims (4)

1. the BIPV photovoltaic roof of an integrated intelligent heat-exchange system, it is characterized in that: include solar photovoltaic assembly (1), main tank (2), secondary tank (3), waterproof cover (4), assembly briquetting (5), Heat Room (7), electrically ventilating window (8), temperature control sensor (12), heat exchanger (13), damping briquetting (14) and cushion (15), described main tank (2) is fixed in solar photovoltaic assembly (1) both sides longitudinally through assembly briquetting (5) and damping briquetting (14), waterproof cover (4) and assembly briquetting (5) are connected, main tank (2) bottom is provided with cushion (15), the supporting seat (9) of main tank (2) both sides is fixed on the purlin on roof by self-tapping screw, secondary tank (3) is vertical with main tank (2) direction to be overlapped on main tank (2), secondary tank (3) is provided with occlusion structure (10), secondary tank (3) is fixed with solar photovoltaic assembly (1) by occlusion structure (10), it is Heat Room (7) in solar photovoltaic assembly (1) lower section, temperature control sensor (12) it is provided with in Heat Room (7), Heat Room (7) metope is provided with electrically ventilating window (8), Heat Room (7) top is equipped with heat exchanger (13).

2. the BIPV roof of integrated intelligent heat-exchange system according to claim 1, it is characterised in that: described assembly briquetting (5) bottom is cased with ground connection thorn sheet (6).

3. the BIPV roof of integrated intelligent heat-exchange system according to claim 1, it is characterised in that: described Heat Room (7) bottom is covered with thermal insulation layer (11).

4. the BIPV roof of integrated intelligent heat-exchange system according to claim 1, it is characterised in that: the gap fill structure glue (16) of described main tank (2), secondary tank (3) and solar photovoltaic assembly (1).