CN204126141U - A kind of from net type photovoltaic tile heat insulation roof structure - Google Patents

Abstract

The utility model relates to solar energy roof technical field, disclose a kind of from net type photovoltaic tile heat insulation roof structure, comprise roof panels and be located at the batten in roof panels, batten is equipped with photovoltaic tile, ridge is provided with ridge tiles, photovoltaic tile is connected with photovoltaic controller, photovoltaic controller respectively with battery, inverter connects, inverter is connected with junction box, gutter is provided with inside roof panels, gutter is provided with the water pump be connected with junction box, ridge is provided with water-locator, the upper end of gutter is connected with water-locator, eaves place is provided with catch basin, catch basin is connected with header, ground is provided with reservoir, gutter, the lower end of header is connected with reservoir, the lateral surface of roof panels is provided with splash guard, and batten is fixedly connected with roof panels through splash guard by screw.Therefore, the utility model tool can effectively reduce roof temperature while generating, keeps the beneficial effect of cool environment within doors.

Description

A kind of from net type photovoltaic tile heat insulation roof structure

Technical field

The utility model relates to solar energy roof technical field, particularly relates to a kind of from net type photovoltaic tile heat insulation roof structure.

Background technology

Existing common building roofing generally only has simply sun-proof, water-proof function, for a long time its result of use unsatisfactory, especially lives in high level and top layer, usually can hear roof leakage, top layer high temperature, sultry hard to bear complaint; Along with the aggravation of energy crisis; solar energy is as a kind of clean energy resource; more and more be subject to people's attention; the application of photovoltaic is using photovoltaic panel assembly as carrier; solar energy is converted into electric energy; some area is progressively promoted the use of at present, but the simple application of photovoltaic tile can not play good cooling-down effect to roof, within doors still can be sultry.

Chinese patent Authorization Notice No.: CN203654630U, authorized announcement date on June 18th, 2014, disclose a kind of photovoltaic tile for roof building integration, photovoltaic tile is Z-type structure, comprises tile substrate, photovoltaic generation module and junction box; Photovoltaic generation module is fixed on the front of tile substrate, and junction box is fixedly mounted on the back side of described tile substrate, and the wire that photovoltaic generation module is drawn is linked in described junction box; The left side of tile substrate is provided with for the first buckling parts be connected with adjacent photovoltaic watt and locate; The right side of tile substrate is provided with for being connected the second buckling parts with water guide with adjacent photovoltaic watt.Its weak point is the effect that this kind of photovoltaic tile roof does not lower the temperature, and roof still can pass to a large amount of heats within doors by after solar radiation, causes sultry within doors.

Utility model content

The utility model in order to overcome photovoltaic tile thermal insulation of roof of the prior art, cooling-down effect is poor, causes indoor sultry deficiency, provide a kind of there is generating, double effects of lowering the temperature from net type photovoltaic tile heat insulation roof structure.

To achieve these goals, the utility model adopts following technical scheme:

A kind of from net type photovoltaic tile heat insulation roof structure, comprise roof panels and be located at the batten in roof panels, batten is equipped with photovoltaic tile, ridge is provided with ridge tiles, described photovoltaic tile is connected with photovoltaic controller, photovoltaic controller respectively with battery, inverter connects, inverter is connected with junction box, gutter is provided with inside described roof panels, gutter is provided with the water pump be connected with junction box, described ridge is provided with water-locator, the upper end of gutter is connected with water-locator, eaves place is provided with catch basin, catch basin is connected with header, ground is provided with reservoir, described gutter, the lower end of header is connected with reservoir, the lateral surface of described roof panels is provided with splash guard, and described batten is fixedly connected with roof panels through splash guard by screw.

Rainy day, rainwater flow in catch basin along roof, rainwater-collecting is in reservoir, when becoming a fine day, a part of electricity of photovoltaic tile generating is converted to the alternating current of 220V through inverter and is exported by junction box, drive water pump and household electric appliance operation, unnecessary electricity is stored in battery after photovoltaic controller, photovoltaic controller is for controlling the discharge and recharge of battery, pump working is extracted into the water in reservoir on roof, after water-locator, water goes downstream along roof, rain simulation, thus take away the heat on roof, water is back in reservoir by catch basin again and reuses simultaneously, effectively reduce roof temperature, keep environment refrigerant within doors, at night, the electricity in battery enters in junction box by photovoltaic controller electric discharge again, and junction box is that household electrical appliance are powered, splash guard plays waterproof action, even if leak between photovoltaic net gap also can not flow to roof panels, thus prevents roof from leaking.

As preferably, described water-locator comprises cloth supply mains, some water distribution branch pipes, and water distribution branch pipe is distributed in the both sides of cloth supply mains, the described c-shaped structure in ridge tiles cross section, the c-shaped structure of described water distribution branch pipe.Pump handle water pumps in cloth supply mains, then delivers to roof from each water distribution branch pipe, and water can be sprayed onto on roof uniformly, and contact area is large, and endothermic effect is good.

As preferably, described splash guard is modified asphalt waterproof plate, and the cross section of splash guard is corrugated, and the ripple bar on splash guard forms the air channel connecting eaves and ridge.The good water-proof effect of modified asphalt waterproof plate, entirety is corrugated sheet, and inside can be used for air to flow, and plays effect of heat insulation on the one hand, and inner ventilation also can take away a large amount of heats on the other hand, promotes roof heat radiation, is conducive to environment nice and cool in holding chamber.

As preferably, ground is also provided with reservoir for subsequent use, reservoir, reservoir for subsequent use are connected in parallel on the lower end of header by tube connector, tube connector is respectively equipped with water valve.Rainy day when the water in reservoir stores full after, unnecessary rain-water accumulating is in pond for subsequent use, and the water in pond for subsequent use can be used for watering greening, carwash etc., simultaneously along with the water circulation in reservoir uses, water can evaporate a lot, now can from pond for subsequent use amount of makeup water.

As preferably, described roof panels is followed successively by reinforced concrete floor, insulation layer from inside to outside, and the both sides of described insulation layer are provided with cement mortar screeding layer.Roof panels itself also designs insulation layer, and the heat reducing roof is delivered within doors, plays good effect of heat insulation.

Therefore, the utility model tool can effectively reduce roof temperature while generating, keeps the beneficial effect of cool environment within doors.

Accompanying drawing explanation

Fig. 1 is a kind of structural representation of the present utility model.

Fig. 2 is the syndeton schematic diagram of gutter, header and reservoir in the utility model, reservoir for subsequent use.

Fig. 3 is partial structurtes schematic diagram in roof in the utility model.

Fig. 4 is roof sectional view in the utility model.

In figure: roof panels 1 batten 2 photovoltaic tile 3 ridge tiles 4 inverter 5 photovoltaic controller 6 junction box 7 battery 8 gutter 9 water pump 10 water-locator 11 catch basin 12 header 13 reservoir 14 reservoir 15 tube connector 16 water valve 17 splash guard 18 air channel 19 for subsequent use household electrical appliance 20 cloth supply mains 110 water distribution branch pipe 111 reinforced concrete floor 100 insulation layer 101 cement mortar screeding layer 102.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the utility model is further described:

One is as shown in figures 1 and 3 from net type photovoltaic tile heat insulation roof structure, the batten 2 comprising two pieces of roof panels 1 and be located in roof panels, two pieces of roof panels overlap joints form gable roof, batten is fixed by screws in roof panels, batten is equipped with photovoltaic tile 3, ridge is provided with ridge tiles 4, photovoltaic tile 3 is connected with photovoltaic controller 6, photovoltaic controller 6 respectively with battery 8, inverter 5 connects, inverter 5 is connected with junction box 7, household electrical appliance 20 are within doors electrically connected with junction box 7, gutter 9 is provided with inside roof panels 1, gutter is provided with the water pump 10 be connected with junction box, ridge is provided with water-locator 11, the upper end of gutter 9 is connected with water-locator 11, eaves place is provided with catch basin 12, catch basin is connected with header 13, ground is provided with reservoir 14, reservoir 15 for subsequent use, gutter lower end is connected with reservoir, reservoir, reservoir for subsequent use is connected in parallel on the lower end of header by tube connector 16, tube connector is provided with water valve 17, reservoir for subsequent use also with water passage, the lateral surface of roof panels 1 is also provided with splash guard 18, screw on batten is fixedly connected with roof panels through splash guard.

As shown in Figure 2, water-locator 11 comprises cloth supply mains 110, some water distribution branch pipes 111, and water distribution branch pipe is distributed in the both sides of cloth supply mains, the c-shaped structure in ridge tiles 4 cross section, the c-shaped structure of water distribution branch pipe 111, the two ends of water distribution branch pipe ride over the both sides of ridge tiles upper side respectively.

As shown in Figure 3 and Figure 4, roof panels 1 is followed successively by reinforced concrete floor 100, insulation layer 101 from inside to outside, the both sides of insulation layer are provided with cement mortar screeding layer 102, splash guard is modified asphalt waterproof plate, the cross section of splash guard is corrugated, and the ripple bar on splash guard 18 forms the air channel 19 connecting eaves and ridge.Insulation layer plays isolation roof and heat trnasfer within doors, and the air outside room can enter in air channel from the wind passage mouth of eaves, then from the photovoltaic tile gap of ridge out, take away the heat on roof.

Claims (5)

1. one kind from net type photovoltaic tile heat insulation roof structure, comprise roof panels and be located at the batten in roof panels, batten is equipped with photovoltaic tile, ridge is provided with ridge tiles, it is characterized in that, described photovoltaic tile is connected with photovoltaic controller, photovoltaic controller respectively with battery, inverter connects, inverter is connected with junction box, gutter is provided with inside described roof panels, gutter is provided with the water pump be connected with junction box, described ridge is provided with water-locator, the upper end of gutter is connected with water-locator, eaves place is provided with catch basin, catch basin is connected with header, ground is provided with reservoir, described gutter, the lower end of header is connected with reservoir, the lateral surface of described roof panels is provided with splash guard, and described batten is fixedly connected with roof panels through splash guard by screw.

2. one according to claim 1 is from net type photovoltaic tile heat insulation roof structure, it is characterized in that, described water-locator comprises cloth supply mains, some water distribution branch pipes, and water distribution branch pipe is distributed in the both sides of cloth supply mains, the described c-shaped structure in ridge tiles cross section, the c-shaped structure of described water distribution branch pipe.

3. one according to claim 1 is from net type photovoltaic tile heat insulation roof structure, it is characterized in that, described splash guard is modified asphalt waterproof plate, and the cross section of splash guard is corrugated, and the ripple bar on splash guard forms the air channel connecting eaves and ridge.

4. the one according to claim 1 or 2 or 3, from net type photovoltaic tile heat insulation roof structure, is characterized in that, ground is also provided with reservoir for subsequent use, and reservoir, reservoir for subsequent use are connected in parallel on the lower end of header by tube connector, tube connector is respectively equipped with water valve.

5. the one according to claim 1 or 2 or 3 is from net type photovoltaic tile heat insulation roof structure, and it is characterized in that, described roof panels is followed successively by reinforced concrete floor, insulation layer from inside to outside, and the both sides of described insulation layer are provided with cement mortar screeding layer.