CN208280472U - A kind of Photovoltaic Building Integration electricity generation system discharge structure - Google Patents

Abstract

The utility model relates to a kind of Photovoltaic Building Integration electricity generation system discharge structures, it is characterized by comprising ridge waterproof cover (15), transverse drainage slot (16) and the longitudinal drainage slots (17) formed by W-shaped draining supporting element (2), the edges at two ends of the ridge waterproof cover (15) and the solar panel (1) of ridge two sides are pressed together and are located in the transverse drainage slot (16), and the end of the transverse drainage slot (16) is erected on the supporting surface (3) and is connected to the longitudinal drainage slot (17).

Description

A kind of Photovoltaic Building Integration electricity generation system discharge structure

Technical field

The utility model relates to a kind of photovoltaic building electricity generation system, especially a kind of Photovoltaic Building Integration electricity generation system row Water-bound.

Background technique

In modernized society, people are higher and higher to the pursuit of comfortable architectural environment, lead to building and heating and air-conditioning Energy consumption is growing.Photovoltaic Building Integration (BIPV) is that a kind of build combines with photovoltaic module, by photovoltaic device and building Material is integrated, converts light energy into electric energy using the photovoltaic module for being mounted on top of building, the technology used for electrical appliance. Photovoltaic roof substitution roof combines together with building, and roof is both water proof building and generates income.Photovoltaic Building Integration is adopted Roofing, window and a part of daylighting component of building are replaced with photovoltaic module, BIPV photovoltaic module is incorporated in architectural design, protected It demonstrate,proves under Building Structure Strength, life situations, moreover it is possible to which heat-insulated, light transmission keeps monolithic architecture beautiful.And existing Photovoltaic Building Integration Design is difficult to take into account the basic function requirement of building while meeting photovoltaic power generation function, it usually needs in laying color steel tile or Person is to re-lay solar panel after other roofings, considerably increases the whole load-bearing of roofing.

Utility model content

The technical issues of the utility model devises a kind of Photovoltaic Building Integration electricity generation system discharge structure, solves be Existing BIPV building designing is difficult to take into account the basic function requirement of building while meeting photovoltaic power generation function, leads to It often needs to re-lay solar panel after laying color steel tile either other roofings, considerably increases the entirety of roofing Load-bearing.

In order to solve above-mentioned technical problem, the utility model uses following scheme:

A kind of Photovoltaic Building Integration electricity generation system discharge structure, it is characterised in that: including ridge waterproof cover (15), laterally Rhone (16) and the longitudinal drainage slot (17) formed by W-shaped draining supporting element (2), the both ends of the ridge waterproof cover (15) The solar panel (1) of edge and ridge two sides is pressed together and is located in the transverse drainage slot (16), described The end of transverse drainage slot (16) is erected on the supporting surface (3) and is connected to the longitudinal drainage slot (17).

Further, the transverse drainage slot (16) is C-channel, and the lower edge height of the transverse drainage slot (16) is higher than described The upper lower edge for overflowing the transverse drainage slot (16) to prevent fluid stopping water along height of transverse drainage slot (16), the ridge waterproof cover (15) width is 20-40 centimetres, is highly 10-20 centimetres.

A kind of Photovoltaic Building Integration electricity generation system, it is characterised in that: including muti-piece solar panel (1), adjacent It is successively arranged from top to bottom between the lower section of two pieces of solar panel (1) junctions and the purlin (5) of building roof shockproof Block (12) and W-shaped draining supporting element (2), the W-shaped draining supporting element (2) is for connecting and supporting the solar panel (1) and as longitudinal drainage slot (17)；Briquetting (6), the pressure are additionally provided in adjacent two pieces of solar panels (1) junction Block (6) for the solar panel (1) it is two pieces adjacent between fixation；The briquetting (6), the shock-proof block (12) and The W-shaped draining supporting element (2) is fixed on the purlin (5) by self-tapping screw (8).

Further, the both ends on described W-shaped draining supporting element (2) top are respectively equipped with supporting surface on one (3), each supporting surface (3) one piece of solar panel (1) is supported respectively, and the middle part of W-shaped draining supporting element (2) is equipped with boss (4), the upper branch The height in support face (3) is greater than the height of the boss (4), and the lower part both ends of W-shaped draining supporting element (2), which are equipped with, to be supported Face, the bottom support surface are located on the purlin (5), each supporting surface it is of same size, the width at the top of the boss (4) is big In the width of each supporting surface.

Further, the briquetting (6) is U-shaped groove structure, and the top two sides of the U-lag outer wall are respectively equipped with a pressing plate, The pressing plate and the shock-proof block (12), which cooperate, is fixed clamping for the solar panel (1).

Further, the bottom of the pressing plate be equipped with serration for increase itself and the solar panel (1) it Between frictional force.

It further, further include the waterproof cover for being used for waterproof at adjacent two pieces solar panel (1) intermediate gaps (10), the top of the waterproof cover (10) is cambered surface, and downwards, the bottom of the waterproof cover (10) is set for the both ends bending of the cambered surface There are two extended downwardly to buckle (11), it is convex that the relative position of the U-lag inner wall two sides of the briquetting (6) is respectively equipped with an oblique angle It rises (7), the buckle (11) is matched with the oblique angle raised (7) for the waterproof cover (10) are fixed and limit to be in institute It states in briquetting (6).

Further, gap between adjacent two pieces is provided with the solar panel (1) at the top of the shock-proof block (12) The identical convex block of size (13), the bottom of the shock-proof block (12) are provided with the groove to match with the boss (4) shape (14), the shock-proof block (12) is arranged on the boss (4) and the convex block (13) is placed in the solar panel (1) phase Between adjacent two pieces of gap；The shock-proof block (12) is rectangular parallelepiped structure, and the groove (14) is dovetail groove；The shock-proof block (12) pressure that the supporting surface that top is contacted with the solar panel (1) is born uniformly is hung down by the groove (14) It is directly passed down on the boss (4) of W-shaped draining supporting element (2), while each support formed above the shock-proof block (12) To the groove (14) each supporting point, there are one-to-one mapping relations with the W-shaped draining supporting element (2) for point.

Further, the shock-proof block (12) is soft rubber material and/or the waterproof cover (10) and the briquetting (6) For the aluminum alloy material of surface sand-blasting oxidation.

Further, the briquetting (6), the boss (4) and the shock-proof block (12) are equipped with for installing self-tapping screw (8) preformed hole (9).

Further, further include discharge structure, the discharge structure include ridge waterproof cover (15), transverse drainage slot (16) with And the longitudinal drainage slot (17) formed by W-shaped draining supporting element (2), the edges at two ends and room of the ridge waterproof cover (15) The solar panel (1) of ridge two sides is pressed together and is located in the transverse drainage slot (16), the transverse drainage The end of slot (16) is erected on the supporting surface (3) and is connected to the longitudinal drainage slot (17).

Further, the transverse drainage slot (16) is C-channel, and the lower edge height of the transverse drainage slot (16) is higher than described The upper lower edge for overflowing the transverse drainage slot (16) to prevent fluid stopping water along height of transverse drainage slot (16), the ridge waterproof cover (15) width is 20-40 centimetres, is highly 10-20 centimetres.

The Photovoltaic Building Integration electricity generation system has the advantages that

(1) the utility model Photovoltaic Building Integration electricity generation system is directly installed on the purlin of roofing, avoids laying Color steel tile either other roofings, significantly reduce the whole load-bearing of roofing.

(2) briquetting of the utility model Photovoltaic Building Integration electricity generation system is equipped with oblique angle protrusion, with setting in waterproof The buckle covered matches the waterproof cover for blocking back-off, and oblique angle protrusion and the fixed form being clasped compare conventional spring Squeezing fixed form has reliable connective stability, can also prevent strong wind from blowing afloat aqueous humor lid.

(3) the utility model Photovoltaic Building Integration electricity generation system is provided with shock-proof block, is used for shockproof and solar battery The load-bearing of plate is fixed.

(4) the utility model Photovoltaic Building Integration electricity generation system is provided with discharge structure, is being bonded the fixed sun It can accomplish effectively to drain, prevent from leaking while solar panel, and ventilation and heat can be played the role of.

(5) pressure that the surface that the utility model shock-proof block top is contacted with solar panel is born is equal by groove Even is transferred on the boss of W-shaped draining supporting element, so that pressure suffered by W-shaped draining supporting element unit area becomes smaller, mentions High W-shaped draining supporting element ability to bear.

(6) the upper supporting surface of the W-shaped draining supporting element of the utility model and bottom support surface are of same size so that it is equally loaded, Avoid W-shaped draining supporting element will not be by overweight solar panel compressive strain.

(7) the utility model waterproof cover is interacted by respective inclined-plane with briquetting so that the holding section of the two is mutually blocked It closes, it is ensured that the fastness and leakproofness of connection；Briquetting both ends open structure can to extract out waterproof cover simultaneously, avoid dismantling It will cause the physical injury of itself or other component when waterproof cover.

Detailed description of the invention

Fig. 1: the sectional view of the utility model Photovoltaic Building Integration electricity generation system photovoltaic module junction；

Fig. 2: the briquetting perspective view of the utility model Photovoltaic Building Integration electricity generation system；

Fig. 3: the waterproof cover perspective view of the utility model Photovoltaic Building Integration electricity generation system；

Fig. 4: the shock-proof block perspective view of the utility model Photovoltaic Building Integration electricity generation system；

Fig. 5: the discharge structure schematic diagram of the utility model Photovoltaic Building Integration electricity generation system.

Description of symbols:

1-solar panel；2-W-shaped draining supporting elements；3-upper supporting surfaces；4-boss；5-purlins；6-pressures Block；61-serrations；62-arc transiting surfaces；63-pressing plates；7-oblique angles protrusion；8-self-tapping screws；9-preformed holes； 10-waterproof covers；11-buckles；12-shock-proof blocks；13-convex blocks；14-grooves；15-ridge waterproof covers；16-transverse drainages Slot；17-longitudinal drainage slots.

Specific embodiment

Below with reference to Fig. 1 to Fig. 5, the utility model is described further:

As shown in Figure 1, the utility model Photovoltaic Building Integration electricity generation system includes solar panel 1 and W-shaped draining Supporting element 2, for W-shaped draining supporting element 2 for connecting and supporting solar panel 1, the both ends of W-shaped draining supporting element 2 are equipped with branch Support face 3, the middle part of W-shaped draining supporting element 2 are equipped with boss 4, and the height of supporting surface 3 is greater than the height of boss 4, W-shaped draining support Part 2 is mounted on the purlin 5 of roofing by self-tapping screw 8.

It as depicted in figs. 1 and 2, further include briquetting 6, briquetting 6 is used for the fixation between 1 adjacent two piece of solar panel, Briquetting 6 is U-shaped groove-like structure, and the both ends of U-lag are equipped with pressing plate, and the bottom of pressing plate is equipped with serration, the inner wall two of U-lag Oblique angle protrusion 7 is provided on the relative position of side.

As shown in figures 1 and 3, further include waterproof cover for waterproof at 1 intermediate gap of adjacent two pieces of solar panels 10, the top of waterproof cover 10 is cambered surface, and downwards, the bottom of waterproof cover 10 is equipped with extend downwardly and oblique angle for the both ends bending of cambered surface The buckle 11 that protrusion 7 matches, buckle 11 match the waterproof cover 10 for blocking back-off with oblique angle protrusion 7.

As shown in figure 3, waterproof cover 10 and briquetting 6 cooperate for 1 intermediate gap of adjacent two pieces of solar panels Locate waterproof, is fixed between adjacent two pieces of solar panels 1 by briquetting 6；The bottom of waterproof cover 10 is equipped with and extends downwardly Two buckle 11, buckle 11 on inclined-plane upwardly extend, buckle 11 inclined-plane topmost formed the second occlusion portion；Accordingly, The relative position of the U-lag inner wall two sides of briquetting 6 is respectively equipped with an oblique angle protrusion 7, states the inclined-plane of oblique angle protrusion 7 out of U-lag Wall extends downwardly, and at oblique angle, raised 7 inclined-plane lowest parts form the first occlusion portion, the inclined-plane of oblique angle protrusion 7 and the inclined-plane of buckle 11 Interaction is so that the first occlusion portion is mutually twisted with the second occlusion portion.In addition, briquetting 6 is strip, both ends are hatch frame It is extracted out for waterproof cover 10.

The utility model waterproof cover is interacted with briquetting by respective inclined-plane so that the holding section of the two is mutually clamped, Ensure the fastness and leakproofness connected；Briquetting both ends open structure can to extract out waterproof cover simultaneously, avoid disassembly anti- It will cause the physical injury of itself or other component when water cover.

As shown in Figure 1 and Figure 4, further include shock-proof block 12, two pieces adjacent with solar panel 1 are provided on shock-proof block 12 Between the identical convex block 13 of gap size, the bottom of shock-proof block 12 is provided with the groove 14 to match with 4 shape of boss, shock-proof block 12 are arranged on boss 4 and convex block 13 is placed between 1 adjacent two piece of solar panel of gap.

As shown in figure 5, further include discharge structure, discharge structure includes ridge waterproof cover 15, transverse drainage slot 16 and by propping up The longitudinal drainage slot 17 of recessed formation between support face 3 and boss 4, the edges at two ends and solar panel 1 of ridge waterproof cover 15 It is pressed together and is located in transverse drainage slot 16 by briquetting 6, shock-proof block 12 and self-tapping screw 8, transverse drainage slot 16 is C-shaped Slot, the lower edge height of transverse drainage slot 16 are higher than the upper of transverse drainage slot 16 and overflow transverse drainage slot 16 along height to prevent fluid stopping water Lower edge, it is highly 10-20 centimetres that the width of ridge waterproof cover 15, which is 20-40 centimetres,；The end of transverse drainage slot 16 is erected at It is connected on supporting surface 3 and with longitudinal drainage slot 17, waterproof cover 10 is buckled on briquetting 6, and briquetting 6 and its connecting sewing are enveloped.

Rainwater on ridge waterproof cover 15 enters transverse drainage slot 16, rainwater by the gap above lateral sink first The both ends for gradually increasing and flowing to transverse drainage slot 16 enter longitudinal drainage slot 17 from the both ends of transverse drainage slot 16, and most It is discharged eventually by longitudinal drainage slot 17.

Illustrative description has been carried out to the utility model above in conjunction with attached drawing, it is clear that the realization of the utility model not by The limitation of aforesaid way, if the method concept of the utility model and the various improvement of technical solution progress are used, or without It improves and the conception and technical scheme of the utility model is directly applied into other occasions, in the protection scope of the utility model It is interior.

Claims (2)

1. a kind of Photovoltaic Building Integration electricity generation system discharge structure, it is characterised in that: including ridge waterproof cover (15), lateral row Sink (16) and the longitudinal drainage slot (17) formed by W-shaped draining supporting element (2), two end edges of the ridge waterproof cover (15) Edge and the solar panel (1) of ridge two sides are pressed together and are located in the transverse drainage slot (16), the laterally row The end of sink (16) is erected on supporting surface (3) and is connected to the longitudinal drainage slot (17).

2. Photovoltaic Building Integration electricity generation system discharge structure according to claim 1, it is characterised in that: the laterally row Sink (16) is C-channel, and the lower edge height of the transverse drainage slot (16) is higher than the upper along height of the transverse drainage slot (16) The lower edge of the transverse drainage slot (16) is overflowed to prevent fluid stopping water, the width of the ridge waterproof cover (15) is 20-40 centimetres, high Degree is 10-20 centimetres.