CN108832871A - Flashing member and photovoltaic generating system - Google Patents

Abstract

The present invention relates to flashing member and photovoltaic generating systems.The flashing member includes：Two brackets being oppositely arranged, the bracket include holding part and the portion that blocks water, and the holding part is arranged on the holding part for accommodating photovoltaic generation unit, described group of water portion, and the portion of blocking water in described two brackets at least one bracket is provided with through-hole；Radical occlusion device, the radical occlusion device is provided with hook part, when the hook part passes through the through-hole radical occlusion device is clamped to the bracket, the portion of blocking water of the radical occlusion device and described two brackets constitutes the waterproof construction blocked to the gap between described two brackets.The technical solution can prevent rainwater from flowing into from the gap between adjacent photovoltaic generation unit, it does not need to be sealed the gap between adjacent photovoltaic generation unit using sealant, reduce the sealing cost to the gap between adjacent photovoltaic generator unit, and, structure is simple, it is easily installed, there is no the risks of aging.

Description

Flashing member and photovoltaic generating system

Technical field

The present invention relates to technical field of solar more particularly to a kind of flashing members and photovoltaic generating system.

Background technique

As the improvement of people's living standards, people are also higher and higher to the pursuit of comfortable living environment, for example, indoor Heating and refrigeration etc., consequently lead to the growing of such building energy consumption demand.Photovoltaic Building Integration (Building Integrated Photovoltaic, BIPV) it is by solar power generation application to building, as the environmental protection of people is anticipated The enhancing of knowledge, this has become a kind of trend.

Currently, having a kind of BIPV application is to come in roof installation photovoltaic power generation equipment for architectural power supply, which is set It can have the gap between standby middle adjacent photovoltaic generator unit, in order to avoid rainwater leaks into interior by the gap, generally use close Sealing is sealed the gap between photovoltaic generation unit.But such sealing means cost is very high, also, long-term exposure There are the risks of aging for sealant under external environment.

Summary of the invention

Rainwater leaks into interior by the gap between adjacent photovoltaic generator unit in order to prevent, reduces and sends out adjacent photovoltaic The sealing cost in the gap between electric unit, the embodiment of the present invention provide a kind of flashing member.The technical solution is as follows：

According to a first aspect of the embodiments of the present invention, a kind of flashing member is provided, including：

Two brackets being oppositely arranged, the bracket include holding part and the portion that blocks water, and the holding part is for accommodating photovoltaic Generator unit, described group of water portion are arranged on the holding part, and described at least one bracket blocks water in described two brackets Portion is provided with through-hole；

Radical occlusion device, the radical occlusion device are provided with hook part, and the hook part passes through the through-hole and blocks dress for described When setting clamping to the bracket, the portion of blocking water of the radical occlusion device and described two brackets constitute to described two brackets it Between the waterproof construction that is blocked of gap.

In one embodiment, the portion of blocking water is set as riser, is located on the holding part.

In one embodiment, the portion of blocking water is set as groove, and the groove setting is in the holding part towards relatively The side for the bracket being arranged, the groove are provided with through-hole far from the side of the holding part.

In one embodiment, the radical occlusion device includes occlusion part and interconnecting piece；

The occlusion part is connect with one end of the interconnecting piece, for blocking the gap between the bracket；

The other end of the interconnecting piece is connect with the hook part.

In one embodiment, the through-hole includes the first opening and the second opening of connection, and first opening is the Opening length on one direction is greater than the Opening length of second opening in said first direction；

The hook part, the protrusion including cross bar and positioned at described cross bar one end, the cross bar the other end connection described in Interconnecting piece, it is long that the length of the protrusion in said first direction is greater than the opening of second opening in said first direction Degree；

Wherein, the through-hole is described after the protrusion passes through first opening when being clamped with the hook part Cross bar is moved to second opening from first opening and is clamped with second opening.

In one embodiment, the through-hole further includes connector, connector connection first opening and described Second opening；The one side of the connector is inclined-plane, and inclined-plane connection first opening and second opening are described One end on first direction, the cross bar from it is described first opening along the connector to it is described second opening move when, It is smoothly moved along the inclined-plane.

In one embodiment, the connector includes anti-shedding part, and the phase on the inclined-plane is arranged in the anti-shedding part Opposite is open from described second to the first opening movement for limiting the cross bar.

In one embodiment, the anti-shedding part is cambered surface close to the face of first opening；The cross bar is from institute State the first opening along the connector to it is described second opening move when, smoothly moved along the cambered surface.

In one embodiment, the portion of blocking water of described two brackets is provided with through-hole, the hook part of the radical occlusion device It is two, and mirror settings, two hook parts are each passed through the through-holes of described two brackets for the radical occlusion device When clamping to the bracket, the portion of blocking water of the radical occlusion device and described two brackets is constituted between described two brackets The waterproof construction that is blocked of gap.

According to a second aspect of the embodiments of the present invention, a kind of photovoltaic generating system is provided, including photovoltaic generation unit and upper The flashing member is stated, the photovoltaic generation unit is arranged in the holding part of the bracket.

In one embodiment packet, the photovoltaic generating system is obliquely installed, and the photovoltaic generating system further includes at least Liang Zu photovoltaic power generation mechanism, every group of photovoltaic power generation mechanism includes at least two photovoltaic generation units, along inclined direction, phase Partially stacking is put between Lin Liangzu photovoltaic power generation mechanism, is additionally provided with water baffle bar at the stacking of part.

Technical solution provided in an embodiment of the present invention can include the following benefits:The technical solution opposite by setting It is respectively arranged to accommodate the holding part of photovoltaic generation unit and the portion that blocks water, at least one of them branch on two brackets set Through-hole is set in the portion that blocks water of frame, the radical occlusion device including hook part is clamped by hook part to the through-hole, so that blocking The portion of blocking water of device and described two brackets constitutes waterproof construction, the bracket two being oppositely arranged by the waterproof construction it Between gap block, realizing between the adjacent photovoltaic generator unit being respectively contained in the bracket that two are oppositely arranged Gap is blocked, and can be prevented rainwater from flowing into from the gap between adjacent photovoltaic generator unit, not needed using sealant to phase Gap between adjacent photovoltaic generation unit is sealed, and is reduced and is sealed to the gap between adjacent photovoltaic generator unit This, also, structure is simple, is easily installed, and there is no the risks of aging.

It should be understood that above general description and following detailed description be only it is exemplary and explanatory, not It can the limitation present invention.

Detailed description of the invention

The drawings herein are incorporated into the specification and forms part of this specification, and shows and meets implementation of the invention Example, and be used to explain the principle of the present invention together with specification.

Fig. 1 is the fractionation side structure schematic view of flashing member shown according to an exemplary embodiment.

Fig. 2 is the fractionation side structure schematic view of flashing member shown according to an exemplary embodiment.

Fig. 3 is the side structure schematic view of bracket shown according to an exemplary embodiment.

Fig. 4 is the fractionation side structure schematic view of flashing member shown according to an exemplary embodiment.

Fig. 5 is the schematic view of the front view of bracket shown according to an exemplary embodiment.

Fig. 6 is the side structure schematic view of radical occlusion device shown according to an exemplary embodiment.

Fig. 7 is the schematic view of the front view of through-hole shown according to an exemplary embodiment.

Fig. 8 is the schematic view of the front view of through-hole shown according to an exemplary embodiment.

Fig. 9 is the fractionation side structure schematic view of the flashing member shown according to another exemplary embodiment.

Figure 10 is the fractionation side structure schematic view of the flashing member shown according to another exemplary embodiment.

Figure 11 is the fractionation side structure schematic view of photovoltaic generating system shown according to an exemplary embodiment.

Figure 12 is the overlooking structure diagram of photovoltaic generating system shown according to an exemplary embodiment.

Figure 13 is the side structure schematic view of photovoltaic generating system shown according to an exemplary embodiment.

Figure 14 is the side structure schematic view of photovoltaic generating system shown according to an exemplary embodiment.

Figure 15 is the overlooking structure diagram of photovoltaic generating system shown according to an exemplary embodiment.

Figure 16 is the overlooking structure diagram of photovoltaic generating system shown according to an exemplary embodiment.

Specific embodiment

Example embodiments are described in detail here, and the example is illustrated in the accompanying drawings.Following description is related to When attached drawing, unless otherwise indicated, the same numbers in different drawings indicate the same or similar elements.Following exemplary embodiment Described in embodiment do not represent all embodiments consistented with the present invention.On the contrary, they be only with it is such as appended The example of device and method being described in detail in claims, some aspects of the invention are consistent.

Technical solution provided in an embodiment of the present invention is related to a kind of flashing member, and Fig. 1 is shown according to an exemplary embodiment The fractionation side structure schematic view of flashing member out, Fig. 9 are tearing open for the flashing member shown according to another exemplary embodiment Divide side structure schematic view.As shown in Fig. 1 and Fig. 9, flashing member 1 includes：

Two brackets 10 being oppositely arranged, the bracket 10 include holding part 11 and the portion 12 that blocks water, and the holding part 11 is used In accommodating photovoltaic generation unit, the portion 12 that blocks water is arranged on the holding part 11, at least one in described two brackets is propped up The portion 12 that blocks water on frame 10 is provided with through-hole 121；

Radical occlusion device 20, the radical occlusion device 20 are provided with hook part 21, and the hook part 21 will across the through-hole 121 When the clamping of radical occlusion device 20 to the bracket 10, the radical occlusion device 20 and the portion 12 that blocks water are constituted to described two The waterproof construction that gap 30 between frame is blocked.

Here, as shown in Fig. 1 and Fig. 9, two brackets 10 are back to setting, can accommodate two adjacent photovoltaic power generations side by side Unit, and by two side by side adjacent photovoltaic generation unit be fixed on predetermined position.The portion 12 that blocks water on bracket 10 is for hindering Keep off the water flow of 10 side of bracket, wherein through-hole 121 can be only set in the portion 12 that blocks water of a bracket 10, it can also be two It is respectively provided with through-hole 121 in the portion 12 that blocks water of a bracket 10, to facilitate the clamping of hook part 21.It is exemplary, the material of the bracket 10 It can be aluminium, to prevent major structure at 1 preponderance of flashing member, and boundary's environment and the generation of Long Term Contact rainwater due to exposure The phenomenon that bracket gets rusty.

Here, as shown in Fig. 1 and Fig. 9, radical occlusion device 20 is located at the gap 30 between two brackets 10, for stopping seam The water flow of 30 top of gap.Radical occlusion device 20 is provided with a hook part 21, when hook part 21 passes through through-hole 121 for radical occlusion device 20 When clamping to bracket 10, the stop water that portion 12 is constituted that blocks water of radical occlusion device 20 and two brackets 10 can carry out gap 30 It blocks completely, enters gap 30 to avoid water flow.

Exemplary, the material of radical occlusion device 20 can be aluminium, thus can be to avoid due to being chronically exposed to extraneous ring The problem of aging occurs under border.

Technical solution provided by the embodiment of the present invention, by being respectively arranged to hold on two brackets being oppositely arranged Receive photovoltaic generation unit holding part and the portion that blocks water, through-hole is set in the portion that blocks water of at least one of them bracket, will include The radical occlusion device of hook part is clamped by hook part to the through-hole, so that the portion's structure that blocks water of radical occlusion device and described two brackets At waterproof construction, the gap between bracket that is oppositely arranged by the waterproof construction to two is blocked, to realize to respectively Blocking for the gap between adjacent photovoltaic generator unit being placed in the bracket that two are oppositely arranged, can prevent rainwater from phase Gap between adjacent photovoltaic generation unit flows into, and does not need to carry out the gap between adjacent photovoltaic generator unit using sealant Sealing, reduces the sealing cost to the gap between adjacent photovoltaic generator unit, also, structure is simple, is easily installed, and does not deposit In the risk of aging.

In one embodiment, Fig. 2 is that the fractionation side view structure of flashing member shown according to an exemplary embodiment is shown It is intended to, Figure 10 is the fractionation side structure schematic view of the flashing member shown according to another exemplary embodiment.Such as Fig. 2 and Figure 10 Shown, the portion 12 that blocks water of described two brackets 10 is provided with a through-hole 121, and the hook part 21 of the radical occlusion device 20 is two It is a, respectively hook part 21A and hook part 21B, and hook part 21A and hook part 21B mirror settings, hook part 21A and 21B points Not Chuan Guo the through-hole 121A and through-hole 121B of described two brackets 10 when being clamped the radical occlusion device 20 to the bracket 10, institute It states radical occlusion device 20 and the portion 12 that blocks water constitutes the waterproof construction blocked to the gap 30 between described two brackets 10.

By two hook parts of mirror settings on radical occlusion device, and the corresponding position in the portion that blocks water of two neighboring bracket Radical occlusion device is connected on two brackets by setting through-hole so that two hook parts are each passed through corresponding through-hole, in this way, energy Enough enhance the stability of radical occlusion device.

In the present embodiment, by two hook parts of mirror settings on radical occlusion device, divide in the portion that blocks water of two brackets Not She Zhi through-hole radical occlusion device is connected in by two brackets by the clamping of two hook parts through-hole corresponding with two, effectively increase The strong stability of radical occlusion device, of simple structure and strong practicability.

In one embodiment, as depicted in figs. 1 and 2, the portion 12 that blocks water can be set to riser, be located at the holding part 11 On.

Here, the portion 12 that blocks water can be the inclination riser that the upper surface of holding part 11 is arranged in, or with holding part The vertical vertical plate in 11 upper surface with the water flow of 10 side of stop support, and provides for radical occlusion device 20 and blocks for hook part 21 The through-hole 121 connect.

In one embodiment, as shown in Figure 9 and Figure 10, the portion 12 that blocks water can be set in holding part 11 towards opposite for setting Through-hole 121 is arranged far from the side of holding part 11 in the groove of 10 side of bracket and opening upwards set, groove, and groove can be to branch The water flow of 10 side of frame carries out water conservancy diversion, and then plays the role of stopping water flow.

Fig. 3 is the side structure schematic view of bracket shown according to an exemplary embodiment.As shown in Figure 3, holding part 11 It can be made of upper clamp plate 111, lower clamp plate 112 and vertical clamping plate 113.Lower clamp plate 111 is parallel with upper clamp plate 112, vertical clamping plate 113 connect with the same side of upper clamp plate 111 and lower clamp plate 112.It is exemplary, when the portion of blocking water 12 is vertical plate, as shown in figure 3, The portion 12 that blocks water can be the upward extension of vertical clamping plate 113.

In the present embodiment, by the way that the portion that blocks water is arranged on the holding part of bracket, the water flow of bracket side can be not only prevented It flows into the gap between adjacent stent, also through-hole can be provided for the hook part of radical occlusion device, so that radical occlusion device passes through hook Portion and the through-hole are clamped to bracket, are blocked to the gap between adjacent stent, structure is simple, and practical.

In one embodiment, Fig. 4 is that the fractionation side view structure of flashing member shown according to an exemplary embodiment is shown It is intended to.As shown in figure 4, radical occlusion device 20 further includes 22 interconnecting piece 23 of occlusion part.The occlusion part 22 and the interconnecting piece 23 One end connection, for blocking the gap 30 between the bracket 10, the other end of the interconnecting piece 23 and the hook part 21 connect It connects.

Here, when the clamping of radical occlusion device 20 to bracket 10, occlusion part 22 is located at the two neighboring bracket 10 being oppositely arranged Between the top of gap 30, to be blocked to gap 30.

Here, as shown in figure 4, the length W1 of occlusion part 22 in a second direction is greater than gap 30 in this second direction Length W2, length of the radical occlusion device 20 on third direction can be greater than or equal to length of the gap 30 on the third direction Degree, the third direction is the extending direction of bracket, in this way, radical occlusion device 20 can block gap 30 completely, so that rainwater is straight It connects and is flowed down from radical occlusion device 20, gap 30 will not be entered.It should be noted that if the portion of blocking water is that table is arranged on holding part The riser in face, the length W2 of gap 30 in this second direction are the length in the second direction between the riser of two brackets Degree；If the portion of blocking water is groove, the length W2 of gap 30 in this second direction is two brackets in the second direction Groove is far from the length between the side of holding part.

In the present embodiment, when radical occlusion device is clamped by hook part to bracket, sheltering part in two neighboring bracket it Between gap above, prevent water flow from flowing into the gap between two neighboring bracket, structure is simple, easily realize.

In one embodiment, Fig. 5 is the schematic view of the front view of bracket shown according to an exemplary embodiment, Fig. 6 It is the side structure schematic view of radical occlusion device shown according to an exemplary embodiment.As shown in figure 5, the through-hole 121 includes First opening 1211 of connection and the second opening 1212, the Opening length W3 of first opening 1211 in a first direction are greater than The Opening length W4 of second opening 1212 in said first direction, in order to which hook part 21 passes through first opening 1211 clampings to the second opening 1212.As shown in fig. 6, hook part 21 is including cross bar 211 and positioned at the convex of described 211 one end of cross bar 212 are played, the other end of the cross bar 211 connects the interconnecting piece 23, described raised 212 length W5 in said first direction Greater than the Opening length W4 of second opening 1212 in said first direction.Hook part 21 is convex when being clamped with through-hole 121 Longer first opening 1211 of opening can be initially passed through by playing 212, and thinner cross bar 211 is located at the first opening 1211 at this time, so Afterwards, cross bar 211 can be moved to the second shorter opening 1212 of opening from the first opening 1211, and hinder with the second opening 1212 Buddhist nun's connection, by the resistance of second 1212 pairs of cross bars 211 of opening and the blocking to protrusion 212, so that radical occlusion device 20 can be with Fixing card is connected to the second opening 1212.

In the present embodiment, in the opening of through-hole both ends setting different openings length, it is arranged in the hook part of radical occlusion device horizontal Bar and convex block pass through the phase interworking between the opening and convex block and cross bar of cross bar and different length, the opening of different length It closes, radical occlusion device can be clamped to through-hole, structure is simple, easily operated.

In one embodiment, Fig. 7 is the schematic view of the front view of through-hole shown according to an exemplary embodiment.Such as figure Shown in 7, through-hole 121 further includes connector 1213, and the connector 1213 is connected to first opening 1211 and described second and opens Mouth 1212.The one side of the connector 1213 is inclined-plane, which can be tapered plane, be also possible to skew surface, the inclined-plane It is connected to the one end of first opening 1211 and second opening 1212 in said first direction.The cross bar 211 from When first opening 1211 is moved along the connector 1213 to second opening 1212, smoothly moved along the inclined-plane It is dynamic.

In the present embodiment, it sets inclined-plane on one side by the connector of through-hole, may make first opening of the cross bar from through-hole It is smoothly moved to the second opening of through-hole, facilitates the installation of radical occlusion device.

In one embodiment, connector 1213 further includes anti-shedding part, and the inclined-plane is arranged in the anti-shedding part Opposite face, it is mobile from second opening 1212 to first opening 1211 for limiting the cross bar 211.

Here, anti-shedding part can prevent the cross bar 211 being connected at the second opening 1212 along connector 1213 to One opening 1211 slides.Exemplary, which can be a protrusion being arranged on connector 1213.

What needs to be explained here is that when the anti-shedding part is had no effect on the clamping of radical occlusion device 20 to bracket 10, cross bar 211 Movement at connector 1213.

In the present embodiment, anti-shedding part is set at connector, can prevent from being connected to the cross bar of the second opening along Connector slides to the first opening.

In one embodiment, Fig. 8 is the schematic view of the front view of through-hole shown according to an exemplary embodiment.Such as figure Shown in 8, anti-shedding part 1214 is cambered surface close to the face of first opening 1211；The cross bar 211 is open from described first 1211 along the connector 1213 to it is described second opening 1212 move when, smoothly moved along the cambered surface, so that having In the case that anti-shedding part 1214 hinders, hook part 21 still can be smoothly clamped with through-hole 121.

What needs to be explained here is that as shown in figure 8, the anti-shedding part 1214 close to second opening 1212 face can be perpendicular It faces directly, it is sliding to the first opening 1211 along connector 1213 that the cross bar 211 being connected at the second opening 1212 can be effectively prevented It falls.

In the present embodiment, anti-shedding part is set in the one side of the connector of through-hole, can prevent from being clamped to the second of through-hole and open The cross bar of mouth slides along connector to the first opening of through-hole, and sets arc close to the face of the first opening for anti-shedding part Face may make that the cross bar of hook part, which can also be smoothly clamped to the second of through-hole, to be opened even if in the case where there is anti-shedding part obstruction At mouthful.

The embodiment of the present invention further relates to a kind of photovoltaic generating system, and the photovoltaic generating system includes described in above-described embodiment Flashing member 1 and photovoltaic generation unit, the photovoltaic generation unit is arranged in the holding part 11 of the bracket 10.

Here, the photovoltaic generating system includes at least two photovoltaic generation units, and Figure 11 is according to an exemplary implementation The fractionation side structure schematic view of the photovoltaic generating system exemplified.As shown in figure 11, two adjacent photovoltaic power generation lists side by side Member 40 is separately positioned on back in the holding part 11 of two brackets 10 of setting.

Exemplary, photovoltaic generation unit 40 may include single-crystalline-silicon solar-cell panel, polycrystalline silicon solar panel, non- Crystal silicon solar batteries plate, cadmium telluride solar panel, gallium arsenide solar panels.

In the present embodiment, by the way that bracket is arranged between two adjacent side by side photovoltaic generation units and is connected in bracket Radical occlusion device can make bracket with flashing member composed by the radical occlusion device that is connected on bracket to two adjacent side by side photovoltaics Gap between generator unit is blocked, and is not needed using sealant between two adjacent side by side photovoltaic generation units Gap is sealed, and can prevent water flow from entering in the gap between photovoltaic generation unit adjacent side by side, reduces photovoltaic power generation The cost of system, also, structure is simple, is easily installed, and there is no the risks of aging.

In one embodiment, the photovoltaic generating system can be obliquely installed, the photovoltaic generating system further include to Shao Liangzu photovoltaic power generation mechanism, every group of photovoltaic power generation mechanism includes at least two photovoltaic generation units 40, along inclination side To partially stacking is put between two adjacent groups photovoltaic power generation mechanism, is additionally provided with water baffle bar at the stacking of part.

Here, every group of photovoltaic power generation mechanism is a line photovoltaic generation unit 40, and every group of photovoltaic power generation mechanism includes at least two A photovoltaic generation unit 40, at least two photovoltaic generation unit 40 are respectively arranged at two back to setting as shown in figure 11 In the holding part 11 of bracket 10.

Here, every group of photovoltaic power generation mechanism accommodates the bracket 10 of every group of photovoltaic power generation mechanism, and is clamped to bracket 10 Radical occlusion device 20 is obliquely installed with predetermined angle, and partially stacking is put between two adjacent groups photovoltaic power generation mechanism, with shape At the default gradient.In this way, allowing the water flow in every group of photovoltaic power generation mechanism to preset gradient inclination with this flows to adjacent light Overhead generator structure, prevent water flow excessive and blow back into two groups of adjacent photovoltaic power generation mechanisms part stacking between gap.With Under by being illustrated so that predetermined angle is obliquely installed photovoltaic generating system as an example, Figure 12 is shown according to an exemplary embodiment Photovoltaic generating system overlooking structure diagram, Figure 13 is the direction A-A shown according to an exemplary embodiment along Figure 12 Photovoltaic generating system side structure schematic view.

As shown in figure 12, photovoltaic generating system includes Liang Zu photovoltaic power generation mechanism 50A and 50B, two radical occlusion device 20A with 20B, and four bracket (not shown)s for accommodating Liang Zu photovoltaic power generation mechanism 50A and 50B respectively.Photovoltaic generator Structure 50A includes two photovoltaic generation unit 40A, and photovoltaic power generation mechanism 50B includes two photovoltaic generation unit 40B.Radical occlusion device 20A be located at two be equipped between the bracket of two adjacent side by side photovoltaic generation unit 40A, to the gap 30 between bracket into Row blocks, and radical occlusion device 20B is located at two and is equipped between the bracket of two adjacent side by side photovoltaic generation unit 40B, to branch It is blocked in gap 30 between frame.Wherein, radical occlusion device 20A and two brackets and photovoltaic power generation mechanism 50A are constituted Whole, part stacking is placed on the entirety that radical occlusion device 20B and two brackets and photovoltaic power generation mechanism 50B are constituted, It generates 102 at part stacking as shown in fig. 13 that.As shown in figure 13, photovoltaic power generation mechanism 50A, radical occlusion device 20A, photovoltaic power generation The predetermined angle inclination that mechanism 50B and radical occlusion device 20B is θ with the angle with parallel direction is put, the predetermined angle Can make on photovoltaic power generation mechanism 50A or radical occlusion device 20A there are when water flow, make the water flow caused by the angle theta Inclined direction flow to photovoltaic power generation mechanism 50B or radical occlusion device 20B, is layered folded place 102 to avoid the water flow inflow part, and then leak Enter the lower section of photovoltaic power generation mechanism 50.

Here, the water baffle bar at the part stacking of two adjacent groups photovoltaic power generation mechanism is set, can be one, and be located at At least one set of photovoltaic power generation mechanism 50 stacks place.It is illustrated below by way of Figure 14 and Figure 15, Figure 14 is shown according to one Example property implements the side structure schematic view of the photovoltaic generating system exemplified, and Figure 15 is light shown according to an exemplary embodiment The overlooking structure diagram of photovoltaic generating system.

With reference to Figure 14 and Figure 15, photovoltaic generating system includes Liang Zu photovoltaic power generation mechanism 50A, 50B, and two block dress 20A, 20B are set, accommodates the four bracket (not shown)s and a water baffle bar 60 of Liang Zu photovoltaic power generation mechanism respectively.Light It include two adjacent photovoltaic generation unit 40B side by side in overhead generator structure 50B, radical occlusion device 20B is located at two and is equipped with simultaneously Between the bracket (not shown) for arranging two adjacent photovoltaic generation unit 40B, similarly, include in photovoltaic power generation mechanism 50A Two adjacent photovoltaic generation unit (not shown)s side by side, radical occlusion device 20A are located at two and are equipped with side by side adjacent two Between the bracket (not shown) of a photovoltaic generation unit.Water baffle bar 60 is located at photovoltaic power generation mechanism 50A and photovoltaic generator At the part stacking of structure 50B.As shown in FIG. 14 and 15, which is located at two photovoltaic generation unit 40B and between the two Radical occlusion device 20B upper surface and side close to photovoltaic power generation mechanism 50A, and with photovoltaic generation unit 40B and block dress It sets the upper surface of 20B and is L1 close to the pre-determined distance of the end of the side photovoltaic power generation mechanism 50A, wherein L1 >=0.

Here, the material of water baffle bar 60 can be soft rubber, on the one hand for carrying out at the stacking of part 102 gap Sealing prevents water flow from flowing into from the gap of part stacking place 102, on the other hand for buffering one group of photovoltaic power generation that upper layer is put The pressure for one group of photovoltaic power generation mechanism 50B that mechanism 50A 102 pairs of lower layers at the stacking of part put.

Here, as shown in figure 14, the length H1 of water baffle bar 60 in said first direction can be located at gap 30 at The portion that blocks water of bracket is equal with the sum of the length of the radical occlusion device that blocks water above portion in said first direction H2 is located at, can also be with It greater than H2, is appropriately arranged with according to the actual situation, this is not limited by the present invention.

Here, continue as shown in figure 14, photovoltaic power generation mechanism 50A and photovoltaic power generation mechanism 50B are on the third direction The length L2 being laminated can be greater than the sum of water baffle bar 30 length W5 on the third direction and pre-determined distance L1, can also To be equal to the sum of W5 and L1, the present invention is without limitation.

Here, multiple water baffle bars 60 can be set between two adjacent groups photovoltaic power generation mechanism 50, as being laminated two put A water baffle bar 60 can be set between photovoltaic generation unit 40.Exemplary, Figure 16 is shown according to an exemplary embodiment The overlooking structure diagram of photovoltaic generating system.As shown in figure 16, water baffle bar 60A and water baffle bar 60B is respectively arranged at one group of light The upper surface side of two photovoltaic generation units 40 in electrification structure 50 is lied prostrate, and is sent out in the photovoltaic power generation mechanism 50 and adjacent photovoltaic At part stacking when 50 part of motor structure is laminated between photovoltaic power generation mechanism 50.Water baffle bar 60A and water baffle bar 60B exist Length in the second direction can be identical and close as the length of each photovoltaic generation unit 40 in this second direction One end of radical occlusion device 20 is adjacent with the side of radical occlusion device 20.

In the present embodiment, photovoltaic generating system is obliquely installed, and in an inclined direction, two adjacent groups photovoltaic power generation mechanism Part stacking is put, and photovoltaic generator can be made to be configured to the default gradient, allow water flow in every group of photovoltaic power generation mechanism with The default gradient inclination flows to adjacent photovoltaic power generation mechanism, prevents water flow excessive and blows back into two groups of adjacent photovoltaic power generation mechanisms Part stacking between gap, meanwhile, radical occlusion device is but also water flow cannot be between adjacent two column photovoltaic generation unit Gap flow into, so ensure that water flow cannot flow between any group of adjacent two photovoltaic generation unit；Also, in phase Water baffle bar is set at the part stacking of Lin Liangzu photovoltaic power generation mechanism, part stacking can be carried out in two adjacent groups photovoltaic generator When, the gap at the stacking of part is sealed, prevents water flow from flowing into photovoltaic power generation mechanism by the gap at the part stacking Lower section, one group of photovoltaic power generation mechanism that upper layer is put can also be buffered, one group of photovoltaic that lower layer puts is sent out at the stacking of part The pressure of motor structure, structure is simple, easily realizes.

Those skilled in the art after considering the specification and implementing the invention disclosed here, will readily occur to of the invention its Its embodiment.This application is intended to cover any variations, uses, or adaptations of the invention, these modifications, purposes or Person's adaptive change follows general principle of the invention and including the undocumented common knowledge in the art of the present invention Or conventional techniques.The description and examples are only to be considered as illustrative, and true scope and spirit of the invention are by following Claim is pointed out.

It should be understood that the present invention is not limited to the precise structure already described above and shown in the accompanying drawings, and And various modifications and changes may be made without departing from the scope thereof.The scope of the present invention is limited only by the attached claims.

Claims (11)

1. a kind of flashing member, which is characterized in that including：

Two brackets being oppositely arranged, the bracket include holding part and the portion that blocks water, and the holding part is for accommodating photovoltaic power generation Unit, described group of water portion are arranged on the holding part, and the portion of blocking water in described two brackets at least one bracket is set It is equipped with through-hole；

Radical occlusion device, the radical occlusion device are provided with hook part, and the hook part passes through the through-hole for the radical occlusion device card When being connected to the bracket, the portion of blocking water of the radical occlusion device and described two brackets is constituted between described two brackets The waterproof construction that gap is blocked.

2. flashing member according to claim 1, which is characterized in that the portion of blocking water is set as riser, is located at the appearance It sets in portion.

3. flashing member according to claim 1, which is characterized in that the portion of blocking water is set as groove, and the groove is set It sets in the holding part towards the side for the bracket being oppositely arranged, the groove is provided with far from the side of the holding part Through-hole.

4. flashing member according to claim 1, which is characterized in that the radical occlusion device includes occlusion part and interconnecting piece；

The occlusion part is connect with one end of the interconnecting piece, for blocking the gap between the bracket；

The other end of the interconnecting piece is connect with the hook part.

5. flashing member according to claim 4, which is characterized in that

The through-hole includes the first opening and the second opening of connection, and the Opening length of first opening in a first direction is big In the Opening length of second opening in said first direction；

The other end of the hook part, the protrusion including cross bar and positioned at described cross bar one end, the cross bar connects the connection Portion, the length of the protrusion in said first direction are greater than the Opening length of second opening in said first direction；

Wherein, the through-hole with the hook part when being clamped, after the protrusion passes through first opening, the cross bar Second opening is moved to from first opening and is clamped with second opening.

6. flashing member according to claim 5, which is characterized in that

The through-hole further includes connector, connector connection first opening and second opening；The connector One side be inclined-plane, the inclined-plane is connected to first opening and second opening one end in said first direction, institute Cross bar is stated when being moved from first opening along the connector to second opening, is smoothly moved along the inclined-plane It is dynamic.

7. flashing member according to claim 6, which is characterized in that

The connector includes anti-shedding part, and the opposite face on the inclined-plane is arranged in the anti-shedding part, for limiting the cross Bar is open from described second to the first opening movement.

8. flashing member according to claim 7, which is characterized in that

The anti-shedding part is cambered surface close to the face of first opening；The cross bar is open from described first along the company When interface is mobile to second opening, smoothly moved along the cambered surface.

9. flashing member described in -8 according to claim 1, which is characterized in that the portion of blocking water of described two brackets is provided with logical Hole, the hook part of the radical occlusion device is two, and mirror settings, two hook parts are each passed through described two brackets When the radical occlusion device is clamped to the bracket by the through-hole, the portion that blocks water of the radical occlusion device and described two brackets Constitute the waterproof construction blocked to the gap between described two brackets.

10. a kind of photovoltaic generating system, which is characterized in that including described in photovoltaic generation unit and claim 1-9 any one Flashing member, the photovoltaic generation unit is arranged in the holding part of the bracket.

11. photovoltaic generating system according to claim 10, which is characterized in that the photovoltaic generating system is obliquely installed, The photovoltaic generating system further includes at least two groups photovoltaic power generation mechanism, and every group of photovoltaic power generation mechanism includes at least two light Generator unit is lied prostrate, along inclined direction, partially stacking is put between two adjacent groups photovoltaic power generation mechanism, is also set at the stacking of part It is equipped with water baffle bar.