CN204947983U - A kind of photovoltaic module carrier and matrix - Google Patents

Abstract

The utility model discloses a kind of photovoltaic module carrier and matrix, described photovoltaic module carrier matrix comprises the main buoyancy aid of hollow sealing, maintenance channel and other enclosure group become, the roof of main buoyancy aid has the supporting station in certain slanted angle between described diapire, the bottom of described supporting station has at least one for carrying the opening of photovoltaic battery panel, the top of described supporting station is provided with connection strutting piece, described connection strutting piece is used for matching with described opening jointly supporting described photovoltaic battery panel, described connection strutting piece is fixedly connected with described supporting station, described photovoltaic battery panel is fixed on above described main buoyancy aid.Adopt the utility model, can the installation of compatible multiple photovoltaic battery panel, and ensure the stable of photovoltaic module.

Description

A kind of photovoltaic module carrier and matrix

Technical field

The utility model belongs to photovoltaic plant apparatus field waterborne, is specifically related to a kind of photovoltaic module carrier and matrix.

Background technology

From the viewpoint of environmental protection, large-scale distributed photovoltaic plant has been built in a lot of countries and regions, and these needs take very large land resource.The country that water resources is enriched some land resources are in short supply or area, be just encountered by very large difficulty, photovoltaic plant waterborne arises at the historic moment under this market demand.

The known Overwater floating device for supporting photovoltaic panel, generally comprise the supporting construction of a metal or light material box form, for supporting one or more photovoltaic battery panel, in addition, also comprise the instrument for providing buoyancy, an entirety is become with supporting construction, the form in plastic float in bottom.

But, above-mentioned exist following deficiency in front scheme: photovoltaic battery panel in the market exists polytype, as hull cell plate and the crystal silicon battery plate having frame of Rimless, and the profile of the photovoltaic battery panel of different manufacturers, size are also different, and above-mentioned supporting construction cannot compatible dissimilar photovoltaic battery panel, that is, existing supporting construction can only be applicable to a kind of photovoltaic module of fixed dimension.Therefore, for dissimilar and photovoltaic module product that is size, necessary " customized " photovoltaic module carrier, this just makes the device fabrication cost of producer comparatively large, also result in the very large wasting of resources.

Utility model content

The technical problems to be solved in the utility model is, can only be applicable to a kind of problem of photovoltaic module of fixed dimension for existing support platform, provides a kind of photovoltaic module carrier being applicable to dissimilar photovoltaic battery panel.

The utility model solves the problems of the technologies described above adopted technical scheme, a kind of photovoltaic module carrier is provided, comprise the main buoyancy aid of hollow sealing, the roof of main buoyancy aid has the supporting station in certain slanted angle between described diapire, the lower end of supporting station has at least one for carrying the opening of photovoltaic battery panel, the upper end of roof is provided with connection strutting piece, connect strutting piece and be used for matching with described opening common supporting photovoltaic panel, connect strutting piece to be fixedly connected with supporting station, thus photovoltaic battery panel is fixed on above main buoyancy aid.

The left and right sidewall of main buoyancy aid is equipped with the cambered design of indent, or also can be rectangle or trapezoidal female parts.

The front-rear side walls of main buoyancy aid is provided with ventilating opening, and thus the top of supporting station comprises two connection strutting pieces be separated, and described two connection strutting pieces extend along same straight line, and its bearing of trend is parallel each other with the bearing of trend of described opening.

This connection strutting piece is also provided with trough, so that the connecting line of combing photovoltaic battery panel better.

Particularly, described supporting station has two openings, be respectively used to carry the photovoltaic battery panel of Rimless and have the photovoltaic battery panel of frame.Opening on supporting station and supporting station, is all formed in one with main buoyancy aid, has both ensure that the resistance to overturning of structure and the fastness of undertaking part, decreased workload during installation.

The top of described supporting station has the groove for holding described connection strutting piece, and described groove is suitable with the described bottom shape being connected strutting piece; Connecting strutting piece grafting enters in the groove that supporting station is arranged, and can realize fixing photovoltaic battery panel.

Described connection strutting piece has at least one for accepting the photovoltaic battery panel of Rimless or having the carrier of photovoltaic battery panel of frame, such as, when described photovoltaic battery panel is the hull cell plate of Rimless, described carrier comprises the press box for holding described hull cell plate; Such as, when described photovoltaic battery panel is the crystal silicon battery plate having frame, the carrier of described connection strutting piece comprises the press box holding described crystal silicon battery plate, or the keyset be fixedly connected with the frame of described crystal silicon battery plate.In reality is implemented, in order to save cost, reducing die sinking expense, also the carrier of above-mentioned two kinds of structures can be combined on described connection strutting piece.

The utility model additionally provides a kind of photovoltaic module carrier matrix, comprises multiple described main buoyancy aid, and for connecting the expanding channels part of described main buoyancy aid; The adjacent main buoyancy aid of described photovoltaic is connected by described expanding channels part, composition photovoltaic module carrier matrix; Wherein, the corner of described main buoyancy aid is provided with mounting lug; The corner of described expanding channels part is provided with the connection lug matched with described mounting lug, by being solidly connected with locking with the described lug that is connected by described mounting lug, is connected by described main buoyancy aid with described expanding channels part.

Preferably, the position of the mounting lug of described main buoyancy aid and the connection lug of described expanding channels plate has carried out misplacing designing.

Accompanying drawing explanation

Fig. 1 is the overall schematic of the main buoyancy aid of photovoltaic module carrier of the present utility model.

Fig. 2 is B place partial enlarged drawing in Fig. 1.

Fig. 3 is the right view of the main buoyancy aid of photovoltaic module carrier of the present utility model.

Fig. 4 is A place partial enlarged drawing in Fig. 1.

Fig. 5 is the schematic diagram of the connection strutting piece of photovoltaic module carrier of the present utility model.

Fig. 6 is C place partial enlarged drawing in Fig. 1.

Fig. 7 is the schematic diagram of the hull cell plate of photovoltaic module carrier of the present utility model carrying Rimless.

Fig. 8 is the schematic diagram that photovoltaic module carrier of the present utility model carries the crystal silicon battery plate of frame.

Fig. 9 is the schematic diagram of expanding channels plate of the present utility model.

Figure 10 is the right view of expanding channels plate of the present utility model.

Figure 11 is the local arrangements schematic diagram of photovoltaic module carrier matrix of the present utility model.

Embodiment

Below in conjunction with accompanying drawing, the utility model execution mode is further elaborated.

As shown in Figure 1, the utility model provides a kind of photovoltaic module carrier, it mainly comprises the main buoyancy aid 1 of sealed type, the main buoyancy aid 1 that this hollow is airtight is made up of diapire, four sidewalls (Zuo Bi, You Bi, antetheca, rear wall) and roof, roof comprises at least one supporting station 10, between supporting station 10 and diapire, there is certain slanted angle.Wherein, supporting station 10 and main buoyancy aid 1 are formed in one structure.

The left and right sidewall of main buoyancy aid 1 is equipped with the cambered design of indent, and the object of this female parts 13 is that the water yield of buffering caused by stormy waves is impacted.Shown in composition graphs 1 and Fig. 4, the roof of female parts 13 position is provided with multiple boss 14, these boss 14 establish for mounting plate, and mounting panel is for supporting photovoltaic conflux equipment.

Diapire, sidewall, the roof of main buoyancy aid 1, and supporting station 10 is formed in one, the material of main buoyancy aid 1 is preferably high density polyethylene (HDPE).

The angle of inclination of the supporting station 10 of main buoyancy aid 1 is preferably about 12 °, its objective is to absorb illumination better, is also utilize rainwater to carry out self-cleaning and make the minimized optimal selection of wind load simultaneously.

The upper and lower end of main buoyancy aid 1 is provided with ventilating opening 15, and such as this ventilating opening 15 can be positioned at the medium position of supporting station 10, and this ventilating opening 15 uses as air channel, with increase bottom photovoltaic battery panel by air quantity.

Upper end, main buoyancy aid 1 top is provided with the filling exit 16 of filling with husky or other materials, adopts sealed type to fix when not needing to record.

Main buoyancy aid 1 roof is provided with guiding gutter 17, to ensure the smoothness of main buoyancy aid 1 top draining.

The corner of main buoyancy aid 1 is provided with mounting lug 18, for being interconnected.

As shown in Figure 3, being provided with two kerves 19 bottom main buoyancy aid 1, is to establish when carrying main buoyancy aid 1 more easily.

In the lower end at main buoyancy aid 1 top, particularly, in the lower position of supporting station 10, there is at least one for carrying the opening of photovoltaic battery panel 3.This opening can be used for the photovoltaic battery panel carrying Rimless, or for carrying the photovoltaic battery panel of frame.

As shown in Figure 5, the top of supporting station 10 is provided with and connects strutting piece 12, connects strutting piece 12 for the common supporting photovoltaic panel 3 that matches with opening, connects strutting piece 12 parallel each other with the bearing of trend of opening.Connect strutting piece 12 to be fixedly connected with supporting station 10, thus photovoltaic battery panel is fixed on above main buoyancy aid 1.

Shown in composition graphs 1 to Fig. 8, preferably, the bottom of supporting station 10 has two openings: the first opening 101 and the second opening 102, is respectively used to carry the photovoltaic battery panel of Rimless and have the photovoltaic battery panel of frame.Two openings on supporting station 10 and supporting station 10 are formed in one structure.

Connect strutting piece 12 and have at least one for accepting the photovoltaic battery panel of Rimless or having the carrier 120 of photovoltaic battery panel of frame, this carrier 120 can realize fixing crystal silicon battery assembly or film battery assembly.Meanwhile, connect strutting piece 12 and be also provided with trough 121, so that the lead-in wire that better combing assembly battery case goes out.

The top of supporting station 10 has for holding the groove 11 connecting strutting piece, and groove 11 is suitable with the shape of the bottom 122 being connected strutting piece 12; By bottom 122 grafting connecting strutting piece 12 is entered in groove 11, connection strutting piece 12 is fixedly connected on the supporting station 10 of main buoyancy aid 1.

Such as, when photovoltaic battery panel is the hull cell plate of Rimless, the carrier 120 connecting strutting piece 12 can comprise the press box holding hull cell plate; When photovoltaic battery panel is the crystal silicon battery plate having frame, carrier 120 can be the press box holding crystal silicon battery plate, or, better simply, this carrier 120 is one piece of keyset that can be fixedly connected with the frame of crystal silicon battery plate, one end of keyset and the frame of crystal silicon battery plate fixedly make it to become as a whole with crystal silicon battery plate and frame, are then fixed on the supporting station 10 of main buoyancy aid 1 by arbitrary form by the other end of keyset.

Preferably, when the carrier 120 connecting strutting piece 12 comprises press box form, connect strutting piece 12 and photovoltaic battery panel or the bearing-surface that contacts with the frame of photovoltaic battery panel is provided with shaped grooves, tread plate can be filled, to increase the connectivity robustness between photovoltaic cell component and carrier 120 in this shaped grooves.

In addition, the upper dimension of strutting piece 12 can also be connected by adjustment, carry out the photovoltaic module of satisfied different overall dimension to the requirement of installation dimension.

As shown in Figure 7 and Figure 8, when installing photovoltaic battery panel, first one end of photovoltaic battery panel is extend in the opening of lower end, main buoyancy aid 1 top, then, after utilizing connection strutting piece 12 to fix the other end of photovoltaic battery panel, bottom 122 grafting connecting strutting piece 12 is become owner of in the groove 11 of upper end, buoyancy aid 1 top.Because main buoyancy aid 1 determines with the material being connected strutting piece 12, there is certain elasticity and skid resistance each other, and due to main buoyancy aid 1 be tilting structural design, so just more increase the frictional property connected between strutting piece 12 and groove 11, better to ensure the stable of photovoltaic module.

In addition, the utility model additionally provides a kind of photovoltaic module carrier matrix, and as shown in Figures 9 to 11, this photovoltaic module carrier matrix comprises multiple aforesaid main buoyancy aid 1, and for connecting the expanding channels part 2 of main buoyancy aid 1; Adjacent main buoyancy aid 1 is connected by expanding channels part 2, composition photovoltaic module carrier matrix.Wherein, the corner of main buoyancy aid 1 is provided with mounting lug 18; The corner of expanding channels part 2 is provided with the connection lug 20 matched with mounting lug 18, by by mounting lug 18 be connected lug 20 and be fastenedly connected with connecting pin, main buoyancy aid 1 is connected with expanding channels part 2.

Wherein, the effect of the connector between expanding channels plate 2 one aspect plays as main buoyancy aid module, and can be used as maintenance channel, convenient maintenance, attendant are by using.

Expanding channels plate 2 surface has anti-skidding lines, with ensure attendant by time fail safe.

Utilize connecting pin can connect 2 or 3 lugs simultaneously, main buoyancy aid and expanding channels plate are fastenedly connected, connecting pin also has limit function, better to ensure the resistance to overturning connected between parts simultaneously.

Especially, main buoyancy aid 1 and the lug position of maintenance channel have all done dislocation design: the mounting lug of main buoyancy aid 1 the same side is different from the height of the mounting lug of opposite side; The connection lug of expanding channels plate 2 the same side is also different from the height of the connection lug of opposite side; The mounting lug of main buoyancy aid 1 one end is below connection lug, and the connection lug of the other end is then below mounting lug.Adopt this dislocation to design, steadiness when lug connects can be increased on the one hand, significantly reduce and rock, also save production cost on the other hand.Further, when a mounting lug of main buoyancy aid is connected with the connection lug of two expanding channels plates simultaneously, by connecting the design of the differing heights difference of lug, requirement during connection can either be met, the problem of saving die cost can also be realized simultaneously.

In sum, the photovoltaic module carrier that the utility model provides and matrix, have following features: the opening 1, on the supporting station that carries photovoltaic battery panel and supporting station is one-body molded with main buoyancy aid; 2, this opening can the installation of compatible crystal silicon battery plate and hull cell plate; 3, connected the upper dimension of strutting piece by adjustment, the installation requirements of the photovoltaic module of different overall dimension can be met; 4, main buoyancy aid top wall upper is provided with groove, for be connected strutting piece and be connected; 5, main buoyancy aid corner has mounting lug, and the dislocation carrying out difference in height between the connection lug of expanding channels plate designs, and photovoltaic module carrier each several part is connected more firm.

Claims (10)

1. a photovoltaic module carrier, it is characterized in that, comprise the main buoyancy aid of hollow sealing, described main buoyancy aid is by diapire, four sidewalls, form with roof, the roof of described main buoyancy aid has the supporting station in certain slanted angle between described diapire, the bottom of described supporting station has at least one for carrying the opening of photovoltaic battery panel, the top of described supporting station is provided with connection strutting piece, described connection strutting piece is used for matching with described opening jointly supporting described photovoltaic battery panel, described connection strutting piece is fixedly connected with described supporting station, described photovoltaic battery panel is fixed on above described main buoyancy aid.

2. photovoltaic module carrier according to claim 1, is characterized in that, the opening on described supporting station and described supporting station and described main buoyancy aid are formed in one.

3. photovoltaic module carrier according to claim 2, is characterized in that, described supporting station has two openings, is respectively used to carry the photovoltaic battery panel of Rimless and have the photovoltaic battery panel of frame.

4. photovoltaic module carrier according to claim 1, is characterized in that, the top of described supporting station has the groove for holding described connection strutting piece, and described groove is suitable with the described bottom shape being connected strutting piece; By the bottom grafting of described connection strutting piece is entered in described groove, described connection strutting piece is fixedly connected with described supporting station.

5. photovoltaic module carrier according to claim 4, is characterized in that, the bearing of trend of described connection strutting piece and described opening is parallel to each other.

6. photovoltaic module carrier according to claim 5, is characterized in that, described connection strutting piece has at least one for accepting the photovoltaic battery panel of Rimless or having the carrier of photovoltaic battery panel of frame; Described carrier comprises: for hold the frame of described photovoltaic battery panel or described photovoltaic battery panel press box and/or, with the described keyset having the frame of the photovoltaic battery panel of frame to be fixedly connected.

7. photovoltaic module carrier according to claim 6, is characterized in that, the bearing-surface that the frame of described connection strutting piece and described photovoltaic battery panel or described photovoltaic battery panel contacts is provided with shaped grooves, fills tread plate in described shaped grooves.

8. the photovoltaic module carrier according to any one of claim 1 to 7, it is characterized in that, the sidewall of described main buoyancy aid is provided with the female parts of arc, the roof of described female parts position is provided with multiple boss, described boss is used for mounting plate, and described mounting panel is for supporting photovoltaic conflux equipment.

9. a photovoltaic module carrier matrix, is characterized in that, described photovoltaic module carrier matrix comprises multiple main buoyancy aid as described in any one of claim 1 to 8, and for connecting the expanding channels part of described main buoyancy aid; The adjacent main buoyancy aid of described photovoltaic is connected by described expanding channels part, composition photovoltaic module carrier matrix; Wherein, the corner of described main buoyancy aid is provided with mounting lug; The corner of described expanding channels part is provided with the connection lug matched with described mounting lug, by being solidly connected with locking with the described lug that is connected by described mounting lug, is connected by described main buoyancy aid with described expanding channels part.

10. photovoltaic module carrier matrix according to claim 9, is characterized in that, the position of the mounting lug of described main buoyancy aid and the connection lug of described expanding channels plate has carried out misplacing designing.