CN106357206A - Photovoltaic module carrier and matrix - Google Patents

Abstract

The invention discloses a photovoltaic module carrier and a matrix. The photovoltaic module carrier comprises a sealed cover, wherein the carrier consists of a bottom wall, four side walls and a top wall; the top wall comprises a supporting surface; an inclined surface having a certain inclined included angle is arranged between the supporting surface and the bottom wall; a fastening side for bearing a photovoltaic cell panel is arranged on the lower part of the top wall; an adjustable positioning mechanism is arranged on the upper part of the top wall; the distance between the adjustable positioning mechanism and the fastening side is adjustable; and the photovoltaic cell panel is fixed above the cover by the fastening side and the adjustable positioning mechanism. The photovoltaic module carrier and the matrix are provided for a photovoltaic power station, requirements of mounting and fixing of different photovoltaic modules can be met, and universality and compatibility of the photovoltaic module carrier are improved effectively.

Description

A kind of photovoltaic module carrier and matrix

Technical field

The invention belongs to photovoltaic module vehicle equipment field is and in particular to a kind of strong, the amphibian photovoltaic module carrier of compatibility and matrix.

Background technology

From the aspect of environmental protection, large-scale distributed photovoltaic plant has been built in a lot of countries and regions, and this needs to take very big land resource.In some land resources are in short supply country that water resource enriches or area, just it is encountered by very big 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 include the instrument for providing buoyancy, become an entirety, the form in plastic float in bottom with supporting construction.

But, above-mentioned exist in front case not enough as follows: the profile of the photovoltaic battery panel of different manufacturers, size differ in the market, and above-mentioned supporting construction cannot compatible various sizes of photovoltaic battery panel, i.e. existing supporting construction may be only available for a kind of photovoltaic module of fixed dimension.Therefore, it is necessary to " customized " photovoltaic module carrier, the device fabrication cost that this allows for producer is larger, also result in the very big wasting of resources for the photovoltaic module product for different model and size.Additionally, above-mentioned Overwater floating device is not directed to how to use on land.

Content of the invention

The technical problem to be solved in the present invention is, for every kind of different size photovoltaic battery panel need to provide customization photovoltaic module carrier problem, a kind of photovoltaic module carrier of the photovoltaic battery panel being applicable to multiple different sizes, size is provided.

The present invention solves above-mentioned technical problem and be employed technical scheme comprise that, there is provided a kind of photovoltaic module carrier, including the cover body of sealing, this cover body is made up of diapire, four side walls and roof, roof includes bearing-surface, and this bearing-surface is the inclined-plane and diapire between with certain slanted angle；The bottom of roof is provided with the button side for carrying photovoltaic battery panel, and the top of roof is provided with scalable detent mechanism, the spacing scalable between scalable detent mechanism and button side；By detaining side and scalable detent mechanism, photovoltaic battery panel is fixed on above described cover body.

Described scalable detent mechanism can include at least two or more groups installing hole being arranged on top wall upper, and can pass through the press strip on securing member one group of installing holes installed therein such as bolt；Wherein, the spacing between described multigroup installing hole and button side.By being fixed at the installing hole of diverse location press strip, press strip can be adjusted and buckle spacing between side, thus realizing compatible various sizes of photovoltaic battery panel.

Or, described scalable detent mechanism can also include the sliding tray being arranged on roof, the limited block that can slide in described sliding tray and described limited block one or the flanging, spring body and the spring pedestal that are connected；One end of described spring body is fixedly connected with limited block, and the other end is fixedly attached on cover body by spring pedestal.By the tension force of spring body, the installation requirements of various sizes of photovoltaic battery panel can be adapted to.

Or, described scalable detent mechanism can also include the gathering sill being arranged on described roof, and positioning component；Described positioning component includes the guide pad that can slide in described gathering sill, and the press box being bearing on described roof；Slided in described gathering sill by described guide pad, to adjust the spacing between described press box and described button side.

It is in preferably 5 ~ 14 degree of angles between the described roof of photovoltaic module carrier and diapire, this is the day as requested in order to preferably meet photovoltaic module, farthest reduce windage simultaneously.

It is additionally provided with tread plate on the described roof of photovoltaic module carrier, when photovoltaic battery panel is installed on photovoltaic module carrier, this tread plate is contacted with photovoltaic battery panel, plays the frictional force increasing between photovoltaic battery panel and roof, improves the effect of the installation steadiness of photovoltaic battery panel.

The side wall centre position of described photovoltaic module carrier is provided with (arc or rectangle or trapezoidal) recess; for ventilation thus reducing windage and specially designing, meanwhile, left and right side wall is in indent arc for the effect of this recess; stormy waves stream can be slowed down, thus playing the effect of protection photovoltaic module bottom surface.

The present invention provides a kind of photovoltaic module carrier for photovoltaic plant, can meet the demand installing the different photovoltaic module of fixation, effectively improve versatility and the compatibility of photovoltaic module carrier.

Present invention also offers a kind of photovoltaic module carrier matrix, this matrix includes multiple described photovoltaic module carriers, and is used for connecting the passage connector of photovoltaic module carrier.Wherein, the corner of photovoltaic module carrier is provided with mounting lug, the corner of passage connector is provided with the connection lug matching with described mounting lug, is connected by described passage connector between adjacent photovoltaic module carrier, thus forming photovoltaic module carrier matrix.

The cover body of described photovoltaic module carrier, and passage connector is all the seal using blowing, rotational moulding or other technique productions, passage connector and photovoltaic module carrier can provide enough buoyancy simultaneously.

Described photovoltaic module carrier matrix can also realize amphibious photovoltaic plant, when using in water, it is possible to use pile holding or sinker mode are fixed；Filling exit and capping are additionally provided with cover body, the other modes such as filling is husky, pour water when using on land, can be adopted to be fixed.

Brief description

Fig. 1 is the schematic diagram of the photovoltaic module carrier of the embodiment of the present invention.

Fig. 2 is the schematic diagram carrying photovoltaic battery panel on the photovoltaic module carrier of the embodiment of the present invention.

Fig. 3 is the schematic diagram of the photovoltaic module carrier of another embodiment of the present invention.

Fig. 4 is partial enlarged drawing at a in Fig. 3.

Fig. 5 is the schematic diagram of the photovoltaic module carrier of further embodiment of this invention.

Fig. 6 is partial enlarged drawing at b in Fig. 5.

Fig. 7 is the schematic diagram of the passage connector of the embodiment of the present invention.

Fig. 8 is the schematic diagram of the photovoltaic module carrier matrix of the embodiment of the present invention.

In figure: 1 cover body；2 photovoltaic battery panels；3 passage connectors；10 mounting lugs；11 side walls；12 bearing-surfaces；13 button sides；14 installing holes；15 press strips；16 recesses；17 vents；18 cappings；19 tread plates；21 sliding trays；22 spring pedestals；23 spring bodies；24 limited blocks；25 flanging；30 connection lugs；40 press boxes；41 gathering sills.

Specific embodiment

Below in conjunction with accompanying drawing, embodiment of the present invention is further elaborated.

Embodiment 1

The present embodiment provides a kind of photovoltaic module carrier, as shown in Figure 1, it mainly includes sealed cover body 1, this cover body 1 is made up of diapire (not shown), four side walls 11 and roof, roof includes at least one bearing-surface 12, and bearing-surface 12 is the inclined-plane and diapire between with certain slanted angle.The bottom of roof is provided with the button side 13 for carrying photovoltaic battery panel, and the top of roof is provided with scalable detent mechanism.Jointly photovoltaic battery panel is fixedly mounted on photovoltaic module carrier by detaining side 13 and scalable detent mechanism.

In conjunction with shown in Fig. 1 and Fig. 2, scalable detent mechanism includes at least two groups (at least two or more rows in such as Fig. 1) installing holes 14 being arranged on top wall upper, and can pass through the press strip 15 on securing member one group of installing holes 14 installed therein such as bolt；Wherein, often arrange the spacing between installing hole 14 and button side 13.When installing photovoltaic battery panel 2, can be according to the different size of the photovoltaic battery panel 2 of practical application, by securing member/clamp device, press strip 15 is fixed at the installing hole 14 of diverse location, press strip 15 just can be adjusted and buckle spacing between side 13, thus realizing the purpose of compatible various sizes of photovoltaic battery panel.

Referring to Fig. 2, by the fixed form using this button side and press strip, outside being, due to the lateral length of photovoltaic battery panel, the width that can extend photovoltaic module carrier, the photovoltaic module carrier of the therefore present invention can be compatible with the photovoltaic battery panel 2 of different length；And pass through scalable detent mechanism, make the present invention photovoltaic module carrier not only can compatible different length photovoltaic battery panel, the cell panel of acceptable compatibility different width dimensions, it is achieved thereby that the good compatibility to the various sizes of photovoltaic battery panel of different size largely.

Wherein, side wall 11 centre position is provided with the recess 16 of arc (or rectangle or trapezoidal), the effect of this recess 16 for ventilation thus reducing windage and specially designing, simultaneously; left and right side wall 11 is to slow down stormy waves stream in indent arc, thus playing the effect of protection photovoltaic battery panel bottom surface.

So, roof is just divided into two inclined-planes: positioned at the first bearing-surface of bottom, with superposed second bearing-surface, the first bearing-surface and the second bearing-surface are located in approximately the same plane.

Wherein, the installation site of press strip 15, with respect to the distance buckleing side 13, is to determine according to the width of different photovoltaic battery panels, to be suitable for the photovoltaic battery panel of different in width respectively.And the internal height of press strip 15 can set according to the maximum gauge of different photovoltaic battery panels.

Wherein, it is provided with vent 17 in the middle part of the wall of forward and backward side.

Wherein, diapire designs for inner concave shape, such that it is able to strengthen its overall structural strength.

Wherein, it is in 5 ~ 14 degree of angles between roof and diapire, this is the day as requested in order to preferably meet photovoltaic module, farthest reduce windage simultaneously.

Wherein, the first bearing-surface and/or the second bearing-surface are provided with tread plate 19.Specifically, this tread plate can be the form of anti-slip rubber bar being bonded on roof or other can play increase photovoltaic battery panel frictional force form.

Wherein, each several part such as the diapire of cover body 1, side wall, button side 13 on roof, and the first bearing-surface is to be integrally formed, and the material of cover body 1 is high density polyethylene (HDPE) (high density Polyethylene, abbreviation hdpe), formed using blowing, rotational moulding or other technique productions.

Wherein, cover body is provided with filling exit and capping 18, when photovoltaic module carrier uses on land, can open capping 18 and fill the implants such as sand by this filling exit.Or, on the water using when it is also possible to by fill floating thing increase the buoyancy of photovoltaic module carrier and the fastness of carrier.

Wherein, the corner of cover body 1 is provided with mounting lug 10, can be used for being fixedly connected with passage connector.This mounting lug 10 can also be integrally formed with cover body 1 and be processed into.

Embodiment 2

The present embodiment provides a kind of photovoltaic module carrier, as shown in Figure 2, Figure 3 and Figure 4, photovoltaic module carrier in the present embodiment is more approximate with the overall structure in embodiment 1, is, in the present embodiment in place of the main distinction of the two, scalable detent mechanism on the roof of cover body 1 is spring Collapsible structure, this scalable detent mechanism specifically includes that the sliding tray 21 on roof, spring pedestal 22, spring body 23, the limited block 24 that can slide in this sliding tray 21, and flanging 25.Wherein, flanging 25 is connected with limited block 24 or integrally formed structure；One end of spring body 23 is fixedly connected with limited block 24, and the other end is fixedly attached on cover body 1 by spring pedestal 22.

When installing cell panel 2, first limited block 24 is pushed in sliding tray 21, using the tension force of spring body 23, adjust the spacing between flanging 25 and button side 13, and by flanging 25 and button side 13, cell panel 2 is crimped on roof.It can be seen that, using the scalable detent mechanism of the present embodiment, can more freely be adapted to various sizes of photovoltaic battery panel.

Embodiment 3

The present embodiment provides a kind of photovoltaic module carrier, as shown in Figure 2, Figure 5 and Figure 6, photovoltaic module carrier in the present embodiment is more approximate with the overall structure in embodiment 1, it is in place of the main distinction of the two, in the present embodiment, scalable detent mechanism on the roof of cover body 1 specifically includes that the gathering sill 41 on roof, and positioning component, referring to shown in Fig. 5 and Fig. 6, this positioning component includes the guide pad (not shown) that can slide in gathering sill 41, and is bearing in the press box 40 on roof.When photovoltaic battery panel 2 is installed on photovoltaic module carrier, slided in gathering sill 41 by the guide pad of positioning component, the spacing between press box 40 and button side 13 can be adjusted, thus adapting to various sizes of photovoltaic battery panel 2, and jointly photovoltaic battery panel 2 is fixedly mounted on photovoltaic module carrier by detaining side 13 and this press box 40.Afterwards, press box 40 can be fixed in gathering sill 41 by fixed forms such as securing members, thus forming a clamping body.

Wherein, the internal height of press box 40 to be designed according to the thickness of photovoltaic module.

It can be seen that, using the scalable detent mechanism of the present embodiment, various sizes of photovoltaic battery panel equally can be adapted to.

Embodiment 4

The present embodiment provides a kind of photovoltaic module carrier matrix, including the photovoltaic module carrier in multiple previous embodiment, and for connecting the passage connector of described photovoltaic module carrier.

As shown in Figure 7 and Figure 8, passage connector 3 is the seal using blowing, rotational moulding or other technique productions, the corner of passage connector 3 is provided with the connection lug 30 matching with mounting lug 10, with photovoltaic module carrier as modular unit, it is attached fastening with clamp devices such as pins by connecting the mounting lug 10 that lug 30 is with photovoltaic module carrier, make to be connected together by passage connector 3 between adjacent photovoltaic module carrier, so just independent each unit is formed a whole, form photovoltaic module carrier matrix.Wherein, each photovoltaic module carrier and each passage connector 3 all can provide enough buoyancy, and, passage connector may also operate as the effect of required maintenance channel during manual maintenance photovoltaic module.

In sum, the photovoltaic module carrier that the present invention provides, and photovoltaic module carrier matrix, have the advantage that the photovoltaic module carrier of the 1, present invention can be adapted to the photovoltaic battery panel of different size and specification, there is extraordinary versatility and the compatibility of height, greatly save product cost；2nd, the photovoltaic module carrier matrix of the present invention, with photovoltaic module carrier as modular unit, connected by structure simple passage connector and form a whole, there is good extensibility, and this passage connector can also simultaneously work as providing the effect of additional buoyancy and offer maintenance channel；3rd, the photovoltaic module carrier of the present invention, improves the applied environment of product so as to meet amphibious.Be fixed using pile holding or sinker mode when in water, when using on land using filling husky, pour water or other modes are fixed.

Above example is only used for the present invention is specifically described, and it does not play any restriction effect to protection scope of the present invention, and protection scope of the present invention is determined by claim.According to techniques known and technical scheme disclosed in this invention, can derive or association goes out many flexible programs, all these flexible programs, also being regarded as is protection scope of the present invention.

Claims (10)

1. it is characterised in that including the cover body of sealing, described cover body is made up of a kind of photovoltaic module carrier diapire, four side walls and roof, and described roof includes bearing-surface, and described bearing-surface is the inclined-plane and described diapire between with certain slanted angle；The bottom of described roof is provided with the button side for carrying photovoltaic battery panel, and the top of described roof is provided with scalable detent mechanism, the spacing scalable between described scalable detent mechanism and described button side；By described button side and described scalable detent mechanism, described photovoltaic battery panel is fixed on above described cover body.

2. photovoltaic module carrier according to claim 1 is it is characterised in that described scalable detent mechanism includes the multigroup installing hole being arranged on described top wall upper, and can be by the press strip on installing hole described in one group installed therein of clamp device；Spacing between wherein said multigroup installing hole and described button side.

3. photovoltaic module carrier according to claim 1 is it is characterised in that described scalable detent mechanism includes sliding tray, flanging, spring body, spring pedestal and the limited block that can slide in described sliding tray being arranged on described roof；Described flanging is fixedly connected or is formed in one with described limited block structure；One end of described spring body is fixedly connected with described limited block, and the other end is fixedly attached on described cover body by described spring pedestal.

4. photovoltaic module carrier according to claim 1 is it is characterised in that described scalable detent mechanism includes the gathering sill being arranged on described roof, and positioning component；Described positioning component includes the guide pad that can slide in described gathering sill, and the press box being bearing on described roof；Slided in described gathering sill by described guide pad, to adjust the spacing between described press box and described button side.

5. the photovoltaic module carrier described in any one according to claim 1,2,3,4 or 5 is it is characterised in that be in 5 ~ 14 degree of angles between described roof and described diapire；Described side wall centre position is provided with arc or rectangle or trapezoidal recess.

6. photovoltaic module carrier according to claim 5 is it is characterised in that be provided with tread plate on described roof.

7. photovoltaic module carrier according to claim 6 is it is characterised in that described cover body is provided with filling exit and capping.

8. photovoltaic module carrier according to claim 7 is it is characterised in that the diapire of described cover body, side wall, roof, and described button side is formed in one, and the material of described cover body is high density polyethylene (HDPE).

9. a kind of photovoltaic module carrier matrix is it is characterised in that described photovoltaic module carrier matrix includes multiple photovoltaic module carriers as described in any one of claim 1 to 8, and for connecting the passage connector of described photovoltaic module carrier；Adjacent described photovoltaic module carrier is connected by described passage connector, forms photovoltaic module carrier matrix.

10. photovoltaic module carrier matrix according to claim 9 is it is characterised in that the corner of described cover body is provided with mounting lug；The corner of described passage connector is provided with the connection lug matching with described mounting lug, by being solidly connected described mounting lug with locking with described connection lug, described photovoltaic module carrier is connected with described passage connector.