CN104183659A - Solar cell module structural body - Google Patents

Abstract

The invention relates to a solar cell module structural body used on water or a land, and more specifically, with the purpose of preventing a solar cell module arranged on water from being influence by strong wind and concentrated heavy rainfall and simply and rapidly arranging the solar cell module structural body on the land at a low cost, the solar cell module structural body is provided, wherein the solar cell module structural body comprises a fixing body (1) of the solar cell module installed above an inclination surface; the fixing body comprises a water-used buoyancy body (1a) used for floating on water, or a land-used frame structure (1b) used for arrangement on the land, and a support (30) which enables an anchor log (33) with a prescribed length to be arranged on the fixing body (1) in a penetrating manner and is buried to the underground side from the ground surface so as to arrange the fixing body (1) in both a water-used manner and a land-used manner.

Description

Solar module structure

Technical field

The present invention relates to solar module structure (STRUCTURE BODY OF SOLAR CELL MODULE), relate more particularly to, in river, lake, reservoir, the water surface of dykes and dams etc. becomes row or all around arranges as after being connected to each other in conjunction with the buoyancy fixed body of solar module in the above of use waterborne, the buoyancy fixed body that is positioned at marginal position is fixed on to anchor post, thereby in can regulating changeably according to SEA LEVEL VARIATION height, maintain the state floating, can concentrate thus solar energy to generate electricity, and can maintain interval by the distance maintaining projection and the hinged bald bracket that are formed at buoyancy fixed body, thereby not only can prevent that solar cell from forming shade, and utilize buoyancy fixed body not carry out planarization operation and use the simple solar module structure that promptly fixed body of fixed solar battery component is in the above arranged to land such as concrete.

Background technology

Conventionally, utilize the method for solar energy to be divided into and utilize the method for utilizing solar heat of warming oneself and generating electricity by the water of sun heating and utilize sunlight to produce electricity, and electricity consumption makes the method for utilizing solar energy of various machines and mechanism's work.

The method of utilizing solar energy is called to solar power generation, and solar power plant is divided into self solar power plant and system connecting-type solar power plant.

Self solar power plant comprises: solar battery group (solar panel), and it is by forming in conjunction with multiple solar modules, and described solar module is by utilizing the solar cell that sunlight generates electricity to form; Storage battery, it stores the electricity producing at solar panel; Electric power regulating mechanism, it makes the electricity producing at solar panel be stored in storage battery or supply with external load with the level of regulation; Inverter, it will be interchange from the DC converting of storage battery and electric power regulating mechanism supply; And auxiliary generator.

Because this solar power generation energy resource density is low, therefore need wide erection space, and limited due to place being set, thereby can say, guarantee that the space for solar panel is set is a difficult problem for solar power generation.

As the scheme that area is set of guaranteeing solar components, can consider to be installed on sunshine amount abundant and can easily guarantee the water surface in the river, lake, reservoir, dykes and dams etc. of open, wide area, and on the works that the device of solar generating that major part is arranged at the water surface makes to have solar panel by buoyancy fixed body climbs up on top of the water.

But this structure is rocked buoyancy fixed body on the water surface rippling along with wind or wave very much, solar panel also rocks very much thus, thereby has the solar power generation of obstruction problem smoothly.

Therefore,, for sunlight light collecting device is set at the water surface, even because wind or wave ripple pond, natant buoyancy fixed body should float always and can carry out swimmingly solar power generation under stable state.

In addition, as the example that solar components is arranged to land, as described in patent documentation 2, will be arranged on building, in this case, there is the shortcoming that cannot form sufficient power generating equipment due to the restriction of space or area being set.

Therefore, although solar components is directly set for well on ground, but in this case, the suit the requirements place of condition of wide, smooth ground and abundant sunshine amount is limited, even and if meet that condition, also will be as concrete road, not only need wide and huge area casting reinforced concrete to carry out planarization operation, but also need to will be fixed on mattess etc. for the extra framework fixed body of fixed solar assembly on the ground, have because a lot of time of needs and resource make expense too much, thus less economical shortcoming.

Prior art document

Patent documentation

1. Korea S's publication 2009-0037020 publication communique (on April 15th, 2009 is open)

2. No. 2013-0000973 open utility model communique of the open utility model of Korea S (on February 13rd, 2013 is open).

Summary of the invention

For solving the object of the invention is to of problem that above-mentioned conventional art has, provide and change to water level that is arranged at river, lake, reservoir, dykes and dams etc. and make buoyancy fixed body according to SEA LEVEL VARIATION lifting, can change to thus the fixed form that regulates height, thereby be not subject to the impact of strong wind speed and concentrated heavy rainfall and can improve the efficiency of the sunlight energy, and utilize this buoyancy fixed body can be simply, rapidly and with cheap expense, solar components is arranged to the solar module structure of ground.

As the method for solving problem as above, the fixed body that present invention resides in formation inclined plane, upper end and comprise the floatage body that can float at the water surface and the solar module that is arranged at above-mentioned inclined plane, above-mentioned solar module is fixed on above-mentioned inclined plane by bolt, or slide and be inserted in the inside of the sliding drawer portion forming in the both sides on above-mentioned inclined plane, maybe can place the each stage portion that is fixed on the multiple support portions that project upwards from the surrounding on above-mentioned inclined plane.

As preferred embodiment, said structure body is connected to and can forms group by the water multiple or land, be arranged in the situation that waterborne, the fixed body that is positioned at marginal position is connected with the anchor post that is arranged at ground by metal wire, thereby can make each fixed body carry out lifting action according to the conversion of water level.

And, in the situation that said structure body is arranged at land, make the anchoring pile with specific length that the support that is arranged at above-mentioned fixed body is connected and be buried underground from ground to ground downside, thereby above-mentioned fixed body can be arranged to land, now form box thread portion on the top of above-mentioned anchoring pile, connect above-mentioned support fixing with the bolt of above-mentioned box thread portion thread connection.

According to the present invention, solar components structure waterborne has can be according to field condition, on the water surface of river, lake, reservoir, dykes and dams etc., arrange and connect to arrange in the mode of one the floatage body that is combined with solar components above with row or with direction all around.

And, the floatage body that is combined with solar components carries out lifting action according to SEA LEVEL VARIATION, and be fixed to prevent the damage of sunlight light collecting device in the mode that strong wind speed and concentrated heavy rainfall are not rocked, moreover, also there is the effect of the efficiency that can improve the sunlight energy.

And, form distance maintaining projection at floatage body, interfere thus so that do not produce shade at solar module, thereby there is the effect that improves generating efficiency.

And, in the time of the fixed solar assembly of ground, when utilization is arranged at floatage body waterborne, directly floatage body is fixed on to ground with anchoring pile, not only can get rid of the armored concrete cast operation on ground, but also can form simply again rapidly solar components, therefore expense is cheap and be easy to maintain management, thereby has advantages of very economical.

Brief description of the drawings

Fig. 1 is the stereogram of floatage body in the solar components structure waterborne of the diagram first embodiment of the present invention.

Fig. 2 is the stereogram that represents to connect the floatage body in the solar components structure waterborne of the first embodiment of the present invention.

Fig. 3 is the separation stereogram of connection status of the floatage body in the solar components structure waterborne of the diagram first embodiment of the present invention.

Fig. 4 is the combination stereogram of connection status of the floatage body in the solar components structure waterborne of the diagram first embodiment of the present invention.

Fig. 5 is the vertical view of the connection status of the solar components structure waterborne of the diagram first embodiment of the present invention.

Fig. 6 is the stereogram of the variation of the floatage body of the diagram first embodiment of the present invention.

Fig. 7 is the cutaway view of Fig. 6.

Fig. 8 is the cutaway view that diagram is formed at the state that the distance maintaining projection of floatage body of Fig. 6 is close to.

Fig. 9 a and Fig. 9 b are shown in the solar components structure waterborne of the first embodiment of the present invention stereogram in conjunction with solar module with drawer type.

Figure 10 is the illustration figure of the state that arranges of the solar components structure waterborne of the diagram first embodiment of the present invention.

Figure 11 is the exploded perspective view that represents the solar components structure waterborne of the second embodiment of the present invention.

Figure 12 is the assembling stereogram of the embodiment of Figure 11.

Figure 13 is the vertical view of the embodiment of Figure 12.

Figure 14 is the cutaway view of the A-A line of Figure 13.

Figure 15 represents the floatage body of embodiment of Figure 11 and the stereogram of the released state of connector.

Figure 16 is the stereogram that represents the bonding state of floatage body and connector in the embodiment of Figure 15.

Figure 17 is the vertical view that represents the state of the floatage body connection of the embodiment of multiple Figure 11.

Figure 18 is the stereogram that represents the state of the floatage body connection of the embodiment of multiple Figure 11.

Figure 19 is the exploded perspective view that represents the terrestrial solar energy modular construction body of the third embodiment of the present invention.

Figure 20 is the assembled state stereogram that represents the terrestrial solar energy modular construction body of the third embodiment of the present invention.

Figure 21 and Figure 22 are the cutaway view that represents the terrestrial solar energy modular construction body of the third embodiment of the present invention.

Figure 23 is the exploded perspective view that represents the distressed structure of the terrestrial solar energy modular construction body of the third embodiment of the present invention.

Figure 24 is the assembling stereogram that represents the distressed structure of the terrestrial solar energy modular construction body of the third embodiment of the present invention.

Figure 25 is the exploded perspective view that represents the terrestrial solar energy modular construction body of the fourth embodiment of the present invention.

Figure 26 is the assembling stereogram that represents the terrestrial solar energy modular construction body of the fourth embodiment of the present invention.

Figure 27 is the exploded perspective view that represents the distressed structure of the terrestrial solar energy modular construction body of the fourth embodiment of the present invention.

Figure 28 is the assembling stereogram that represents the distressed structure of the terrestrial solar energy modular construction body of the fourth embodiment of the present invention.

description of reference numerals

1: fixed body 1a: floatage body 1b: frame structure

2: sliding drawer portion 3: solar module 4: analog bracket

5: connecting frame 6: brace 7: hinge

8: pan 9: balance weight

10: distance maintaining projection 11: metal wire 12: metal wire clamping section

13: retainer ring 14: anchor post

21: inclined plane 22: stage portion 23: support portion

24: hand-hole 25: ascending pipe 26: lid

27: track 28: connector

30: 32: the second holes, 31: the first holes of support

33: anchoring pile 34: box thread portion 35: bolt

40: suspension hook 41: in conjunction with projection 42: engagement groove

43: fixed strip 44: fixing hole

embodiment

Below, with reference to the accompanying drawing that represents the preferred embodiments of the present invention, the present invention is described in detail.But additional embodiment, for contributing to understand one embodiment of the invention, not to limit the invention to object, and to the self-evident technology of the those of ordinary skill in this field or the easy technology deriving, omits relevant detailed description.

Fig. 1 is the stereogram of the buoyancy fixed body in diagram solar components structure waterborne of the present invention, Fig. 2 is the stereogram that represents to connect the buoyancy fixed body in solar components structure waterborne of the present invention, and Fig. 9 is the illustration figure of the state that arranges of diagram solar components structure waterborne of the present invention.

The structure of solar components structure waterborne of the present invention is the water surface that is arranged at river, lake, reservoir, dykes and dams etc., by buoyancy fixed body 1 according to SEA LEVEL VARIATION changeability carry out lifting action, and maintain the state that is fixed on ground with the wind speed by strong and concentrated heavy rainfall and do not rock.

Therefore, solar components structure waterborne is divided into the solar module 3, metal wire 11, the anchor post 14 that comprise Blast Furnace Top Gas Recovery Turbine Unit (TRT) substantially.

Above-mentioned fixed body 1 has the block-shaped of plastics or polyurethane material, is the structure that virtue of buoyancy can float on the surface, and forms inclined plane in the above, to be conducive to that sunlight is carried out to light harvesting.

And, adhere to analog bracket 4 in the side of fixed body 1 with identical height, thus by connecting frame 5 in the mode of one in conjunction with row or the fixed body 1 of all around arranging.

The solar module 3 that is attached to the inclined plane of above-mentioned fixed body 1 clamps to connect and maintains firm state after the connection holes inserting bolt to forming around with predetermined distance, thereby can stably carry out light harvesting to sunlight.

Therefore, arranging after fixed body 1 across the row that are partitioned into of 30～50cm according to field condition, in order being connected to each other between fixed body 1, after connecting frame 5 is close to analog bracket 4, connects to maintain with bolt or sheet wind etc. is not moved and the state of combination making.

And for fixed body 1 is all around connected, left and right is after fixed body 1 is arranged at interval forwards, backwards, to cross arrangement connecting frame 5 between fixed body 1, to be close to, analog bracket 4 is rear clamps connection with bolt or sheet.

Anchor post 14 is set so that above-mentioned one-tenth one is listed as or the fixed body 1 of connection all around does not rack away on the ground being positioned in the water surface, and form after retainer ring 13 on the top of above-mentioned anchor post 14 in the mode of giving prominence to, be connected and fix with the fixed body 1 before and after being positioned at by metal wire 11.

And, after cutting off the middle body of metal wire 11, connect at two ends of the metal wire 11 cutting off the metal wire clamping section 12 forming with a pair of nuts and bolt pattern of male and female and clamp and remove, make thus metal wire maintain tight state fixed body 1 is fixed.

The one-piece type fixed body 1 of above-mentioned solar components waterborne converts to make fixed body 1 to maintain the state floating according to water level, thereby can carry out light harvesting to sunlight.

Fig. 3 is the separation stereogram of the connection status of the fixed body in diagram solar components structure waterborne of the present invention, Fig. 4 is the combination stereogram of the connection status of the fixed body in diagram solar components structure waterborne of the present invention, and Fig. 5 is the vertical view of the connection status of diagram solar components structure waterborne of the present invention.

Solar components construction analog bracket 4 waterborne of the present invention forms pan 8, so that replace connecting frame 5 can be connected and fixed respectively between body 1, the top that is positioned at analog bracket 4 at the brace 6 of two ends formation pan 8 is come under overlapping state, hinge 7 is inserted to pan 8 and connect, thereby can rotate.

Therefore, coming by the way with row or after arranging fixed body 1 all around, making brace 6 between analog bracket 4, carry out hinge 7 connects, although thereby can move by wind etc., but owing to by brace 6, analog bracket 4 being fixed to maintain interval, thereby can prevent from forming shade at solar module 3.

Fig. 6 is the stereogram of the variation of diagram buoyancy fixed body of the present invention, and Fig. 7 is the cutaway view of pictorial image 6.Fig. 8 is the cutaway view that diagram is formed at the state that the distance maintaining projection of buoyancy fixed body of the present invention is close to.

The left and right side of solar components construction fixed body 1 waterborne of the present invention forms distance maintaining projection 10, and be arranged at the water surface with crosslinked 7 analog brackets 4 that are connected on the top of distance maintaining projection 10 of brace 6, brace and distance maintaining projection 10 maintain interval doubly, so that solar module 3 interferes with each other and do not produce shade, thereby there is the effect that improves generating efficiency.

And although not shown, the distance maintaining projection 10 that is formed at fixed body 1 forms interval in outstanding mode all around between fixed body 1.

And in the bottom of fixed body 1, built-in balance weight 9 is carried out the not impact of wind-engaging, can float with plumbness all the time as tumbler.

Fig. 9 a, Fig. 9 b are shown in solar components structure waterborne of the present invention the stereogram in conjunction with solar module with drawer type.

The sliding drawer portion 2 that is attached with above of the inclination of solar components construction fixed body 1 waterborne of the present invention.

Above-mentioned sliding drawer portion 2 forms open peristome with outer rim shape one side, and the state of the inner sustain through hole of outer rim is to carry out light harvesting to sunlight.

Therefore, because being inserts solar module 3 by the peristome of sliding drawer portion 2, the mode of track of the both sides by being formed at sliding drawer portion 2 being inserted separates and combination, thus easy assembling disassembling.

Figure 11 is the exploded perspective view that represents the solar components structure waterborne of the second embodiment of the present invention, the assembling stereogram of the embodiment that Figure 12 is Figure 11, the vertical view of the embodiment that Figure 13 is Figure 12, the cutaway view of the A-A line that Figure 14 is Figure 13.

As with reference to Figure 11 to Figure 13, the buoyancy fixed body 1 of other embodiment of the present invention is roughly hexahedron form, forms inclined plane 21 in the above, and can form protuberance with cross form in lower end.

And, the peripheral edge portion on above-mentioned inclined plane 21 form multiple along on the outstanding support portion 23 of side direction, be formed for solar module 3 is installed and the stage portion 22 that is ladder form at the upside of each above-mentioned support portion 23.

Install at above-mentioned solar module 3, while being fixed on above-mentioned stage portion 22, if above-mentioned stage portion 22 is disposed at the upper end of support portion 23, likely between the bottom surface of above-mentioned solar module 3 and above-mentioned inclined plane 21, form space, even if there is thus wave, seawater also can be along with 21Xiang bottom, inclined plane be by draining, thereby seawater can not arrive solar module 3.

Especially, get Geng Gao can be designed in support portion 23, thereby can prevent contacting between seawater and solar module 3 from source.

Can form inlet 24 on above-mentioned inclined plane 21, inject the weighing body (not shown) of sand, stone, metal derby etc. with the inside center part to fixed body 1.

Especially, the end of above-mentioned inlet 24 can be arranged at the ascending pipe 25 projecting upwards from above-mentioned inclined plane 21, flows into and make the position of above-mentioned inlet 24 higher than inclined plane 21 to block seawater to above-mentioned inlet 24.

And, as shown in Fig. 1 and Fig. 4, in order to seal above-mentioned inlet 24 completely, can also arrange in the end of above-mentioned ascending pipe 25 and open and close with lid 26.

Figure 15 represents the buoyancy fixed body of embodiment of Figure 11 and the stereogram of the released state of connector, Figure 16 is the stereogram that represents the bonding state of buoyancy fixed body and connector in the embodiment of Figure 15, and Figure 17 and Figure 18 are vertical view and the stereogram of the state that represents that the buoyancy fixed body of the embodiment of multiple Figure 11 connects.

As with reference to Figure 15 to Figure 18, the outside wall surface of above-mentioned fixed body 1, vertically to form, can form the track 27 that forms groove along above-below direction in this outside wall surface.Now, above-mentioned track 27 can be arranged at respectively 4 outside wall surface of above-mentioned fixed body 1.

And, can insert the connector 28 with specific length to above-mentioned track 27, now, above-mentioned track 27 makes groove open upper end, closed lower, thereby makes above-mentioned connector 28 insert and can move in the mode of sliding from the downward side direction of upside.

In the case, as shown in FIG. 17 and 18, while neatly configuring multiple fixed body 1 in left and right, the track 27 of each fixed body 1 relative to each other, under the relative state of so adjacent track 27, insert above-mentioned connector 28,, as same fixed body, can make multiple fixed body 1 integralization.

In order not make multiple each fixed bodies 1 easily separate mutually, the waist-level viewing section of above-mentioned track 27 can be "T"-shaped, in this case, if each track of adjacent fixed body is relative, become " work " shape, thereby the waist-level viewing section of above-mentioned connector 28 can be formed as " work " shape, with can with each track 27 combinations of adjacent fixed body.

But this is only exemplary, and the present invention does not limit the shape of track 27 and connector 28.

And, in the embodiment of Figure 11 to Figure 18,, be connected with the anchor post that is arranged at ground with metal wire as illustrated in Figure 10 with the interconnective multiple fixed bodies of connector 28, thereby make each fixed body convert to carry out lifting action according to water level, this is certain.

Figure 19 is the exploded perspective view that represents the terrestrial solar energy modular construction body of the third embodiment of the present invention, Figure 20 is the assembled state stereogram that represents the terrestrial solar energy modular construction body of the third embodiment of the present invention, and Figure 21 and Figure 22 are the cutaway view that represents the terrestrial solar energy modular construction body of the third embodiment of the present invention.

As with reference to Figure 19 and Figure 20, comprise fixed body 1 and support 30 for the first embodiment form that solar components is set on land.

Above-mentioned fixed body 1 can be the hexahedron that is roughly of upper face tilt, fixed solar battery component 3 on above-mentioned inclination.

Now, both sides on above-mentioned fixed body 1 form the open sliding drawer portion 2 of medial end relative to each other, solar module 2 can be inserted in inside to above-mentioned sliding drawer portion 2, thus can make solar module 3 be incorporated into fixed body 1 above.

Above-mentioned support 30 is the form that section probably becomes " " word, and be the form with the bar of specific length, form the first hole 31 contacting with the lower side of above-mentioned fixed body 1 and make screw etc. connect and fix in a side, contact in opposite side formation the second hole 32 that makes anchoring pile 33 connect and fix with ground.

Above-mentioned anchoring pile 33 can be the stake that connects the metal material with specific length of burying underground to ground downside on above-mentioned the second 32Lai Cong ground, hole, and rock etc. is buried, is fixed on to above-mentioned anchoring pile 33 underground by the mode of hitting or rotate.

In the situation that utilizing like this anchoring pile 33 and support 30 to fix fixed body 1, ground G, without being concrete, also can arrange solar module 3 even piling the common ground G of soil or sand.

With reference to Figure 21, box thread portion 34 is formed at the top at above-mentioned anchoring pile 33, can make to connect above-mentioned the second hole 32 with the bolt 35 of above-mentioned box thread portion 34 thread connection, in this case, first after anchoring pile 33 being fixed on to ground G, utilize support 30 can fix fixed body 1, thereby above-mentioned anchoring pile 33 and fixed body 1 can be set more easily.

With reference to Figure 22, in the case of adjusting the length or the depth of burying of above-mentioned anchoring pile 33, can separate predetermined distance from ground G above-mentioned fixed body 1 is set, above-mentioned fixed body 1 can be the floatage body 1a by foamed synthetic resin material forming, in this case, can utilize as required floatage body 1a to be arranged at sea or land.

Figure 23 is the exploded perspective view that represents the distressed structure of the terrestrial solar energy modular construction body of the third embodiment of the present invention, Figure 24 is the assembling stereogram that represents the distressed structure of the terrestrial solar energy modular construction body of the third embodiment of the present invention, is the structure for multiple above-mentioned fixed bodies 1 are set.

As with reference to Figure 23 and Figure 24, along multiple above-mentioned floatage body 1a of direction proper alignment all around, thereby multiple solar modules 3 can be set continuously.

For this reason, can utilize above-mentioned support 30 that each floatage body 1a is set, and as diagram, at the outstanding suspension hook 40 that forms in the side of each floatage body 1a, fixed strip 43 levels that make to have specific length connect each above-mentioned suspension hook 40 each floatage body 1a that can interfix.

Now, can form fixing hole 44 at a side end of each fixed strip 43, so that other fixed strips 43 that at right angles arrange with fixed strip 43 connect described fixing hole 44 and are interconnected and fixed.

The suspension hook 40 that is formed at above-mentioned floatage body 1a is arranged to detachable, to can arrange as required, for this reason, above-mentioned suspension hook is " Contraband " font, and when each end forms in conjunction with projection 41, side at above-mentioned floatage body 1a forms the engagement groove 42 that inserts above-mentioned combination projection 41, and in this case, above-mentioned suspension hook 40 can be installed and removed from floatage body 1a.

Figure 25 is the exploded perspective view that represents the terrestrial solar energy modular construction body of the fourth embodiment of the present invention, Figure 26 is the assembling stereogram that represents the terrestrial solar energy modular construction body of the fourth embodiment of the present invention, utilize the structure of above-mentioned support 30 identical with the explanation of the embodiment of Figure 19 and Figure 20, thereby omit its repeat specification.

As with reference to Figure 25 and Figure 26, can project upwards multiple support portions 23 in the outer rim on the inclined plane of above-mentioned floatage body 1a 21, can form in each above-mentioned support portion 23 stage portion 22 of installing and support above-mentioned solar module 3, in this case, space is used in the ventilation that forms regulation between inclined plane 21 and solar module 3.

Figure 27 is the exploded perspective view that represents the distressed structure of the terrestrial solar energy modular construction body of the fourth embodiment of the present invention, and Figure 28 is the assembling stereogram that represents the distressed structure of the terrestrial solar energy modular construction body of the fourth embodiment of the present invention.

With reference to Figure 27 and Figure 28, along multiple above-mentioned floatage body 1a of direction proper alignment all around, thereby multiple solar modules 3 can be set continuously.

For this reason, there is the track 27 that forms groove along above-below direction in the outside wall surface of above-mentioned floatage body 1a, and can insert from the top of above-mentioned track 27 to downside connector 28, now, above-mentioned connector 28 is formed at other track 27 combinations simultaneously of the outside wall surface of floatage body 1a with adjacent other that comprise above-mentioned track 27, thereby can interconnect multiple floatage body 1a.

For this reason, the waist-level viewing section of above-mentioned track 27 is "T"-shaped state, and the waist-level viewing section of above-mentioned connector 28 can be formed as " work " form, can be incorporated into each track 27 of adjacent floatage body.

And as mentioned above, at the outstanding suspension hook 40 that forms in the side of each floatage body 1a, fixed strip 43 levels that also can make to have specific length connect each above-mentioned suspension hook 40 each floatage body 1a that can interfix.

In this case, as shown in figure 28, configure multiple floatage body 1a during all around, utilize above-mentioned suspension hook 40 and fixed strip 43 to mutually combine in the outer rim of outermost, and the floatage body 1a that is disposed at inner side, can not carry out adjacent with it multiple floatage body 1a by above-mentioned connector 28 by the fixing floatage body 1a of above-mentioned fixed strip 43 and interfix.

Relevant being illustrated of preferred embodiment that more than although explanation relates in above-mentioned to the present invention, but one skilled in the art of the present invention easily cognition can carry out other multiple amendment and distortion without departing from the spirit and scope in the present invention, and the scope that this change and amendment all belong to claims is apparent.

Claims (9)

1. a solar module structure, is characterized in that,

Comprise:

On formation inclined plane, upper end and the fixed body that comprises the floatage body that can float at the water surface, and

Be arranged at the solar module on above-mentioned inclined plane,

Above-mentioned solar module is fixed on above-mentioned inclined plane by bolt, or slides and be inserted in the inside of the sliding drawer portion forming in the both sides on above-mentioned inclined plane, or places the each stage portion that is fixed on the multiple support portions that project upwards from the surrounding on above-mentioned inclined plane.

2. solar module structure according to claim 1, it is characterized in that, side at above-mentioned fixed body arranges analog bracket, multiple above-mentioned fixed bodies are to form that the mode at interval forms a line or to arrange all around, connect connecting frame at each above-mentioned analog bracket, multiple fixed bodies are interconnected, and the fixed body that is positioned at marginal position is connected with the anchor post that is arranged at ground by metal wire, makes each fixed body carry out lifting action according to the conversion of water level.

3. solar module structure according to claim 1, it is characterized in that, side at above-mentioned fixed body arranges the analog bracket that is formed with pan, multiple above-mentioned fixed bodies are to form that the mode at interval forms a line or to arrange all around, for to connecting between each above-mentioned analog bracket, and it is overlapping and insert connecting hinge to each pan that two ends, left and right are formed with to the brace of pan, each fixed body is connected, the fixed body that is positioned at marginal position is connected with the anchor post that is arranged at ground by metal wire, make each fixed body carry out lifting action according to the conversion of water level.

4. solar module structure according to claim 1, it is characterized in that, also comprise track and connector, wherein, described track is formed on the vertical outside wall surface of above-mentioned fixed body, and be formed with groove along above-below direction, described connector interconnects multiple fixed bodies with the form that the track of outside wall surface that is formed at other adjacent fixed bodies combines with can be from the downward combination of upside of above-mentioned track time, the fixed body that is positioned at marginal position is connected with the anchor post that is arranged at ground by metal wire, can convert to make each fixed body to carry out lifting action according to water level.

5. according to the solar module structure described in any one in claim 2 to 4, it is characterized in that, be connected to metal wire between above-mentioned fixed body and above-mentioned anchor post in conjunction with metal wire clamping section, can clamp and remove metal wire.

6. solar module structure according to claim 1, is characterized in that, makes the anchoring pile with specific length that the support that is arranged at above-mentioned fixed body is connected and be buried underground from ground to ground downside, thereby above-mentioned fixed body can be arranged to land.

7. solar module structure according to claim 6, is characterized in that, forms box thread portion on the top of above-mentioned anchoring pile, connects above-mentioned support fixing with the bolt of above-mentioned box thread portion thread connection.

8. solar module structure according to claim 1, is characterized in that, forms inlet on above-mentioned inclined plane, injecting weighing body to the inner side of fixed body, or in the built-in balance weight in the inside of fixed body.

9. solar module structure according to claim 1, it is characterized in that, form suspension hook in the side of each fixed body in mode that can dismounting, with along multiple above-mentioned fixed bodies of direction proper alignment all around, the fixed strip with specific length flatly connects each above-mentioned suspension hook and each fixed body that can interfix.