CN102916062B - Support device for solar module - Google Patents

Abstract

A supporting device of a solar module is used for bearing at least one solar module. The supporting device comprises at least one bearing unit and at least one supporting frame. The bearing unit is used for bearing the solar module. The supporting frame is connected to the bearing unit and comprises a body, a positioning unit and a connecting unit. The body has a first end surface. The positioning unit is arranged on the body and comprises a plurality of positioning grooves. The extending directions of the positioning grooves respectively form different included angles with the first end surface. The connecting unit is connected to the bearing unit and is arranged in one of the positioning grooves of the positioning unit. The connecting unit is arranged in any one of the positioning grooves, so that the bearing unit has an inclination angle.

Description

The bracing or strutting arrangement of solar energy module

Technical field

The present invention relates to a kind of bracing or strutting arrangement of solar energy module, and in particular to a kind of support frame device structure in order to carry solar energy module.

Background technology

Current many solar energy module mounting systems form mounting system mainly with slide rail (rail) in conjunction with supporting seat and other parts, and solar energy module is fixed on slide rail with support and screw again.In order to can support solar plate, the length of slide rail must be enough, and multiple slide rail must be used to combine to gain in strength and fixed solar module.Therefore the material cost of whole mounting system is made to increase.In addition, the solar energy module framework of traditional mounting system, many frame edge burrow make screw can through and be combined with support or slide rail, if the screw hole on framework has excessive tolerance, or the position of screw hole is inconsistent, cannot be fixed causing solar energy module by certain.And using screw by mode fixing to slide rail, support, framework or other parts, user must spend the more time to turn tight screw, therefore too increases the time of installation.How to improve for the problems referred to above, one of emphasis that reality is paid close attention to for the art person.

Summary of the invention

An object of the present invention is the bracing or strutting arrangement being to provide a kind of solar energy module, in order to carry and to support at least one solar energy module.

For reaching above-mentioned purpose, the present invention proposes a kind of bracing or strutting arrangement of solar energy module, in order to carry at least one solar energy module.Bracing or strutting arrangement comprises at least one load bearing unit and at least one bracing frame.Load bearing unit is in order to carry solar energy module.Bracing frame is connected to load bearing unit, and bracing frame comprises body, positioning unit and linkage unit.Body has the first end face.Positioning unit is arranged at this body, and positioning unit comprises multiple location notch.The bearing of trend of these location notchs has different angles between the first end face respectively.Linkage unit is connected to load bearing unit, and linkage unit be arranged at positioning unit these location notchs one of them.Utilize linkage unit to be arranged at arbitrary location notch in these location notchs, and then make load bearing unit have angle of inclination.

In one embodiment of this invention, these location notchs of above-mentioned positioning unit comprise the first location notch and the second location notch, there is between first location notch and the first end face of body the first angle, and there is between the second location notch and the first end face of body the second angle, the angle of the first angle is greater than the angle of the second angle, when linkage unit is arranged at the first location notch, load bearing unit has one first angle of inclination, when linkage unit is arranged at the second location notch, load bearing unit has the second angle of inclination, and the first angle of inclination is greater than the second angle of inclination.

In one embodiment of this invention, above-mentioned body can also more comprise the first hollow cylinder and fixed head.First hollow cylinder has the first end face and second end face relative with the first end face.Fixed head has surface and multiple block.Surface is engaged in the second end face of the first hollow cylinder, and these blocks are connected to surface, and these blocks are around the first open column shape body.

In one embodiment of this invention, the bracing or strutting arrangement of above-mentioned solar energy module, more can also comprise loading plate and at least one fixed block.Loading plate has through hole and the storage tank around through hole.Storage tank is relative to these blocks of fixed head.Through hole makes these blocks of fixed head be placed in storage tank with carrying out wearing for the first hollow cylinder.Fixed block is arranged at loading plate, and fixed block is in order to fixing loading plate.

In one embodiment of this invention, above-mentioned positioning unit more comprises supporting part and the second hollow cylinder.Supporting part has relative end face and bottom surface.The bottom surface of supporting part is in order to be resisted against the first end face of the first hollow cylinder, and these location notchs are positioned at the end face of supporting part.Second hollow cylinder is arranged at the bottom surface of supporting part, and the first hollow cylinder is in order to be sheathed on the second hollow cylinder.

In one embodiment of this invention, the bracing or strutting arrangement of above-mentioned solar energy module more can also comprise the body of rod.And the first hollow cylinder has the first relative perforating and the second perforating.Second hollow cylinder has the 3rd relative perforating and the 4th perforating.Wherein the first perforating and the 3rd perforating mutually stacked.Second perforating and the 4th perforating mutually stacked.The body of rod is arranged in the first perforating, the second perforating, the 3rd perforating and the 4th perforating, and then the first hollow cylinder and the second hollow cylinder are interfixed.

In one embodiment of this invention, the second above-mentioned hollow cylinder has more the 5th relative perforating and the 6th perforating, 5th perforating is adjacent to the 3rd perforating, 6th perforating is adjacent to the 4th perforating, and the beeline between the 5th perforating and the 3rd perforating equals the beeline between six perforatings and the 4th perforating.

In one embodiment of this invention, the bracing or strutting arrangement of above-mentioned solar energy module more can also comprise the first fixture and the second fixture.And cylinder has the first holddown groove and the second holddown groove.First hollow cylinder and the second hollow cylinder are between the first holddown groove and the second holddown groove.First fixture is fixed on the first holddown groove, and the second fixture is fixed on the second holddown groove.

In one embodiment of this invention, above-mentioned load bearing unit has framework and plates.Framework is in order to carry solar energy module.Plates are connected at least one side of framework, and plates have at least one first open-work, and linkage unit comprises first module main body, the first protuberance and connection bracket.First module main body has the side of relative end face and bottom surface and at least one adjacent end face and bottom surface.First protuberance protrudes from the bottom surface of first module main body.First protuberance be arranged at positioning unit these location notchs one of them.Connection bracket is arranged at the side of unit main body, and connection bracket has the second protuberance.Connection bracket is arranged in the first open-work of plates with the second protuberance, and then makes connection bracket be fixed on plates.

In one embodiment of this invention, above-mentioned first module main body has more the first locking hole.First locking hole is arranged at the end face of first module main body, and linkage unit can also more comprise second unit main body and locking hole.Second unit main body is stacked and placed on first module main body.Second unit main body has the second open-work and the second locking hole.Second open-work is relative to the first open-work, and the second protuberance is arranged in the second open-work.Second locking hole is relative to the first locking hole.Locking part is arranged in the first locking hole and the second locking hole, and then makes first module main body and second unit main body clamp the plates of load bearing unit.

In one embodiment of this invention, the quantity of above-mentioned at least one load bearing unit is multiple, and in these load bearing units, these first open-works of adjacent two load bearing units are stacked each other.And the second protuberance of connection bracket is arranged in these the first open-works.First module main body and second unit main body clamp these plates of these load bearing units.

In one embodiment of this invention, the quantity of above-mentioned at least one bracing frame is multiple, and these bracing frames comprise multiple first bracing frame and multiple second bracing frame.These first bracing frames are arranged along the first straight line.These second bracing frames are arranged along the second straight line.First straight line parallel is in the second straight line, and the height of these the first bracing frames is greater than the height of these the second bracing frames.

In one embodiment of this invention, above-mentioned these first bracing frame is Collapsible structure.

The bracing or strutting arrangement of the solar energy module described in the embodiment of the present invention, it comprises at least one load bearing unit and at least one bracing frame.Wherein bracing frame comprises body, positioning unit and linkage unit.Positioning unit comprises multiple location notch, and the bearing of trend of these location notchs has different angles respectively and between the first end face of body.Linkage unit be connected to load bearing unit and be arranged at positioning unit these location notchs one of them.When linkage unit is arranged on the arbitrary location notch in these location notchs, load bearing unit in response to these location notchs bearing of trend between the first end face, there is different angles and change different angles of inclination.

A kind of bracing or strutting arrangement of solar energy module is also disclosed in one embodiment of the invention, the complexity of bracing or strutting arrangement assembling can be reduced, the bracing or strutting arrangement of this solar energy module, in order to carry at least one solar energy module, bracing or strutting arrangement comprises: at least one load bearing unit, in order to carry solar energy module and at least one bracing frame, be connected to load bearing unit, bracing frame comprises: body, loading plate, positioning unit and linkage unit.Body, has one first end face, comprising: the first hollow cylinder, has this first end face and second end face relative with this first end face; Fixed head, have surface and multiple block, surface is engaged in the second end face of the first hollow cylinder, and those blocks are connected to this surface, and those blocks are around this first open column shape body.Loading plate, have pass through aperture and around the storage tank of this through hole, this through hole makes those blocks of this fixed head be placed in this storage tank with for this first hollow cylinder carries out wearing; Positioning unit, is arranged at this body, and this positioning unit comprises at least one location notch, and linkage unit is connected to this load bearing unit, and this linkage unit be arranged at this positioning unit those location notchs one of them.By the combination of multiple block and multiple cell body, and the downforce of fixed head, can reduce the fixing degree of difficulty of bracing or strutting arrangement, this outer stationary plates can also increase at least one fixed block, to increase its robustness by gravity.

Also disclose a kind of solar energy system in one embodiment of the invention and comprise bracing or strutting arrangement at least one solar energy module and the various embodiments described above, in order to carry at least one solar energy module.

Describe the present invention below in conjunction with the drawings and specific embodiments, but not as a limitation of the invention.

Accompanying drawing explanation

Fig. 1 illustrates as the vertical body structure schematic diagram of the bracing or strutting arrangement of the solar energy module described in one embodiment of the invention;

Fig. 2 illustrates the components broken down schematic diagram for the bracing frame shown in Fig. 1;

Fig. 3 illustrate for the body shown in Fig. 2 be connected with positioning unit after cross-sectional schematic;

Fig. 4 A illustrates as the body shown in Fig. 2 and loading plate assemble schematic diagram;

Fig. 4 B illustrates as Fig. 4 A is along the cross-sectional schematic of A-A line segment;

Fig. 5 illustrates the perspective view for the load bearing unit described in the present embodiment;

Fig. 6 illustrates as the linkage unit shown in Fig. 2 and load bearing unit assemble schematic diagram;

Fig. 7 illustrate for the body of the bracing frame shown in Fig. 2 and positioning unit assemble after cross-sectional schematic;

Fig. 8 illustrates the schematic side view of the bracing or strutting arrangement for the solar energy module shown in Fig. 1;

Fig. 9 A illustrates the running schematic diagram of the bracing or strutting arrangement conversion differing tilt angles for the solar energy module described in the present embodiment;

Fig. 9 B illustrates the running schematic diagram of the bracing or strutting arrangement conversion differing tilt angles for the solar energy module described in the present embodiment;

Figure 10 illustrates the enlarged diagram for the linkage unit shown in Fig. 2;

Figure 11 illustrates the cross-sectional schematic of the bracing frame for the linearly L4 setting shown in Fig. 8 and Fig. 9 B.

Wherein, Reference numeral

1: the bracing or strutting arrangement of solar energy module

11: load bearing unit

12: bracing frame

13: loading plate

14: fixed block

15: the body of rod

16,17: fixture

100: solar energy module

110: framework

111: plates

112: side

113: open-work

121: body

122: positioning unit

123: linkage unit

130: through hole

131: storage tank

132: retaining wall

133: bottom

134: top

151,152: holddown groove

1210: the first end faces

1211: the first hollow cylinders

1211a, 1211b: perforating

1212: fixed head

1213: the second end faces

1214: surface

1215: block

1220,1221: location notch

1222: supporting part

1223: the second hollow cylinders

1223a, 1223b, 1223c, 1223d: perforating

1224,1231a: end face

1225,1231b: bottom surface

1231: first module main body

1231c: side

1226,1227,1231d, 1232b: locking hole

1232: second unit main body

1232a: open-work

1233: the first protuberances

1234: connection bracket

1234a: the second protuberance

1228,1235: locking part

1310: opening

L1, L2, L7, L8: bearing of trend

L3, L4: straight line

L5, L6, A, B: line segment

θ 1, θ 2, θ 5, θ 6: angle

θ 3, θ 4: angle of inclination

H1, H2: highly

Embodiment

Below in conjunction with accompanying drawing, structural principle of the present invention and operation principle are described in detail:

Please refer to Fig. 1 and Fig. 2, Fig. 1 is the perspective view of the bracing or strutting arrangement of the solar energy module described in one embodiment of the invention.Fig. 2 is the components broken down schematic diagram of the bracing frame 12 shown in Fig. 1.As shown in Figure 1, the bracing or strutting arrangement 1 of the solar energy module described in the present embodiment comprises at least one load bearing unit 11 and at least one bracing frame 12 (load bearing unit 11 shown in Fig. 1 is such as multiple with bracing frame).Load bearing unit 11 is in order to carry solar energy module 100, and bracing frame 12 is connected to load bearing unit 11.Again as shown in Figure 2, bracing frame 12 comprises body 121, positioning unit 122 and linkage unit 123.Body 121 has the first end face 1210.Positioning unit 122 is arranged at body 121, and positioning unit 122 comprises multiple location notch 1220,1221.And bracing frame 12 is connected to load bearing unit 11 with linkage unit 123, and linkage unit 123 is arranged at these location notchs 1220,1221 of positioning unit 122 one of them.In addition, the quantity of the location notch shown in Fig. 2 is such as two (location notchs 1220,1221), and be only one embodiment of the invention, the present invention is not as limit.In other embodiments, the quantity of location notch is such as two or more.

Hold above-mentioned, and please refer to Fig. 2 and Fig. 3, Fig. 3 for the body 121 shown in Fig. 2 be connected with positioning unit 122 after cross-sectional schematic.As shown in Figure 3, bearing of trend L1, L2 of the location notch 1220,1221 of the positioning unit 122 described in the present embodiment have different angle theta 1, θ 2 respectively and between the first end face 1210 of body 121.Utilize linkage unit 123 to be arranged in location notch 1220 or location notch 1221, and then different angles of inclination can be had after load bearing unit 11 is coupled from linkage unit 123.And be arranged at the execution mode in these location notchs 1220 or location notch 1221 with differing tilt angles about load bearing unit 11 in response to linkage unit 123 and will be described in back segment.

Hold above-mentioned, and referring again to Fig. 2, the body 121 of the bracing frame 12 described in the present embodiment more can also comprise the first hollow cylinder 1211 and fixed head 1212.First hollow cylinder 1211 has the first end face 1210 and second end face 1213 relative with the first end face 1210.Fixed head 1212 has surface 1214 and multiple block 1215.Surface 1214 is engaged in the second end face 1213 of the first hollow cylinder 1211.These blocks 1215 are connected to surface 1214, and these blocks 1215 are around the first hollow cylinder 1211.

Hold above-mentioned, and referring again to Fig. 2, the positioning unit 122 of the bracing frame 12 described in the present embodiment more can also comprise supporting part 1222 and the second hollow cylinder 1223.The end face 1224 that supporting part 1222 tool is relative and bottom surface 1225.The bottom surface 1225 of supporting part 1222 is in order to be resisted against the first end face 1210 of the first hollow cylinder 1211, and these location notchs 1220,1221 are positioned at the end face 1224 of supporting part 1222.And the second hollow cylinder 1223 is arranged at the bottom surface 1225 of supporting part 1222.Positioning unit 122 utilizes the second hollow cylinder 1223 mutually sheathed with the first hollow cylinder 1221 of body 121.

Hold above-mentioned, and referring again to Fig. 2 and Figure 10, Figure 10 enlarged diagram for the linkage unit 123 shown in Fig. 2.As shown in Fig. 2 and Figure 10, the linkage unit 123 of the bracing frame 12 described in the present embodiment can comprise first module main body 1231, second unit main body 1232, first protuberance 1233, connection bracket 1234 and locking part 1235.First module main body 1231 has the side 1231c of relative end face 1231a and bottom surface 1231b and at least one adjacent end face 1231a and bottom surface 1231b, and the end face 1231a of first module main body 1231 has more locking hole 1231d.Second unit main body 1232 is stacked and placed on first module main body 1231.Second unit main body 1232 has open-work 1232a and locking hole 1232b.The locking hole 1232b of second unit main body 1232 is relative to the locking hole 1232d of first module main body 1231.First protuberance 1233 protrudes from the bottom surface 1231b of first module main body 1231, and first module main body 1231 is inserted in wherein one of the location notch 1220,1221 of positioning unit 122 with the first protuberance 1233.Connection bracket 1234 is arranged at the side 1231c of first module main body 1231, and this connection bracket 1234 has the second protuberance 1234a, and connection bracket 1234 is connected with load bearing unit 11 with the second protuberance 1234a.Locking part 1235 is arranged in the locking hole 1231d of first module the main body 1231 and locking hole 1232b of second unit main body 1232, and then first module main body 1231 and second unit main body 1232 are fixed each other.And locking part 1235 is such as the combination of screw or screw and nut, but the present invention is not as limit.In addition, the linkage unit 123 described in this enforcement is such as deep bead (not showing in fig. 2) can be set.

Hold above-mentioned, as shown in Figure 2 and Figure 3, the outside of the location notch 1220,1221 of the positioning unit 122 described in the present embodiment additionally can also have locking hole 1226,1227.For example, when the first protuberance 1233 of linkage unit 123 is inserted in location notch 1221, another locking part 1228 can be utilized to be arranged in locking hole 1227, locking part 1228 is made to be resisted against the first protuberance 1233, thus, what linkage unit 123 just can be more firm is fixed in location notch 1221.In like manner, when the first protuberance 1233 of linkage unit 123 is inserted in location notch 1220, then locking part 1228 is arranged in locking hole 1226.And the mode be fixed by locking part 1228 between the first protuberance 1233 of linkage unit 123 and these location notchs 1220,1221 is only one embodiment of the invention, the present invention is not as limit.In other embodiments, do not need to utilize locking part 1228, when the first protuberance 1233 of linkage unit 123 is inserted in these location notchs 1220,1221, just there is fixing effect.Hold above-mentioned, and referring again to Fig. 1, Fig. 2, Fig. 4 A and Fig. 4 B, Fig. 4 A for the body 121 shown in Fig. 2 assembles schematic diagram with loading plate 13.Fig. 4 B is the cross-sectional schematic of Fig. 4 A along AA line segment.As shown in Figures 1 and 2, the bracing or strutting arrangement 1 of the solar energy module described in the present embodiment more can also comprise loading plate 13 and at least one fixed block 14.Loading plate 13 has through hole 130, storage tank 131 and retaining wall 132.First hollow cylinder 1211 of through hole 130 for body 121 wears.Storage tank 131 is around through hole 130, and the opening of storage tank 131

1310 bottoms 133 being opened in loading plate 13.Storage tank 131 open 1310 relative to these blocks 1215 of the fixed head 1212 of body 121.As shown in Figure 4 A and 4 B shown in FIG., when the first hollow cylinder 1211 of body 121 is arranged in through hole 130 upward by the bottom 133 of loading plate 13, these blocks 1215 of fixed head 1212 are placed in the storage tank 131 of loading plate 13, body 121 and loading plate 13 are interfixed, and the advantage of above-mentioned assembling mode is, be placed in these blocks 1215 in the storage tank 131 of loading plate 13 and reach fixing object, considerable built-up time can be saved.In addition, the bracing or strutting arrangement 1 carrying solar energy module 100 is normally installed in the place of sunlight abundance, such as the attic of mansion or the roof of household, and loading plate described in this enforcement 13 and effect of fixed block 14 are, the bracing or strutting arrangement 1 of solar energy module can utilize firm being installed in the attic of mansion or the roof of household and can not toppling over easily or landing of loading plate 13 and fixed block 14.In other embodiments, the fixed head 1212 of bracing frame body 121 also directly can be locked on mansion attic or household roof by loading plate 13 and fixed block 14 by the bracing or strutting arrangement 1 of solar energy module.

Again as shown in Figure 1, fixed block 14 is arranged at the top 134 of loading plate 13, and fixed block 14 is main in order to fixing loading plate 13, and the retaining wall 132 of loading plate 13 is main in order to stop fixed block 14, prevents fixed block 14 landing from leaving outside loading plate 13.In addition, the visual actual conditions of quantity being arranged at the fixed block 14 on loading plate 13 are arranged, and the quantity of fixed block 14 is such as be one or more, but the present invention is not limited with specific quantity.

Please refer to Fig. 5 and Fig. 6, Fig. 5 is the perspective view of the load bearing unit described in the present embodiment, and Fig. 6 assembles schematic diagram for the linkage unit 123 shown in Fig. 2 and load bearing unit 11.As shown in Figure 5, the load bearing unit 11 described in the present embodiment has framework 110 and plates 111.Framework 110 is in order to carry solar energy module 100 (as shown in Figure 1).Plates 111 are connected at least one side 112 of framework 110, and plates 111 have at least one open-work 113.Please refer to Fig. 6 again, the connection bracket 1234 of the first main unit 1231 described in the present embodiment wears the open-work 1232a of the second main unit 1232 again with the open-work 113 that the second protuberance 1234a is first arranged in plates 111.The locking hole 1231d of first module the main body 1231 and locking hole 1232b of second unit main body 1232 is arranged in again by locking part 1235, and make first module main body 1231 and second unit main body 1232 clamp the plates 111 of load bearing unit 11, and then linkage unit 123 and load bearing unit 11 are interconnected and fixed.In addition, be the situation that linkage unit 123 connects two load bearing units 11 simultaneously in figure 6, namely the plates 111 of two load bearing units 11 are stacked each other, make the open-work 113 of plates 111 also stacked each other, and the connection bracket 1234 of the first main unit 1231 passes the open-work 113 of two plates 111 with the second protuberance 1234a simultaneously, make first module main body 1231 and second unit main body 1232 clamp the plates 111 of two load bearing units 11 simultaneously, and the plates 111 of two load bearing units 11 are stacked each other also can increase the support force of framework 110 and extra intensity.And in other embodiments, linkage unit 123 also only can be connected to a load bearing unit 11.

Please refer to Fig. 2 and Fig. 7, body that Fig. 7 is the bracing frame 12 shown in Fig. 2 121 and positioning unit 122 assemble after cross-sectional schematic.As shown in Fig. 2 and Fig. 7, the bracing or strutting arrangement 1 of the solar energy module described in the present embodiment more can also comprise the body of rod 15, fixture 16,17.First hollow cylinder 1211 of body 121 has relative perforating 1211a, 1211b.And the second hollow cylinder 1223 of positioning unit 122 has relative perforating 1223a, 1223b.When the first hollow cylinder 1211 is sheathed on the second hollow cylinder 1223, perforating 1211a and perforating 1223a is mutually stacked, and perforating 1211b can be mutually stacked with perforating 1223b.The body of rod 15 is arranged in perforating 1211a, 1211b, 1223a, 1223b, and then fixes the first hollow cylinder 1211 and the second hollow cylinder 1223.And the both sides of the body of rod 15 have holddown groove 151,152 respectively.After the body of rod 15 is arranged in perforating 1211a, 1211b, 1223a, 1223b, the first hollow cylinder 1221 and the second hollow cylinder 1223 can between holddown grooves 151,152.And fixture 16,17 is individually fixed in holddown groove 151,152, the body of rod 15 can not be skidded off easily from perforating 1211a, 1211b, 1222a, 1222b and come off.Fixture 16,17 described in the present embodiment is such as C type clasp, but the present invention is not as limit.In other embodiments, also can by being such as the holddown groove 151,152 that the two ends of metal material refining bar are fastened on the body of rod 15 respectively, can reach the body of rod 15 equally can not skid off the effect come off easily from perforating 1211a, 1211b, 1222a, 1222b.

Please refer to Fig. 8, the schematic side view of its bracing or strutting arrangement 1 being the solar energy module shown in Fig. 1.As shown in Figure 8, the quantity of the bracing frame 12 described in the present embodiment is multiple, and these bracing frames 12 comprise the bracing frame 12 arranged along straight line L3 and the bracing frame 12 arranged along straight line L4.Height wherein along the bracing frame 12 of straight line L4 setting is such as the height being greater than the bracing frame 12 arranged along straight line L3.In addition, as shown in figure 11, along the structure example Collapsible structure in this way of the bracing frame 12 that straight line L4 is arranged, structure along the bracing frame 12 of straight line L4 setting is roughly similar to the bracing frame 12 arranged along straight line L3, difference is, the second hollow cylinder 1223 along the bracing frame 12 of straight line L4 setting more can have another and organize relative perforating 1223c and perforating 1223d.Perforating 1223c, 1223d are respectively adjacent to perforating 1223a, 1223b, and the beeline between perforating 1223c and perforating 1223a equals the beeline between perforating 1223d and perforating 1223b.As shown in the figure, the second hollow cylinder 1223 can move up and down between line segment A and line segment B.When the second hollow cylinder 1223 is stretched to the position of line segment A (namely perforating 1211a and 1223a stacked, position that 1211b and 1223b is mutually stacked mutually), the body of rod 15 is arranged in perforating 1211a, 1211b, 1223a, 1223b and is fixed.When the position of line segment B is down in the second hollow cylinder 1223 contracting (namely perforating 1211a and 1223c stacked, position that 1211b and 1223d is mutually stacked mutually), the body of rod 15 is arranged in perforating 1211a, 1211b, 1223c, 1223d and is fixed, and then can adjust the height of the bracing frame 12 arranged along straight line L4.

Please refer to Fig. 3, Fig. 8 and Fig. 9 A and Fig. 9 B, the bracing or strutting arrangement that Fig. 9 A and Fig. 9 B is the solar energy module described in the present embodiment converts the running schematic diagram of differing tilt angles.As shown in Figure 3, between the bearing of trend L1 of location notch 1220 and the first end face 1210 of body 121, there is angle theta 1, and there is between the bearing of trend L2 of location notch 1221 and the first end face 1210 of body angle theta 2, the angle of angle theta 1 is such as the angle being greater than angle theta 2.As shown in Figure 9 A, when the linkage unit 123 of the bracing frame 12 arranged along straight line L3 (as shown in Figure 8) is separately positioned on location notch 1221 with the linkage unit 123 of the bracing frame 12 arranged along straight line L4 (as shown in Figure 8), load bearing unit 11 has tilt angle theta 3, the angle of tilt angle theta 3 namely between load bearing unit 11 and line segment L5, and also there is angle theta 5 simultaneously between load bearing unit 11 and the bearing of trend L7 of bracing frame 12 arranged along straight line L3.As shown in Figure 9 B, when the linkage unit 123 of the bracing frame 12 arranged along straight line L3 (as shown in Figure 8) is separately positioned on location notch 1220 with the linkage unit 123 of the bracing frame 12 arranged along straight line L4 (as shown in Figure 8), the bracing frame 12 arranged along straight line L4 is stretched to height H 2 by height H 1, load bearing unit 11 is made to have tilt angle theta 4, the angle of tilt angle theta 4 namely between load bearing unit 11 and line segment L6, and also there is angle theta 6 simultaneously between load bearing unit 11 and the bearing of trend L8 of bracing frame 12 arranged along straight line L3.And tilt angle theta 4 is greater than tilt angle theta 3.When tilt angle theta 4 is greater than tilt angle theta 3, the angle theta 6 between load bearing unit 11 and the bearing of trend L8 of bracing frame 12 arranged along straight line L3 is greater than angle theta 5.

In sum, the bracing or strutting arrangement of the solar energy module described in the embodiment of the present invention, it comprises at least one load bearing unit and at least one bracing frame.Wherein bracing frame comprises body, positioning unit and linkage unit.Positioning unit comprises multiple location notch, and the bearing of trend of these location notchs has different angles respectively and between the first end face of body.Linkage unit be connected to load bearing unit and be arranged at positioning unit these location notchs one of them.When linkage unit is arranged on the arbitrary location notch in these location notchs, load bearing unit in response to these location notchs bearing of trend between the first end face, there is different angles and change different angles of inclination.In addition, the bracing or strutting arrangement of the solar energy module described in the embodiment of the present invention also has the following advantages:

1. the assembling between each component of the bracing or strutting arrangement of the solar energy module described in the embodiment of the present invention is assembled perhaps via the mode of engaging, in prior art, use a large amount of locking part to carry out the mode of assembling, the bracing or strutting arrangement of the solar energy module described in the embodiment of the present invention obviously can save more built-up time.

2. the bracing or strutting arrangement of the solar energy module described in the embodiment of the present invention, its bracing frame first can carry out pre-assembled in factory, therefore, only bracing frame and other component (as loading plate and load bearing unit) must be carried out simply combine and can use at once at the scene.

Certainly; the present invention also can have other various embodiments; when not deviating from the present invention's spirit and essence thereof; those of ordinary skill in the art are when making various corresponding change and distortion according to the present invention, but these change accordingly and are out of shape the protection range that all should belong to the claim appended by the present invention.

Claims (15)

1. a bracing or strutting arrangement for solar energy module, in order to carry at least one solar energy module, is characterized in that, this bracing or strutting arrangement comprises:

At least one load bearing unit, in order to carry this solar energy module; And

At least one bracing frame, is connected to this load bearing unit, and this bracing frame comprises:

One body, has one first end face;

Locating unit, is arranged at this body, and this positioning unit comprises multiple location notch, and a bearing of trend of those location notchs has different angles respectively between this first end face; And

One linkage unit, is connected to this load bearing unit, and this linkage unit be arranged at this positioning unit those location notchs one of them, utilize this linkage unit to be arranged at arbitrary location notch in those location notchs, and then make this load bearing unit have an angle of inclination.

2. the bracing or strutting arrangement of solar energy module according to claim 1, it is characterized in that, those location notchs of this positioning unit comprise one first location notch and one second location notch, between this first end face of this first location notch and this body, there is one first angle, and there is between this first end face of this second location notch and this body one second angle, the angle of this first angle is greater than the angle of this second angle, when this linkage unit is arranged at this first location notch, this load bearing unit has one first angle of inclination, when this linkage unit is arranged at this second location notch, this load bearing unit has one second angle of inclination, this first angle of inclination is greater than this second angle of inclination.

3. the bracing or strutting arrangement of solar energy module according to claim 1, is characterized in that, this body more comprises:

One first hollow cylinder, has this first end face and second end face relative with this first end face; And

One fixed head, have a surface and multiple block, this surface is engaged in this second end face of this first hollow cylinder, and those blocks are connected to this surface, and those blocks are around this first hollow cylinder.

4. the bracing or strutting arrangement of solar energy module according to claim 3, is characterized in that, more comprises:

One loading plate, have pass through aperture and around the storage tank of this through hole, this through hole makes those blocks of this fixed head be placed in this storage tank with for this first hollow cylinder carries out wearing; And

At least one fixed block, in order to be arranged at this loading plate, to fix this loading plate.

5. the bracing or strutting arrangement of solar energy module according to claim 3, is characterized in that, this positioning unit more comprises:

One supporting part, has a relative end face and a bottom surface, and this bottom surface of this supporting part is in order to be resisted against this first end face of this first hollow cylinder, and those location notchs are positioned at the end face of this supporting part; And

One second hollow cylinder, is arranged at this bottom surface of supporting part, and this first hollow cylinder is in order to be sheathed on this second hollow cylinder.

6. the bracing or strutting arrangement of solar energy module according to claim 5, it is characterized in that, more comprise a body of rod, and this first hollow cylinder has one first relative perforating and one second perforating, this second hollow cylinder has one the 3rd relative perforating and one the 4th perforating, wherein this first perforating and the 3rd perforating mutually stacked, this second perforating and the 4th perforating mutually stacked, this body of rod is arranged in this first perforating, this second perforating, 3rd perforating and the 4th perforating, and then this first hollow cylinder and this second hollow cylinder are interfixed.

7. the bracing or strutting arrangement of solar energy module according to claim 6, it is characterized in that, this second hollow cylinder has more one the 5th relative perforating and one the 6th perforating, 5th perforating is adjacent to the 3rd perforating, 6th perforating is adjacent to the 4th perforating, and the beeline between the 5th perforating and the 3rd perforating equals the beeline between this six perforating and the 4th perforating.

8. the bracing or strutting arrangement of solar energy module according to claim 6, it is characterized in that, more comprise one first fixture and one second fixture, and this body of rod has one first holddown groove and one second holddown groove, this first hollow cylinder and this second hollow cylinder are between this first holddown groove and this second holddown groove, this first fixture is fixed on this first holddown groove, and this second fixture is fixed on this second holddown groove.

9. the bracing or strutting arrangement of solar energy module according to claim 1, it is characterized in that, this load bearing unit has a framework and plates, this framework is in order to carry this solar energy module, these plates are connected at least one side of this framework, and these plates have at least one first open-work, and this linkage unit comprises:

One first module main body, has the side of a relative end face and a bottom surface and at least one this end face adjacent and this bottom surface;

One first protuberance, protrudes from this bottom surface of this first module main body, this first protuberance in order to be arranged at this positioning unit those location notchs one of them; And

One connection bracket, is arranged at this side of this first module main body, and this connection bracket has one second protuberance, and this connection bracket is arranged in this first open-work of these plates with this second protuberance, and then makes this connection bracket be fixed on this plates.

10. the bracing or strutting arrangement of solar energy module according to claim 9, is characterized in that, this first module main body has more one first locking hole, and this first locking hole is arranged at this end face of this first module main body, and this linkage unit more comprises:

One second unit main body, be stacked and placed on this first module main body, this second unit main body has one second open-work and one second locking hole, and this second open-work is relative to this first open-work, and this second protuberance is arranged in this second open-work, this second locking hole is relative to this first locking hole; And

One locking part, is arranged in this first locking hole and this second locking hole, and then makes this first module main body and this second unit main body clamp these plates of this load bearing unit.

The bracing or strutting arrangement of 11. solar energy modules according to claim 10, it is characterized in that, the quantity of this at least one load bearing unit is multiple, in those load bearing units, those first open-works of adjacent two load bearing units are stacked each other, and this second protuberance of this connection bracket is arranged in those the first open-works, this first module main body and this second unit main body clamp those plates of those load bearing units.

The bracing or strutting arrangement of 12. solar energy modules according to claim 1, it is characterized in that, the quantity of this at least one bracing frame is multiple, those bracing frames comprise multiple first bracing frame and multiple second bracing frame, those first bracing frames are arranged along a first direction, those second bracing frames are arranged along a second direction, and the height of those the first bracing frames is greater than the height of those the second bracing frames.

The bracing or strutting arrangement of 13. solar energy modules according to claim 12, is characterized in that, those first bracing frames are Collapsible structure.

The bracing or strutting arrangement of 14. 1 kinds of solar energy modules, in order to carry at least one solar energy module, is characterized in that, this bracing or strutting arrangement comprises:

At least one load bearing unit, in order to carry this solar energy module; And

At least one bracing frame, is connected to this load bearing unit, and this bracing frame comprises:

One body, has one first end face, comprising:

One first hollow cylinder, has this first end face and second end face relative with this first end face; And

One fixed head, have a surface and multiple block, this surface is engaged in this second end face of this first hollow cylinder, and those blocks are connected to this surface, and those blocks are around this first hollow cylinder;

One loading plate, have pass through aperture and around the storage tank of this through hole, this through hole makes those blocks of this fixed head be placed in this storage tank with for this first hollow cylinder carries out wearing;

Locating unit, is arranged at this body, and this positioning unit comprises multiple location notch; And

One linkage unit, is connected to this load bearing unit, and this linkage unit be arranged at this positioning unit those location notchs one of them.

15. 1 kinds of solar energy systems, is characterized in that, comprising:

At least one solar energy module; And

The bracing or strutting arrangement of the solar energy module as described in as any in claim 1 to 14 one, in order to carry this at least one solar energy module.