CN217183241U

CN217183241U - Photovoltaic module and photovoltaic installing system

Info

Publication number: CN217183241U
Application number: CN202220135216.9U
Authority: CN
Inventors: 于俊; 刘勇; 王建明
Original assignee: Das Solar Co Ltd
Current assignee: Yidao New Energy Technology Co ltd
Priority date: 2022-01-18
Filing date: 2022-01-18
Publication date: 2022-08-12
Anticipated expiration: 2032-01-18

Abstract

The embodiment of the utility model provides a photovoltaic module and photovoltaic installing the system. The photovoltaic module includes: a bezel assembly and a flexible assembly; the frame subassembly includes: the flexible assembly comprises a first edge, a second edge, a third edge and a fourth edge, a first limiting part is arranged on the first edge, a second limiting part is arranged on the third edge, the first edge and the first limiting part are both located in a first clamping groove, the first limiting part is blocked by the first blocking part, the third edge and the second limiting part are both located in a second clamping groove, the second blocking part is blocked by the second blocking part, the second edge is located in a first accommodating groove, and the fourth edge is located in a second accommodating groove. The problem that the flexible assembly is fixed on a roof or other to-be-mounted surfaces all around through adhesive glue, and local distortion and deformation of the flexible assembly are easily caused due to the change of the ambient temperature, so that the circuit inside the flexible assembly breaks down is solved.

Description

Photovoltaic module and photovoltaic installing system

Technical Field

The utility model relates to a photovoltaic technology field, concretely relates to photovoltaic module and photovoltaic installing the system.

Background

Before the flexible assembly is illuminated to perform the power generation process, the flexible assembly is usually adhered to a roof or other mounting surface by an adhesive. After the flexible assembly is glued and pasted all around, when ambient temperature changes, the flexible assembly is because expend with heat and contract with cold's effect to produce the internal stress at the flexible assembly in the junction, lead to the part that the flexible assembly part bonded to drop easily, perhaps lead to the local distortion of flexible assembly to warp, make the inside circuit of flexible assembly break down.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a photovoltaic module to solve after flexible assembly rubber coating is pasted all around, when ambient temperature changes, flexible assembly is because expend with heat and contract with cold's effect, thereby at the inside stress that produces of flexible assembly, the part that leads to the local bonding of flexible assembly drops easily, perhaps leads to the local distortion deformation of flexible assembly, makes the problem that the inside circuit of flexible assembly broke down.

In order to solve the technical problem, the utility model discloses a realize like this:

in a first aspect, an embodiment of the present invention provides a photovoltaic module, which is characterized in that the photovoltaic module includes: a bezel assembly and a flexible assembly;

the bezel assembly includes: the frame comprises a first frame, a second frame, a third frame and a fourth frame, wherein the first frame is opposite to the third frame in position, two ends of the second frame are detachably connected with one end of the first frame and one end of the third frame respectively, and two ends of the fourth frame are detachably connected with the other end of the first frame and the other end of the third frame respectively;

a first clamping groove is formed in the first frame along the extending direction of the first frame, a second clamping groove is formed in the third frame along the extending direction of the third frame, a notch of the first clamping groove is opposite to a notch of the second clamping groove, a first blocking part is arranged at the notch of the first clamping groove, a second blocking part is arranged at the notch of the second clamping groove, the first blocking part extends along the extending direction of the first frame, and the second blocking part extends along the extending direction of the third frame; a first accommodating groove is formed in the second frame, a second accommodating groove is formed in the fourth frame, and a notch of the first accommodating groove is opposite to a notch of the second accommodating groove;

the flexible component comprises a first edge, a second edge, a third edge and a fourth edge, the first edge is opposite to the third edge, the second edge is opposite to the fourth edge, and the second edge and the fourth edge are both located between the first edge and the third edge;

the first edge is provided with a first limiting part, the third edge is provided with a second limiting part, the first edge and the first limiting part are all located in the first clamping groove, the first blocking part blocks the first limiting part, the third edge and the second limiting part are all located in the second clamping groove, the second blocking part blocks the second limiting part, the second edge is located in the first accommodating groove, and the fourth edge is located in the second accommodating groove.

In a second aspect, an embodiment of the present invention provides a photovoltaic installation system, which includes the photovoltaic module described in any one of the above first aspects.

In an embodiment of the present invention, the photovoltaic module includes: a bezel assembly and a flexible assembly; the frame subassembly includes: the flexible assembly comprises a first edge, a second edge, a third edge and a fourth edge, a first limiting part is arranged on the first edge, a second limiting part is arranged on the third edge, the first edge and the first limiting part are both located in a first clamping groove, the first limiting part is blocked by the first blocking part, the third edge and the second limiting part are both located in a second clamping groove, the second blocking part is blocked by the second blocking part, the second edge is located in a first accommodating groove, and the fourth edge is located in a second accommodating groove. The flexible assembly can be prevented from being fixed on a roof or other mounting surfaces all around through adhesive glue, when the ambient temperature changes, the part which is easily bonded by the flexible assembly falls off, or the local distortion of the flexible assembly is caused, so that the problem that the circuit inside the flexible assembly breaks down is solved.

Drawings

Fig. 1 is a schematic view of a photovoltaic module according to an embodiment of the present invention;

fig. 2 shows a detail view of a portion a in fig. 1 according to an embodiment of the present invention;

fig. 3 is a detailed view of fig. 1 at B according to an embodiment of the present invention;

fig. 4 is a detailed view of fig. 1 at C according to an embodiment of the present invention;

fig. 5 shows an exploded view of a photovoltaic module according to an embodiment of the present invention;

fig. 6 is a detail view of fig. 5 at D according to an embodiment of the present invention;

fig. 7 is a detail view of fig. 5 at E according to an embodiment of the present invention;

fig. 8 is a schematic view of another photovoltaic module according to an embodiment of the present invention;

fig. 9 shows a detail view of F in fig. 8 according to an embodiment of the present invention.

Reference numerals:

10: a flexible component; 20: a frame component; 30: a support assembly; 11: a first edge; 12: a second edge; 13: a third edge; 14: a fourth edge; 21: a first frame; 22: a second frame; 23: a third frame; 24: a fourth frame; 25: a connecting plate; 26: a first connecting member; 27: a second connecting member; 28: a third connecting member; 29: a fourth connecting member; 31: a support plate; 32: a mounting seat; 111: a first limit piece; 131: a second limiting member; 211: a first card slot; 2111: a first wall; 21112: a second through hole; 2114: a sixth hole; 212: a first blocking member; 213: a first clip member; 214: a second clip member; 221: a first accommodating groove; 2212: a second slot wall; 22121: a second hole; 22122: a third fastener; 2213: a fifth slot wall; 22131: a first limit hole; 22132: a second limiting hole; 2214: a sixth slot wall; 231: a second card slot; 2311: a third wall; 23112: a sixth through hole; 23122: an eighth through hole; 2314: an eighth hole; 234: a fourth clip member; 2412: a fourth slot wall; 24121: a fourth aperture; 24122: a fourth fastener; 2413: a seventh slot wall; 24132: and a sixth limiting hole.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, of the embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

It should be appreciated that reference throughout this specification to "one embodiment" or "an embodiment" means that a particular feature, structure or characteristic described in connection with the embodiment is included in at least one embodiment of the present invention. Thus, the appearances of the phrases "in one embodiment" or "in an embodiment" in various places throughout this specification are not necessarily all referring to the same embodiment. Furthermore, the particular features, structures, or characteristics may be combined in any suitable manner in one or more embodiments.

Referring to fig. 1, a schematic diagram of a photovoltaic module according to an embodiment of the present invention is shown, and referring to fig. 2, a detail diagram of a position a in fig. 1 according to an embodiment of the present invention is shown; referring to fig. 3, a detailed view of fig. 1B is shown according to an embodiment of the present invention; referring to fig. 4, a detailed view of a point C in fig. 1 provided by an embodiment of the present invention is shown, and referring to fig. 5, an explosion diagram of a photovoltaic module provided by an embodiment of the present invention is shown; referring to fig. 6, a detailed view at D in fig. 5 provided by the embodiment of the present invention is shown; referring to fig. 7, showing a detail view at E in fig. 5 provided by the embodiment of the present invention, as shown in fig. 1 to 7, the photovoltaic module includes: a flexible assembly 10 and a bezel assembly 20; the bezel assembly 20 includes: the frame comprises a first frame 21, a second frame 22, a third frame 23 and a fourth frame 24, wherein the first frame 21 is opposite to the third frame 23 in position, two ends of the second frame 22 are detachably connected with one end of the first frame 21 and one end of the third frame 23 respectively, and two ends of the fourth frame 24 are detachably connected with the other end of the first frame 21 and the other end of the third frame 23 respectively.

A first clamping groove 211 is formed in the first frame 21 along the extending direction of the first frame 21, a second clamping groove 231 is formed in the third frame 23 along the extending direction of the third frame 23, a notch of the first clamping groove 211 is opposite to a notch of the second clamping groove 231, a first blocking part 212 is arranged on the notch of the first clamping groove 211, a second blocking part is arranged on the notch of the second clamping groove 231, the first blocking part 212 extends along the extending direction of the first frame 21, and the second blocking part extends along the extending direction of the third frame 23; the second frame 22 is provided with a first accommodating groove 221, the fourth frame 24 is provided with a second accommodating groove, and the notch of the first accommodating groove 221 is opposite to the notch of the second accommodating groove.

The flexible component 10 includes a first edge 11, a second edge 12, a third edge 13, and a fourth edge 14, the first edge 11 is opposite to the third edge 13, the second edge 12 is opposite to the fourth edge 14, and the second edge 12 and the fourth edge 14 are both located between the first edge 11 and the third edge 13. The first edge 11 is provided with a first limiting member 111, the third edge 13 is provided with a second limiting member 131, the first edge 11 and the first limiting member 111 are both located in the first slot 211, and the first blocking member 212 blocks the first limiting member 111, the third edge 13 and the second limiting member 131 are both located in the second slot 231, and the second blocking member blocks the second limiting member 131, the second edge 12 is located in the first receiving slot 221, and the fourth edge 14 is located in the second receiving slot.

In the embodiment of the present invention, the photovoltaic module includes a flexible component 10 and a frame component 20, and the frame component 20 includes: first frame 21, second frame 22, third frame 23 and fourth frame 24 to the both ends of second frame 22 can be dismantled with the one end of first frame 21 and the one end of third frame 23 respectively and be connected, and the both ends of fourth frame 24 can be dismantled with the other end of first frame 21 and the other end of third frame 23 respectively and be connected.

When the flexible component 10 is installed, the first frame 21, the second frame 22, and the third frame 23 may be connected first, and then the first edge 11 of the flexible component 10 is located in the first slot 211, and the third edge 13 of the flexible component 10 is located in the second slot 231, so as to push the flexible component 10, so that the first limiting member 111 slides in the first slot 211, and the second limiting member 131 slides in the second slot 231. When the first edge 11 of the flexible member 10 is fully seated in the first slot 211 and the third edge 13 of the flexible member 10 is fully seated in the second slot 231, the second edge 12 may be seated in the first receiving groove 221. After the second edge 12 is located in the first receiving groove 221, the fourth frame 24 is connected to the first frame 21 and the third frame 23, respectively, so that the fourth edge 14 is located in the second receiving groove, so that the flexible component 10 is fixed, i.e., the flexible component 10 is fixed by the first frame 21, the second frame 22, the third frame 23 and the fourth frame 24.

In addition, since the notch of the first card slot 211 is provided with the first blocking member 212, the notch of the second card slot 231 is provided with the second blocking member, the first blocking member 212 extends along the extending direction of the first frame 21, the second blocking member extends along the extending direction of the third frame 23, and therefore, after the flexible assembly 10 is fixed, the first stopping member 212 may stop the first limiting member 111 from being disengaged from the first locking slot 211, the second stopping member may stop the second limiting member 131 from being disengaged from the second locking slot 231, i.e., to prevent first edge 11 from disengaging from first card slot 211, third edge 13 from disengaging from second card slot 231, thereby avoiding the flexible assembly 10 from being oriented along the first through third rims 21-23, or separate from the rim assembly 20 in a direction along the third rim 23 to the first rim 21, the first edge 11 and the third edge 13 of the flexible assembly 10 may be secured.

The embodiment of the utility model provides an in, through first frame 21, second frame 22, the fixed flexible assembly 10 of third frame 23 and fourth frame 24, stop first edge 11 at the first piece 212 that stops of the notch setting of first draw-in groove 211 promptly, the second that sets up at the notch of second draw-in groove 231 stops third edge 13, arrange second edge 12 in first holding tank 221, and fourth edge 14 arranges the second holding tank in, can avoid fixing flexible assembly 10 all around on the roofing or treat the installation face through the bonding glue, when ambient temperature changes, lead to the position that flexible assembly 10 part bonded to drop easily, or lead to flexible assembly 10 part distortion, make the problem that the inside circuit of flexible assembly 10 breaks down.

It should be noted that, in the embodiment of the present invention, the flexible component 10 is a flexible battery component, that is, the battery component is deformable. In addition, in the embodiment of the present invention, the length of the first card slot 211 may be equal to the length of the first frame 21, the length of the second card slot 231 may also be equal to the length of the third frame 23, of course, the length of the first card slot 211 may also be smaller than the length of the first frame 21, and the length of the second card slot 231 may also be smaller than the length of the third frame 23, and therefore, the embodiment of the present invention is not limited herein. Additionally, in the embodiment of the present invention, when the ambient temperature changes, the edge of the flexible component 10 has a certain margin of play, so as to avoid the inside of the flexible component 10 to receive stress, and avoid the circuit inside the flexible component 10 to break down.

In addition, in the related art, the flexible assembly 10 is usually bonded to the roof or other installation surface to be installed by using a bonding adhesive, when the flexible assembly 10 is replaced, the flexible assembly 10 needs to be separated from the roof or other installation surface to be installed, but the bonding adhesive is generally bonded to the flexible assembly 10 more firmly, which makes it difficult to replace the flexible assembly 10, and in addition, after the flexible assembly 10 is separated from the roof or other installation surface to be installed, the bonding adhesive on the flexible assembly 10 and the bonding adhesive on the roof or other installation surface to be installed need to be cleaned, which increases the workload of replacing the flexible assembly 10. And the embodiment of the utility model provides an in, frame subassembly 20 adopts and to dismantle the connection, when needing to change flexible assembly 10, only need to separate fourth frame 24 with first frame 21 and third frame 23 respectively, alright in order to make flexible assembly 10 follow roll-off in first draw-in groove 211 and the second draw-in groove 231, roll-off in first draw-in groove 211 and the second draw-in groove 231 can be followed to the extending direction of first frame 21 and third frame 23 promptly flexible assembly 10, greatly reduced flexible assembly 10's the change degree of difficulty, thereby the problem that flexible assembly 10 is difficult to change has been solved, and need not to clear up the adhesive.

It should be noted that a first limiting block may be disposed on the first edge 11 of the flexible component 10 along the extending direction of the first frame 21, and the length of the first limiting block is equal to the length of the first edge 11 of the flexible component 10. Of course, a plurality of second stoppers may be disposed on the first edge 11 at intervals along the extending direction of the first frame 21. That is, the first limiting member 111 may be a first limiting member having a length equal to that of the first edge 11, and the first limiting member 111 may also be a plurality of second limiting members arranged at intervals. The extending direction of the first frame 21 refers to a direction from one end of the first frame 21 to the other end. Similarly, a third limiting block may be disposed on the third edge 13 of the flexible component 10 along the extending direction of the third frame 23, and the length of the third limiting block is equal to the length of the third edge 13 of the flexible component 10. Of course, a plurality of fourth limit blocks may be disposed on the third edge 13 at intervals along the extending direction of the third frame 23. That is, the second limiting member 131 may be a third limiting member having a length equal to that of the third edge 13, and the second limiting member 131 may also be a plurality of fourth limiting members arranged at intervals. The extending direction of the third frame 23 refers to a direction from one end of the third frame 23 to the other end.

It should be noted that, when the first limiting elements 111 are a plurality of second limiting elements, at this time, the second limiting elements may be disposed at four corners of the flexible component 10, and the structure of the limiting block is to satisfy that the first limiting element 111 on the first edge 11 of the flexible component 10 can slide freely in the first slot 211, and the second limiting element 131 on the third edge 13 of the flexible component 10 can slide freely in the third slot, and in the sliding process, the first edge 11 of the flexible component 10 cannot slide out of the first slot 211 along the direction from the first frame 21 to the third frame 23, and the third edge 13 of the flexible component 10 cannot slide out of the second slot 231 along the direction from the third frame 23 to the first frame 21. Since the first edge 11 and the third edge 13 of the flexible component 10 have two surfaces, the first retaining member 111 and the second retaining member 131 can be disposed on one or both surfaces. Therefore, the embodiments of the present invention are not limited herein.

In addition, the material of the frame assembly 20 may be an alloy (e.g., carbon steel) or a plastic, which may be determined according to actual conditions, and the embodiment of the present invention is not limited herein.

In some embodiments, as shown in fig. 5-7, the first receiving slot 221 has a first slot wall and a second slot wall 2212 opposite to the flexible component 10, the first slot wall has a first hole disposed thereon, the second slot wall 2212 has a second hole 22121 disposed thereon, the second receiving slot has a third slot wall and a fourth slot wall 2412 opposite to the flexible component 10, the third slot wall has a third hole disposed thereon, and the fourth slot wall 2412 has a fourth hole 24121 disposed thereon.

A fifth hole and a sixth hole 2114 are arranged on the groove bottom of the first clamping groove 211, the first fastener penetrates through the first hole and the fifth hole, the second fastener penetrates through the third hole and the sixth hole 2114, a seventh hole and an eighth hole 2314 are arranged on the groove bottom of the second clamping groove 231, the third fastener 22122 penetrates through the second hole 22121 and the seventh hole, and the fourth fastener 24122 penetrates through the fourth hole 24121 and the eighth hole 2314.

Because the first receiving groove 221 has a first groove wall and a second groove wall 2212 opposite to each other and perpendicular to the flexible component 10, the first groove wall is provided with a first hole, the second groove wall 2212 is provided with a second hole 22121, the second receiving groove has a third groove wall and a fourth groove wall 2412 opposite to each other and perpendicular to the flexible component 10, the third groove wall is provided with a third hole, and the fourth groove wall 2412 is provided with a fourth hole 24121.

A fifth hole and a sixth hole 2114 are arranged on the groove bottom of the first clamping groove 211, wherein the fifth hole and the sixth hole 2114 are arranged at intervals, the fifth hole is opposite to the first hole, and the sixth hole 2114 is opposite to the third hole. When the first fastening member is inserted into the first hole and the fifth hole, the first frame 21 is limited on the first groove wall, that is, the groove bottom of the first engaging groove 211 is limited on the first groove wall. When the second fastening member is inserted into the third hole and the sixth hole 2114, the first frame 21 may be limited by the third groove wall, i.e., the groove bottom of the first engaging groove 211 may also be limited by the third groove wall. A seventh hole and an eighth hole 2314 are formed in the groove bottom of the second locking groove 231, wherein the seventh hole and the eighth hole 2314 are arranged at intervals, the seventh hole is opposite to the second hole 22121, and the eighth hole 2314 is opposite to the fourth hole 24121. When the third fastening member 22122 is inserted into the second hole 22121 and the seventh hole, the third frame 23 can be limited on the second slot wall 2212, i.e. the slot bottom of the second slot 231 is limited on the second slot wall 2212. When the fourth fastening member 24122 is inserted into the fourth hole 24121 and the eighth hole 2314, the third frame 23 is limited by the fourth groove wall 2412, i.e., the groove bottom of the second locking groove 231 is also limited by the fourth groove wall 2412.

Since the first edge 11 of the flexible component 10 is located in the first frame 21 and the third edge 13 is located in the third frame 23, in order to make the flexible component 10 be tensioned in the direction from the third frame 23 to the first frame 21, the first fastener and the third fastener 22122 may reduce the gap between the groove bottom of the first clamping groove 211 and the first groove wall and the third groove wall, respectively, at this time, when the first fastener is inserted into the first hole and the fifth hole, so that the first fastener is fastened, and when the third fastener 22122 is inserted into the second hole 22121 and the seventh hole, so that when the third fastener 22122 is fastened, at this time, the first fastener and the third fastener 22122 may drive the groove bottom of the first clamping groove 211 to move to the first groove wall and the third groove wall. In addition, the first blocking member 212 drives the first limiting member 111 and the flexible component 10 in the first slot 211 to move along the third frame 23 toward the first frame 21, and the second blocking member blocks the second limiting member 131, so as to prevent the second limiting member 131 from driving the second edge 12 of the flexible component 10 to move along the third frame 23 toward the first frame 21, so that the flexible component 10 is tensioned along the third frame 23 toward the first frame 21, and at this time, one side of the flexible component 10 can be tensioned. Similarly, to allow the flexible component 10 to be tensioned in the direction along the first rim 21, the second and fourth fasteners 24122 may reduce the gap between the groove bottom of the second slot 231 and the second and

fourth slot walls

2212 and 2412, respectively, when the second fastener is inserted into the third and sixth holes 2114 to fasten the second fastener, and when the fourth fastener 24122 is inserted into the fourth and

eighth holes

24121 and 2314 to fasten the fourth fastener 24122, the second and fourth fasteners 24122 drive the groove bottom of the second slot 231 to move toward the second and

fourth slot walls

2212 and 2412. In addition, the second blocking member will drive the second limiting member 131 in the second slot 231 and the flexible assembly 10 to move along the first frame 21 toward the third frame 23, and the first blocking member 212 will block the first limiting member 111, so as to prevent the first limiting member 111 from driving the first edge 11 of the flexible assembly 10 to move along the first frame 21 toward the third frame 23, so that the flexible assembly 10 is tensioned along the first frame 21 toward the third frame 23, and at this time, the flexible assembly 10 can be tensioned on one side.

Additionally, the first fastener, the second fastener, the third fastener 22122, and the fourth fastener 24122 may also be simultaneously fastened such that both sides of the flexible assembly 10 are tensioned.

That is, when the first frame 21 and the third frame 23 are fixed on the two end groove walls of the first receiving groove 221 and the second receiving groove, the flexible assembly 10 can be stretched along the third frame 23 toward the first frame 21, or along the first frame 21 toward the third frame 23.

In addition, in the process of stretching the flexible assembly 10, the first frame 21 may be enabled to tighten the flexible assembly 10 by the first fastener and the second fastener, and after the first frame 21 tightens the flexible assembly 10, the first frame 21 may be limited by the first groove wall and the third groove wall. In addition, the third frame 23 may be made to tighten the flexible component 10 by the third fastening element 22122 and the fourth fastening element 24122, and after the third frame 23 tightens the flexible component 10, the third frame 23 may be limited to the second slot wall 2212 and the fourth slot wall 2412.

It should be noted that, the fact that the first frame 21 is fixed to the first slot wall and the third slot wall means that the first frame 21 is connected to the first slot wall and the third slot wall by the first fastener and the second fastener, respectively. The securement of third bezel 23 to second slot wall 2212 and fourth slot wall 2412 means that third bezel 23 is connected to second slot wall 2212 and fourth slot wall 2412 by third fastener 22122 and fourth fastener 24122, respectively.

In addition, in the embodiment of the present invention, the first receiving groove 221 may only have the second groove wall 2212 perpendicular to the flexible component 10, that is, the first receiving groove 221 does not have the first groove wall, and similarly, as shown in fig. 8 and 9, the second receiving groove may only have the fourth groove wall 2412 perpendicular to the flexible component 10, that is, the second receiving groove does not have the third groove wall, and at this time, when the flexible component 10 needs to be tensioned, the tensioning is only required to be performed by the third fastening member 22122 and the fourth fastening member 24122. It should be noted that, in the embodiment of the present invention, after the flexible component 10 is pulled tight, the flexible component 10 still has a certain play margin.

In addition, in the embodiment of the present invention, the first hole, the second hole 22121, the third hole, and the fourth hole 24121 are through holes, fifth hole, sixth hole 2114, seventh hole, and eighth hole 2314 are screw holes.

When the first, second, third, and

fourth holes

22121, 24121 are through, fifth, sixth, seventh, and

eighth holes

2114, 2314 are threaded holes, the first, second, third, and fourth fasteners 22122 may be screws. At this time, it is equivalent to rotate the screw so that the screw moves in the screw hole, so that the first card slot 211 or the third card slot moves.

In some embodiments, as shown in fig. 2 and 6, the first receiving slot 221 has a fifth and a

sixth slot wall

2213 and 2214 opposite to each other, which are parallel to the flexible assembly 10, a first and a second limiting

hole

22131 and 22132 are disposed on the fifth slot wall 2213, a third and a fourth limiting

hole

22131 and 2214 are disposed on the sixth slot wall 2214, the first and the third limiting

holes

22131 and 22132 are opposite to each other, and the second and the fourth limiting holes 22132 are opposite to each other. The second accommodating groove is provided with a seventh groove wall 2413 and an eighth groove wall which are parallel to the flexible component 10 and are opposite, a fifth limiting hole and a sixth limiting hole are arranged on the seventh groove wall 2413, a seventh limiting hole and an eighth limiting hole are arranged on the eighth groove wall, the fifth limiting hole is opposite to the seventh limiting hole, and the sixth limiting hole is opposite to the eighth limiting hole.

As shown in fig. 3, first card slot 211 has first and second opposing

walls

2111, 21112 parallel to flexible component 10, with first and second through-holes 2111 disposed in first wall 2111, third and fourth through-holes disposed in second wall, first and third through-holes opposing, and second and fourth through-holes 21112 opposing. As shown in fig. 4, the second card slot 231 has opposite third and

fourth walls

2311 and 23112 parallel to the flexible member 10, with fifth and sixth through holes 23112 provided on the third wall 2311, and seventh and eighth through holes 23122 provided on the fourth wall, with the fifth and seventh through holes being opposite and the sixth and eighth through

holes

23112 and 23122 being opposite.

The first connecting member 26 is inserted into the first position-limiting hole 22131, the third position-limiting hole, the first through hole and the third through hole to connect the first frame 21 and the second frame 22, the second connecting member 27 is inserted into the second position-limiting hole 22132, the fourth position-limiting hole, the fifth through hole and the seventh through hole to connect the second frame 22 and the third frame 23, the third connecting member 28 is inserted into the fifth position-limiting hole, the seventh position-limiting hole, the second through hole 21112 and the fourth through hole to connect the first frame 21 and the fourth frame 24, and the fourth connecting member 29 is inserted into the sixth position-limiting hole, the eighth position-limiting hole, the sixth through hole 23112 and the eighth through hole 23122 to connect the third frame 23 and the fourth frame 24.

Since the first receiving groove 221 has a fifth groove wall 2213 and a sixth groove wall 2214 which are parallel to the flexible assembly 10, the fifth groove wall 2213 is provided with a first limiting hole 22131 and a second limiting hole 22132, the sixth groove wall 2214 is provided with a third limiting hole 22131 and a fourth limiting hole, the first limiting hole 22131 is opposite to the third limiting hole, and the second limiting hole 22132 is opposite to the fourth limiting hole. The second accommodating groove is provided with a seventh groove wall 2413 and an eighth groove wall which are parallel to the flexible component 10 and are opposite, a fifth limiting hole and a sixth limiting hole are arranged on the seventh groove wall 2413, a seventh limiting hole and an eighth limiting hole are arranged on the eighth groove wall, the fifth limiting hole is opposite to the seventh limiting hole, and the sixth limiting hole is opposite to the eighth limiting hole.

In addition, the first card slot 211 has a first wall 2111 and a second wall opposite to each other in parallel to the flexible member 10, a first through hole 21112 and a second through hole 2111 are provided in the first wall, a third through hole 21112 and a fourth through hole are provided in the second wall, the first through hole and the third through hole are opposite, and the second through hole 21112 and the fourth through hole are opposite. The second card slot 231 has opposite third and

fourth walls

holes

23112 and 23122 being opposite.

Therefore, when the first edge 11 and the first limiting member 111 of the flexible assembly 10 are located in the first slot 211, the third edge 13 and the second limiting member 131 of the flexible assembly 10 are located in the second slot 231, the second edge 12 of the flexible assembly 10 is located in the first receiving slot 221, and the fourth edge 14 of the flexible assembly 10 is located in the second receiving slot, the first connecting member 26 can pass through the first limiting hole 22131, the third limiting hole, the first through hole and the third through hole to connect the first frame 21 to the second frame 22, the second connecting member 27 can pass through the second limiting hole 22132, the fourth limiting hole, the fifth through hole and the seventh through hole to connect the second frame 22 to the third frame 23, the third connecting member 28 can pass through the fifth limiting hole, the seventh limiting hole, the second through hole 21112 and the fourth through hole to connect the first frame 21 to the fourth frame 24, and the fourth connecting member 29 can pass through the sixth limiting hole, the seventh limiting hole, the fourth through hole 21112 and the fourth through hole, The eighth through hole 23122, the sixth through hole 23112, and the eighth limiting hole connect the fourth frame 24 with the third frame 23. At this time, the first frame 21, the second frame 22, the third frame 23 and the fourth frame 24 are all fixed to each other, that is, the first connecting member 26, the second connecting member 27, the third connecting member 28 and the fourth connecting member 29 may provide a pre-tightening force, so that the first frame 21, the second frame 22, the third frame 23 and the fourth frame 24 are all fixed to each other.

It should be noted that the first limiting hole 22131, the second limiting hole 22132, the third limiting hole, the fourth limiting hole, the fifth limiting hole, the sixth limiting hole, the seventh limiting hole, and the eighth limiting hole may be strip-shaped holes parallel to the extending direction of the groove wall of the flexible assembly 10 along the first receiving groove 221 or the second receiving groove. When the first edge 11 of the flexible component 10 is located in the first frame 21 and the third edge 13 is located in the third frame 23, as can be seen from the above, in order to make the flexible component 10 be tensioned along the direction from the third frame 23 to the first frame, the first fastener and the third fastener 22122 may reduce the gap between the groove bottom of the first clamping groove 211 and the first groove wall and the third groove wall, at this time, the groove bottom of the first clamping groove 211 may be moved toward the first groove wall and the third groove wall, that is, the first frame 21 may be moved toward the first groove wall and the third groove wall, and the first frame 21 drives the first connecting element 26 and the third connecting element 28 to move, and after the flexible component 10 is tensioned, the first connecting element 26 and the third connecting element 28 may be tightened, so that the first frame 21 cannot move. In addition, since the first connecting piece 26 passes through the first limiting hole 22131, the first through hole, the third through hole and the third limiting hole, and the first limiting hole 22131 and the third limiting hole are strip-shaped holes, the first connecting piece 26 can move in the first limiting hole 22131 and the third limiting hole in the process that the first connecting piece 26 moves along with the first frame 21; since the third connecting member 28 passes through the fifth limiting hole, the second through hole 21112, the fourth through hole and the seventh limiting hole, and the fifth limiting hole and the seventh limiting hole are strip-shaped holes, the third connecting member 28 can move in the fifth limiting hole and the seventh limiting hole in the process that the third connecting member 28 moves along with the first frame 21.

In addition, in order to make the flexible assembly 10 be tensioned along the direction from the first frame 21 to the third frame, the second fastener and the fourth fastener 24122 may reduce the gap between the groove bottom of the second slot 231 and the second slot wall 2212 and the fourth slot wall 2412, at this time, the groove bottom of the second slot 231 may be moved toward the second slot wall 2212 and the fourth slot wall 2412, that is, the third frame 23 is moved toward the second slot wall 2212 and the fourth slot wall 2412, and the third frame 23 drives the second connecting element 27 and the fourth connecting element 29 to move, after the flexible assembly 10 is tensioned, the first connecting element 26 and the third connecting element 28 may be tightened, so that the first frame 21 cannot move. In addition, since the second connecting piece 27 passes through the second limiting hole 22132, the fifth through hole, the seventh through hole and the fourth limiting hole, and the second limiting hole 22132 and the fourth limiting hole are strip-shaped holes, in the process that the second connecting piece 27 moves along with the third frame 23, the second connecting piece 27 can move in the second limiting hole 22132 and the fourth limiting hole; since the fourth connecting member 29 passes through the sixth limiting hole, the sixth through hole 23112, the eighth through hole 23122 and the eighth limiting hole, and the sixth limiting hole and the eighth limiting hole are strip-shaped holes, the fourth connecting member 29 can move in the sixth limiting hole and the eighth limiting hole in the process that the fourth connecting member 29 moves along with the third frame 23. The limiting holes allow the flexible component 10 to be tightened, and the flexible component 10 and the bezel component 20 remain connected during tightening. To the shape of spacing hole, can specifically confirm according to actual conditions, the embodiment of the utility model provides a do not limit here.

In addition, in some embodiments, as shown in fig. 2 to 4, opposite ends of the first frame 21 may be provided with a first clamping member 213 and a second clamping member 214, opposite ends of the third frame 23 may be provided with a third clamping member and a fourth clamping member 234, opposite ends of the second frame 22 may be provided with a fifth clamping member and a sixth clamping member, and opposite ends of the fourth frame 24 may be provided with a seventh clamping member and an eighth clamping member. The first engaging member 213 is engaged with the fifth engaging member, the second engaging member 214 is engaged with the seventh engaging member, the third engaging member is engaged with the sixth engaging member, and the fourth engaging member 234 is engaged with the eighth engaging member.

Because the first clamping member 213 and the second clamping member 214 are disposed at two opposite ends of the first frame 21, the third clamping member and the fourth clamping member 234 are disposed at two opposite ends of the third frame 23, the fifth clamping member and the sixth clamping member are disposed at two opposite ends of the second frame 22, and the seventh clamping member and the eighth clamping member are disposed at two opposite ends of the fourth frame 24. Therefore, in the step of installing the flexible assembly 10 to the bezel assembly 20, first, the first clamping member 213 of the first bezel 21 may be clamped with the fifth clamping member of the second bezel 22, the third clamping member of the third bezel 23 may be clamped with the sixth clamping member of the second bezel 22, and the first bezel 21, the second bezel 22 and the third bezel 23 may be connected; secondly, sliding the first edge 11 of the flexible component 10 into the frame component 20 composed of three frames along the first slot 211 of the first frame 21 and the third edge 13 of the flexible component 10 along the second slot 231 of the third frame 23; finally, the seventh clamping member of the fourth frame 24 is clamped with the second clamping member 214 of the first frame 21, and the eighth clamping member of the fourth frame 24 is clamped with the fourth clamping member 234 of the third frame 23. The bezel assembly 20 is easily removed and the flexible assembly 10 is easily replaced.

It should be noted that, the first clip member 213, the second clip member 214, the third clip member, the fourth clip member 234, the fifth clip member, the sixth clip member, the seventh clip member and the eighth clip member may be mutually-matched buckles, or may be other detachable structures, and therefore, the embodiment of the present invention is not limited herein.

In the embodiment of the utility model, as shown in fig. 5 to 7, frame component 20 is provided with connecting plate 25, and connecting plate 25 is located one side of the shady face of flexible assembly 10, is provided with the connecting hole on connecting plate 25, and the connecting hole is used for connecting photovoltaic module and platform base.

Because the connecting plate 25 can be further disposed on the frame component 20, when the connecting plate 25 is located on one side of the backlight surface of the flexible component 10, the connecting hole on the connecting plate 25 can connect the photovoltaic module with the platform base, so that the photovoltaic module can be stably fixed on the ground or on a roof.

It should be noted that the connecting plates 25 may be disposed at four corners of the frame assembly 20, or disposed at other positions of the frame assembly 20, and the connecting plates 25 may be welded to the frame assembly 20, or detachably connected to the frame assembly 20 through a connecting member. Therefore, the embodiments of the present invention are not limited herein.

In the embodiment of the present invention, as shown in fig. 5, the photovoltaic module further includes a supporting component 30, the supporting component 30 includes a supporting plate 31, the supporting plate 31 contacts with the backlight surface of the flexible component 10, and the supporting plate 31 is used for supporting the flexible component 10.

Since the photovoltaic module may further include the support module 30, the support module 30 includes the support plate 31, when the light receiving surface of the flexible module 10 receives light and generates electricity, the support plate 31 may contact with the backlight surface of the flexible module 10 to support the flexible module 10, so as to prevent the flexible module 10 from sinking.

It should be noted that the supporting plate 31 may be a rectangular plate, and two ends of the rectangular plate are connected to the frame of the frame assembly. In addition, in the embodiment of the present invention, the supporting component 30 can also be a thin steel wire or other structural members with supporting performance, and therefore, the embodiment of the present invention is not limited herein.

In addition, in the embodiment of the present invention, as shown in fig. 5, one end of the supporting plate 31 is connected to the first frame 21, and the other end of the supporting plate 31 is connected to the third frame 23; alternatively, one end of support plate 31 is connected to second frame 22, and the other end of support plate 31 is connected to fourth frame 24.

Since one end of the supporting plate 31 is connected to the first rim 21, the other end of the supporting plate 31 is connected to the third rim 23; alternatively, one end of support plate 31 is connected to second frame 22, and the other end of support plate 31 is connected to fourth frame 24. Thus, support plate 31 is coupled to first rim 21 and third rim 23 across the distance of flexible component 10 along second edge 12 or fourth edge 14, or coupled to second rim 22 and fourth rim 24 across the distance of flexible component 10 along first edge 11 or third edge 13, such that support plate 31 may contact flexible component 10, avoiding the problem of sagging of flexible component 10.

It should be noted that support plate 31 may be connected to first frame 21 and third frame 23 parallel to second edge 12 or fourth edge 14 of flexible component 10, or support plate 31 may be connected to second frame 22 and fourth frame 24 parallel to first edge 11 or third edge 13 of flexible component 10, of course, support plate 31 may not be parallel to the four edges of flexible component 10. Therefore, the embodiments of the present invention are not limited herein.

In addition, the supporting plate 31 may be welded to the frame member 20, or may be detachably connected to the frame member 20, for example, the supporting plate 31 is connected to the frame member 20 by bolts, that is, the supporting plate 31 is connected to the first frame 21 and the third frame 23 by bolts. Therefore, the embodiments of the present invention are not limited herein.

In an embodiment of the present invention, as shown in fig. 5, the supporting assembly 30 further includes a plurality of mounting seats 32; two ends of the supporting plate 31 are connected to the first frame 21 and the third frame 23 through the mounting seats 32; alternatively, both ends of the supporting plate 31 are connected to the second frame 22 and the fourth frame 24 by the mounting bases 32.

Because the positions of the two ends of the supporting plate 31, which are in contact with the first frame 21 and the third frame 23, are provided with corresponding mounting holes, the mounting seat 32 can connect the supporting plate 31 with the first frame 21 and the third frame 23 through the mounting holes, or the positions of the two ends of the supporting plate 31, which are in contact with the second frame 22 and the fourth frame 24, are also provided with corresponding mounting holes, the mounting seat 32 can connect the supporting plate 31 with the second frame 22 and the fourth frame 24 through the mounting holes, and the connection of the mounting seat 32 with the supporting plate 31 and the frame assembly 20 is detachable connection with screw holes and threaded holes matched, or detachable connection with snap connection, so that the supporting plate 31 is convenient to detach.

In an embodiment of the present invention, the photovoltaic module includes: a flexible assembly 10 and a bezel assembly 20; the bezel assembly 20 includes: the flexible assembly 10 includes a first edge 11, a second edge 12, a third edge 13, and a fourth edge 14, and the first edge 11 is provided with a first limiting member 111, the third edge 13 is provided with a second limiting member 131, the first edge 11 and the first limiting member 111 are both located in the first slot 211, the first blocking member 212 blocks the first limiting member 111, the third edge 13 and the second limiting member 131 are both located in the second slot 231, the second blocking member blocks the second limiting member 131, the second edge 12 is located in the first receiving slot 221, and the fourth edge 14 is located in the second receiving slot. Can avoid fixing flexible component 10 on the roofing or treating the installation face through the bonding glue all around, when ambient temperature changes, lead to the position that flexible component 10 part was glued to drop easily, perhaps lead to flexible component 10 part distortion deformation for the problem that the inside circuit of flexible component 10 broke down.

The embodiment of the utility model provides a pair of photovoltaic installing system, this photovoltaic installing system include the photovoltaic module in any embodiment of the above-mentioned embodiment, because this photovoltaic module has above-mentioned technological effect, the photovoltaic installing system who contains this photovoltaic module also should have corresponding technological effect.

It should be noted that, in this specification, each embodiment is described in a progressive manner, and each embodiment focuses on differences from other embodiments, and portions that are the same as and similar to each other in each embodiment may be referred to.

While alternative embodiments of the present invention have been described, additional variations and modifications of these embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. It is therefore intended that the following claims be interpreted as including alternative embodiments and all such alterations and modifications as fall within the true scope of the embodiments of the invention.

Finally, it should also be noted that, in this document, relational terms such as first and second, and the like may be used solely to distinguish one entity from another entity without necessarily requiring or implying any actual such relationship or order between such entities. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that an article or terminal apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such article or terminal apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of additional like elements in the article or terminal device comprising the element.

It is right above to the technical scheme that the utility model provides a detailed introduction has been carried out, and it is right to have used specific individual example herein the utility model discloses a principle and implementation mode have been elucidated, simultaneously, to the general technical staff in this field, according to the utility model discloses a principle and implementation mode all have the change part on concrete implementation mode and application scope, to sum up, this description content should not be understood as the restriction of the utility model.

Claims

1. A photovoltaic module, comprising: a bezel assembly and a flexible assembly;

2. The photovoltaic module of claim 1, wherein the first receiving pocket has first and second opposing pocket walls perpendicular to the flexible module, the first pocket wall having a first aperture disposed therein, the second pocket wall having a second aperture disposed therein, the second receiving pocket having third and fourth opposing pocket walls perpendicular to the flexible module, the third pocket wall having a third aperture disposed therein, the fourth pocket wall having a fourth aperture disposed therein;

a fifth hole and a sixth hole are formed in the bottom of the first clamping groove, a first fastener penetrates through the first hole and the fifth hole, and a second fastener penetrates through the third hole and the sixth hole;

a seventh hole and an eighth hole are formed in the groove bottom of the second clamping groove, a third fastener penetrates through the second hole and the seventh hole, and a fourth fastener penetrates through the fourth hole and the eighth hole.

3. The photovoltaic assembly of claim 2, wherein the first, second, third, and fourth holes are through holes, and the fifth, sixth, seventh, and eighth holes are threaded holes.

4. The photovoltaic module of claim 2, wherein the first receiving groove has a fifth groove wall and a sixth groove wall opposite to each other and parallel to the flexible module, the fifth groove wall is provided with a first limiting hole and a second limiting hole, the sixth groove wall is provided with a third limiting hole and a fourth limiting hole, the first limiting hole is opposite to the third limiting hole, and the second limiting hole is opposite to the fourth limiting hole;

the second accommodating groove is provided with a seventh groove wall and an eighth groove wall which are parallel to the flexible assembly and opposite to each other, a fifth limiting hole and a sixth limiting hole are formed in the seventh groove wall, a seventh limiting hole and an eighth limiting hole are formed in the eighth groove wall, the fifth limiting hole and the seventh limiting hole are opposite to each other, and the sixth limiting hole and the eighth limiting hole are opposite to each other;

the first clamping groove is provided with a first wall and a second wall which are parallel to the flexible assembly and opposite to each other, a first through hole and a second through hole are formed in the first wall, a third through hole and a fourth through hole are formed in the second wall, the first through hole is opposite to the third through hole, and the second through hole is opposite to the fourth through hole;

the second clamping groove is provided with a third wall and a fourth wall which are parallel to the flexible component and are opposite, a fifth through hole and a sixth through hole are formed in the third wall, a seventh through hole and an eighth through hole are formed in the fourth wall, the fifth through hole is opposite to the seventh through hole, and the sixth through hole is opposite to the eighth through hole;

the first connecting piece is arranged in the first limiting hole, the third limiting hole, the first through hole and the third through hole in a penetrating mode, so that the first frame is connected with the second frame, the second connecting piece is arranged in the second limiting hole, the fourth limiting hole, the fifth through hole and the seventh through hole in a penetrating mode, so that the second frame is connected with the third frame, the third connecting piece is arranged in the fifth limiting hole, the seventh limiting hole, the second through hole and the fourth through hole in a penetrating mode, so that the first frame is connected with the fourth frame, and the fourth connecting piece is arranged in the sixth limiting hole, the eighth limiting hole, the sixth through hole and the eighth through hole in a penetrating mode, so that the third frame is connected with the fourth frame.

5. The photovoltaic module according to claim 2, wherein a first clamping member and a second clamping member are disposed at two opposite ends of the first frame, a third clamping member and a fourth clamping member are disposed at two opposite ends of the third frame, a fifth clamping member and a sixth clamping member are disposed at two opposite ends of the second frame, and a seventh clamping member and an eighth clamping member are disposed at two opposite ends of the fourth frame;

the first clamping piece is clamped with the fifth clamping piece, the second clamping piece is clamped with the seventh clamping piece, the third clamping piece is clamped with the sixth clamping piece, and the fourth clamping piece is clamped with the eighth clamping piece.

6. The photovoltaic module according to claim 1, wherein the frame assembly is provided with a connecting plate, and the connecting plate is provided with a connecting hole on a side of the connecting plate on the backlight surface of the flexible assembly, and the connecting hole is used for connecting the photovoltaic module and the platform base.

7. The photovoltaic module of claim 1, further comprising a support module comprising a support plate in contact with the backlight surface of the flexible module, the support plate configured to support the flexible module.

8. The photovoltaic module of claim 7, wherein one end of the support plate is connected to the first frame and the other end of the support plate is connected to the third frame;

or one end of the supporting plate is connected with the second frame, and the other end of the supporting plate is connected with the fourth frame.

9. The photovoltaic assembly of claim 8, wherein the support assembly further comprises a plurality of mounts;

two ends of the supporting plate are connected to the first frame and the third frame through the mounting seats;

or the two ends of the supporting plate are connected to the second frame and the fourth frame through the mounting seats.

10. A photovoltaic mounting system, characterized in that it comprises a photovoltaic module according to any one of claims 1-9.