CN217759616U - Photovoltaic power generation roof module and photovoltaic power generation roof structure - Google Patents

Abstract

The utility model provides a photovoltaic power generation roof module and a photovoltaic power generation roof structure, wherein the photovoltaic power generation roof module comprises a base part; a roof member; the photovoltaic part is sequentially provided with a base part, a roof part and a photovoltaic part along the direction far away from the indoor space; the bridge cut-off connecting piece, the bridge cut-off connecting piece is worn to locate in the photovoltaic power generation roof module, and the bridge cut-off connecting piece includes bridge cut-off heat insulating part and strengthens support piece, and bridge cut-off heat insulating part connects in basic piece, strengthens support piece and connects in bridge cut-off heat insulating part and still connect in the roof piece. A photovoltaic power generation roofing module of this structure includes bridge cut-off heat insulation part and strengthens support piece through setting up the bridge cut-off connecting piece, strengthens support piece and can improve the intensity of bridge cut-off connecting piece to can improve the anti-wind pressure ability of the lockstitching a border cooperation portion of being connected with roofing spare on the bridge cut-off connecting piece, make the anti-wind of photovoltaic power generation roofing module take off the performance improvement, can avoid droing of roofing spare when meetting strong wind weather.

Description

Photovoltaic power generation roof module and photovoltaic power generation roof structure

Technical Field

The utility model relates to a building technical field, concretely relates to photovoltaic power generation roofing module and photovoltaic power generation roofing structure.

Background

With the implementation of the dual-carbon policy in China, the national government and local governments have successively issued policies for promoting the development of the distributed power generation industry. Various power users are encouraged to build the distributed photovoltaic power generation system according to the mode of 'self-service, surplus internet surfing and power grid adjustment'.

The photovoltaic roof is a form of distributed photovoltaic, and is characterized in that a user installs a solar power generation device at the top of a house and utilizes the solar photovoltaic technology to generate power in the field of urban and rural buildings. Except building the photovoltaic on current building, photovoltaic Building Integration (BIPV) also is a form of distributed photovoltaic power generation system, is different from installation formula roof photovoltaic, and it is the technique of integrating photovoltaic module to building, lets photovoltaic module and building structure form integratively. Standardized design and industrial production, and assembly type construction is the development direction of a photovoltaic roof (BIPV) power generation system, and accords with the concepts of green buildings and zero-carbon buildings. Photovoltaic rooftop (BIPV) power generation systems have become one of the most important technologies in the field of building energy conservation, and are also the most important form of solar photovoltaic application.

The prior art discloses a metal sheet roofing linking bridge, including the base, the shaping has the intermediate bottom plate on the base, and it is protruding to have the bar along the shaping of intermediate bottom plate top on the intermediate bottom plate, and the bottom surface of base is provided with the rubber heat insulating mattress, and the protruding cross-section of bar is type, and the protruding font slot looks lock on its type protruding and the metal sheet.

However, the middle support plate of the metal plate roof connecting bracket has poor wind pressure resistance, so that the metal plate roof has low wind uncovering resistance, and the metal roof plate is easy to fall off in strong wind weather.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model aims to solve the technical problem that the middle support plate anti-wind pressure ability is relatively poor among the prior art to make the anti-wind of metal sheet roofing take off the performance low, meet strong wind weather and cause the metal roof boarding to drop easily.

To this end, the utility model provides a photovoltaic power generation roofing module, include

A base member;

a roof member;

the base part, the roof part and the photovoltaic part are sequentially arranged in the direction far away from the indoor space;

bridge cut-off connecting piece, bridge cut-off connecting piece wears to locate in the photovoltaic power generation roof module, bridge cut-off connecting piece includes bridge cut-off heat insulating part and strengthens support piece, bridge cut-off heat insulating part connect in basic piece, strengthen support piece connect in bridge cut-off heat insulating part just still connect in the roof piece.

Optionally, the roof member is provided with a lock edge portion, and the lock edge fitting portion of the reinforcing support member is located in the lock edge portion.

Optionally, the locking device further comprises a locking member, and the locking member clamps the locking edge portion.

Optionally, the first connecting protrusion of the reinforcing support is overlapped with the second connecting protrusion of the bridge cut-off thermal insulation member.

Optionally, still including assembling the connecting piece, it locates to assemble the connecting piece the concatenation edge of photovoltaic power generation roofing module, it includes that first connecting piece and the second of assembling is assembled the connecting piece to assemble the connecting piece, and is adjacent photovoltaic power generation roofing module passes through first connecting piece of assembling with the connecting piece joint is assembled to the second.

Optionally, first built-up member is the first built-up member that insulates against heat, first thermal-insulated built-up member connect in photovoltaic power generation roofing module just has first joint cooperation portion, first joint cooperation portion joint in the connecting piece is assembled to the second.

Optionally, the second assembly piece includes that the body is assembled to the second and assembles joint spare, this body coupling of second assembly in photovoltaic power generation roofing module, assemble joint spare connect in the body just is assembled to the second it has second joint cooperation portion to assemble the joint spare, second joint cooperation portion with first joint cooperation portion joint.

Optionally, the body is assembled to the second includes along keeping away from the thermal-insulated piece of second that indoor orientation set gradually and strengthening and supporting the piece, the thermal-insulated piece of second connect in assemble joint spare and have joint adaptation portion, joint adaptation portion adaptation in second joint cooperation portion, it connects to strengthen supporting the piece the roof spare with the thermal-insulated piece of second.

Optionally, the photovoltaic power generation roof module edge sealing device is characterized by further comprising an edge sealing piece, wherein the edge sealing piece is arranged at the splicing edge of the photovoltaic power generation roof module.

The utility model provides a photovoltaic power generation roofing structure, including the aforesaid photovoltaic power generation roofing module.

The technical scheme provided by the utility model, following advantage has:

1. the utility model provides a photovoltaic power generation roof module, which comprises a base part, a roof part, a photovoltaic part and a bridge cut-off connecting part, wherein the base part, the roof part and the photovoltaic part are arranged in sequence along the direction far away from the indoor; the bridge cut-off connecting piece is worn to locate in the photovoltaic power generation roof module, the bridge cut-off connecting piece includes bridge cut-off heat insulating part and strengthens support piece, the bridge cut-off heat insulating part connect in the basis piece, it connect in the bridge cut-off heat insulating part just still connect in the roof piece to strengthen support piece. The photovoltaic power generation roof module of this structure includes bridge cut-off heat insulating part and strengthens support piece through setting up the bridge cut-off connecting piece, strengthens support piece and can improve the intensity of bridge cut-off connecting piece to can improve the anti-wind pressure ability of the lockstitching a border cooperation portion of being connected with the roof piece on the bridge cut-off connecting piece, make the anti-wind of photovoltaic power generation roof module take off the performance and improve, can avoid droing of roof piece when meetting strong wind weather.

2. The utility model provides a pair of photovoltaic power generation roofing module, the roof spare is equipped with lock limit portion, the lockstitching a border cooperation position of strengthening support piece is located in the lock limit portion. A photovoltaic power generation roofing module of this structure through being equipped with lock limit portion, can improve the stability of connecting between the adjacent roofing spare on the one hand, and on the other hand can prevent to have the clearance again between the adjacent roofing spare to avoid leaking.

3. The utility model provides a pair of photovoltaic power generation roofing module still includes the retaining member, the retaining member presss from both sides tightly lock limit portion. A photovoltaic power generation roofing module of this structure through being equipped with the retaining member, can lock the portion of lockstitching a border, prevents that the portion of lockstitching a border from removing to avoid appearing the clearance between roofing spare junction.

4. The utility model provides a pair of photovoltaic power generation roofing module, strengthen support piece's first connection bulge overlap joint in the bulge is connected to the second of bridge cut-off heat insulating part. The photovoltaic power generation roof module of this structure connects the bulge through the first connection bulge overlap joint in the second of bridge cut-off heat insulating part that sets up the enhancement support piece, can improve the stability of strengthening support piece and bridge cut-off heat insulating part and connecting.

5. The utility model provides a pair of photovoltaic power generation roofing module, still including assembling the connecting piece, it locates to assemble the connecting piece the concatenation edge of photovoltaic power generation roofing module, it includes that first connecting piece and the second of assembling is assembled to the connecting piece, and is adjacent photovoltaic power generation roofing module passes through first assemble the connecting piece with the connecting piece joint is assembled to the second. According to the photovoltaic power generation roof module with the structure, the first splicing connecting piece and the second splicing connecting piece are arranged to be clamped, adjacent photovoltaic power generation roof modules can be connected conveniently, and the field installation efficiency of a photovoltaic power generation house is improved.

6. The utility model provides a pair of photovoltaic power generation roofing module, first built-up fitting spare is the first piece of thermal-insulated built-up fitting, first thermal-insulated built-up fitting spare connect in photovoltaic power generation roofing module just has first joint cooperation portion, first joint cooperation portion joint in the connecting piece is assembled to the second. A photovoltaic power generation roofing module of this structure is first thermal-insulated built-up part through setting up first built-up connection spare, can obstruct the heat to the transmission of basic piece on the roof spare to avoid photovoltaic power generation room interior temperature to receive the influence of temperature on the roof spare.

7. The utility model provides a pair of photovoltaic power generation roofing module, the body is assembled to the second includes along keeping away from the thermal-insulated built-up part of second that indoor direction set gradually and strengthen supporting the built-up part, the thermal-insulated built-up part of second connect in assemble joint spare and have joint adaptation portion, joint adaptation portion adaptation in second joint cooperation portion, strengthen supporting the built-up part and connect the roof spare with the thermal-insulated built-up part of second. This photovoltaic power generation roofing module of structure is assembled the body through being equipped with the second and is included the thermal-insulated piece of second and strengthen supporting the piece of piece, and wherein the thermal-insulated piece of second can the separation roof spare on the heat to the transmission of basic part to and strengthen supporting the intensity that the body was assembled to the piece and can improve the second, prevent that the body is assembled to the second and take place deformation damage under the pressure of roof spare.

8. The utility model provides a pair of photovoltaic power generation roofing module still includes the banding piece, the banding piece is located the concatenation edge of photovoltaic power generation roofing module. A photovoltaic power generation roofing module of this structure is through being equipped with the banding piece for there is not the clearance at the concatenation edge of photovoltaic power generation roofing module, in order to prevent to have the clearance and lead to the condition appearance of hourglass water.

9. The utility model provides a pair of photovoltaic power generation roofing structure, including the aforesaid photovoltaic power generation roofing module. The photovoltaic roofing structure of this structure, because of including the photovoltaic roofing module of the aforesaid, has for this reason naturally the advantage that brings because of including the photovoltaic roofing module of the aforesaid.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the prior art descriptions will be briefly described below, it is obvious that the drawings in the following descriptions are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural view of a photovoltaic power generation roof module provided in embodiment 1 of the present invention;

FIG. 2 is a schematic structural view of the bridge-cut connector of FIG. 1;

fig. 3 is a schematic structural view of the second assembled body in fig. 1;

FIG. 4 is a partial enlarged view of FIG. 1 at A;

fig. 5 is a partial enlarged view of a photovoltaic power generation roof structure provided in embodiment 2 of the present invention;

FIG. 6 is a schematic structural view of the second construction connector of FIG. 5;

description of reference numerals:

1-a base member; 2-roof pieces; 21-a lock edge portion; 3-a photovoltaic part; 4-a bridge cut-off connector; 41-bridge cut-off insulation; 411-a second connecting projection; 42-a reinforcing support; 421-lockstitching the mating portion; 422-first connection projection; 5-a locking member; 51-a first clamping member; 52-a second clamping member; 6-a first splicing connecting piece; 61-a first snap-fit section; 7-a second splicing connecting piece; 71-a second assembled body; 711-a second insulating assembly; 712-reinforcing the support assembly; 713-a snap fit; 72-assembling the clamping pieces; 721-a second snap-fit section; 8-edge sealing member; 9-heat preservation pieces; 91-a first sound-insulating and heat-preserving member; 92-thermal insulation; 93-second sound-insulating and heat-insulating member.

Detailed Description

The technical solutions of the present invention will be described more clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are only some embodiments of the present invention, not all embodiments. 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.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Furthermore, the technical features mentioned in the different embodiments of the invention described below can be combined with each other as long as they do not conflict with each other.

Example 1

The embodiment provides a photovoltaic power generation roofing module, as shown in fig. 1 to 6, photovoltaic power generation roofing module includes basic component 1, roofing spare 2, photovoltaic piece 3, bridge cut-off connecting piece 4, retaining member 5, assembles connecting piece and banding piece 8. Wherein, basis spare 1, roofing spare 2 and photovoltaic piece 3 set gradually along keeping away from indoor orientation.

As shown in fig. 1 and 2, the bridge cut-off connector 4 is inserted into the photovoltaic power generation roof module, the bridge cut-off connector 4 includes a bridge cut-off heat insulation member 41 and a reinforcing support member 42, the bridge cut-off heat insulation member 41 is connected to the base member 1, and the reinforcing support member 42 is connected to the bridge cut-off heat insulation member 41 and is also connected to the roof member 2. Wherein the first coupling protrusion 422 of the reinforcing support member 42 is overlapped on the second coupling protrusion 411 of the bridge-cut insulation 41 and both are coupled by a fastening member such as a rivet.

Strengthen support piece 42 through the setting, strengthen support piece 42 and can improve the intensity of bridge cut-off connecting piece 4, thereby can improve the anti-wind pressure ability of lockstitching a border cooperation portion 421 of being connected with roofing spare 2 on the bridge cut-off connecting piece 4, make the anti-wind of photovoltaic power generation roofing module take off the performance and improve, can avoid droing of roofing spare 2 when meetting strong wind weather, connect bulge 411 through setting up the first connection bulge 422 overlap joint in the second of bridge cut-off heat insulating part 41 of strengthening support piece 42, can improve the stability of strengthening support piece 42 and the connection of bridge cut-off heat insulating part 41.

As shown in fig. 4, the roof member 2 is provided with a locking edge portion 21, the locking edge matching portion 421 of the reinforcing support member 42 is located in the locking edge portion 21, and the locking edge portion 21 is arranged on the side of the photovoltaic member 3 away from the roof member 2 through the interval between the adjacent photovoltaic members 3. As shown in fig. 1 and 4, the locking member 5 is provided on the locking edge portion 21, and the locking member 5 clamps the locking edge portion 21. The locking member 5 includes a first clamping member 51 and a second clamping member 52, the first clamping member 51 and the second clamping member 52 are rotatably connected, and a fastening member such as a bolt is connected between the first clamping member 51 and the second clamping member 52 to fix the first clamping member 51 and the second clamping member 52 to clamp the locking edge portion 21.

By arranging the locking edge part 21, the stability of the connection between the adjacent roof pieces 2 can be improved, and a gap between the adjacent roof pieces 2 is prevented to avoid water leakage; the locking edge part 21 is provided with the first clamping piece 51 and the second clamping piece 52, the fastening piece is connected between the first clamping piece 51 and the second clamping piece 52, and the first clamping piece 51 and the second clamping piece 52 move towards one side close to the locking edge part 21 through the fastening piece, so that the locking edge part 21 is fixed, and the locking edge part 21 is prevented from shaking; the locking edge part 21 penetrates through the interval to be arranged on one side, far away from the roof part 2, of the photovoltaic part 3, so that the locking part 5 can be conveniently installed, and the locking part 5 can be used for fixing the photovoltaic part 3.

As shown in fig. 1 and 5, the splicing edge of photovoltaic power generation roof modules is located to the splicing connecting piece in this embodiment, and the splicing connecting piece includes that connecting piece 6 and second are assembled to the first splicing connecting piece 7, and connecting piece 7 joint is assembled through first splicing connecting piece 6 and second to adjacent photovoltaic power generation roof modules, assembles connecting piece 7 through being equipped with first splicing connecting piece 6 and second, can make things convenient for adjacent photovoltaic power generation roof modules to connect, improves the on-the-spot installation effectiveness of photovoltaic power generation room.

As shown in fig. 3, 5 and 6, the first splicing connecting member 6 is a first heat-insulating splicing member, the first heat-insulating splicing member is connected to the photovoltaic power generation roof module and has a first clamping matching portion 61, and the first clamping matching portion 61 is clamped to the second splicing connecting member 7.

Through setting up first connecting piece 6 of assembling for first thermal-insulated piece of assembling, can the separation roof part 2 go up the heat to the transmission of basic part 1 to avoid photovoltaic power generation room interior temperature to receive the influence of roof part 2 upper temperature.

As shown in fig. 3, 5 and 6, the second assembling connecting piece 7 comprises a second assembling body 71 and an assembling clamping piece 72, the second assembling body 71 is connected to the photovoltaic power generation roof module, the assembling clamping piece 72 is connected to the second assembling body 71, the assembling clamping piece 72 is provided with a second clamping matching portion 721, and the second clamping matching portion 721 and the first clamping matching portion 61 are clamped. Assemble joint spare 72 and assemble body 71 with the second and be connected through the setting, second joint cooperation portion 721 and first joint cooperation portion 61 joint can make first connecting piece 6 and the second of assembling assemble connecting piece 7 and connect rapidly. Wherein, assemble joint spare 72 bottom and can open and be equipped with the mounting hole, can be equipped with the fastener such as screw or bolt in the mounting hole and assemble connecting piece 7 and roof crossbeam or purlin fixed connection with the second. The assembly clamping pieces 72 can also be welded and fixed with the roof beams or purlines.

Wherein as shown in fig. 3 and fig. 6, the second assembly body 71 includes the second thermal-insulated assembly 711 and the enhancement support assembly 712 that set gradually along keeping away from indoor direction, and the second thermal-insulated assembly 711 is connected in assembling joint spare 72 and has joint adaptation portion 713, and joint adaptation portion 713 adapts to second joint cooperation portion 721, strengthens supporting assembly 712 and connects roofing piece 2 and the thermal-insulated assembly 711 of second.

By arranging the second heat insulation assembly 711 and the reinforcing support assembly 712, the second heat insulation assembly 711 can prevent heat on the roof part 2 from being transferred to the base part 1, and prevent the indoor temperature of the photovoltaic power generation room from being influenced by the temperature on the roof part 2; and the reinforcing support assembly parts 712 can improve the strength of the second assembled body 71, and prevent the second assembled body 71 from deforming and damaging under the pressure of the roof member 2.

As shown in fig. 1, be equipped with heat preservation 9 between basic component 1 and the roofing spare 2, the bridge cut-off connecting piece 4 runs through heat preservation 9 along the directional roof spare 2's of basic component 1 direction, and bridge cut-off connecting piece 4 can be as an organic whole with basic component 1, heat preservation 9 and roofing spare 2 connection, can keep warm to photovoltaic power generation roofing module through being equipped with heat preservation 9. The heat insulating member 9 includes a first sound-proof heat insulating member 91, a heat insulating member 92, and a second sound-proof heat insulating member 93, and the first sound-proof heat insulating member 91 and the second sound-proof heat insulating member 93 are disposed on two sides of the heat insulating member 92. Specifically, the first soundproof and heat insulating member 91 may be a rock wool panel or others, the heat insulating member 92 may be a vacuum insulation panel, and the second soundproof and heat insulating member 93 may be a rock wool panel or others. Can give sound insulation to photovoltaic power generation roofing module through being equipped with first sound insulation heat preservation 91 and second sound insulation heat preservation 93 and keep warm, through being equipped with adiabatic 92, can prevent that the heat on the roofing spare 2 from transmitting the photovoltaic power generation indoor portion through heat preservation 9, leading to indoor temperature to receive the influence of temperature on the roofing spare 2. Wherein the thermal insulation 92 may be a vacuum insulation panel or the like.

As shown in fig. 1, the edge banding 8 is provided at the splice edge of the photovoltaic roofing module. Specifically, one end of the edge sealing part 8 is connected to the heat insulation part 9, and one side of the edge sealing part, which is far away from the heat insulation part 9, is connected to the roof part 2 and the second assembling connecting part 7. By providing the edge sealing member 8, a situation where a gap exists to cause water leakage is prevented. Wherein, the edge sealing piece 8 is a polyurethane edge sealing piece or other.

In the embodiment, during field installation, firstly, the installation position of the assembled joint part 72 is determined, the assembled joint part 72 is fixedly connected with roof beams or purlins through fixing parts such as bolts, after the installation of the assembled joint part 72 is completed on all roof beams or purlins from a ridge to an eave, the photovoltaic roof module is hoisted to a preset position, the assembled joint part 72 is connected with the second assembled body 71 through fixing parts such as screws, then, the first assembled connecting part 6 on one photovoltaic roof module is clamped with the assembled joint part 72 on the other photovoltaic roof module, so that the connection of the bottoms of the two photovoltaic roof modules is completed, then, the locking edge parts 21 on the two photovoltaic roof modules are connected, the connection of the tops of the two photovoltaic roof modules is completed, and finally, the locking edge parts 21 are clamped by the locking parts 5, so that the locking edge parts 21 are fixed.

Example 2

This embodiment provides a photovoltaic power generation roofing structure, as shown in fig. 3, fig. 5 and fig. 6, including the photovoltaic power generation roofing module in embodiment 1, photovoltaic power generation roofing structure is assembled through first connecting piece 6 and the second connecting piece 7 of assembling by a plurality of photovoltaic power generation roofing modules and is formed, can improve the on-the-spot installation effectiveness of photovoltaic power generation roofing structure.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications can be made without departing from the scope of the invention.

Claims (10)

1. A photovoltaic roofing module, comprising:

a base member (1);

a roof member (2);

the photovoltaic piece (3) is sequentially provided with the base piece (1), the roof piece (2) and the photovoltaic piece (3) in the direction far away from the indoor space;

bridge cut-off connecting piece (4), bridge cut-off connecting piece (4) are worn to locate in the photovoltaic power generation roof module, bridge cut-off connecting piece (4) include bridge cut-off heat insulating part (41) and strengthen support piece (42), bridge cut-off heat insulating part (41) connect in basic piece (1), strengthen support piece (42) connect in bridge cut-off heat insulating part (41) and still connect in roof piece (2).

2. Photovoltaic roofing module according to claim 1, characterized in that said roofing element (2) is provided with a locklip portion (21), said locklip engagement portion (421) of said reinforcing support (42) being located inside said locklip portion (21).

3. Photovoltaic roofing module according to claim 2, characterized in that it further comprises retaining members (5), said retaining members (5) clamping said locking portions (21).

4. Photovoltaic roofing module according to claim 1, characterized in that said first connection tab (422) of said stiffening support (42) is overlapped to said second connection tab (411) of said bridge-cut thermal insulation element (41).

5. The photovoltaic roofing module of any of claims 1 to 4, further comprising a splicing connector, wherein the splicing connector is disposed at a splicing edge of the photovoltaic roofing module, the splicing connector comprises a first splicing connector (6) and a second splicing connector (7), and the adjacent photovoltaic roofing modules are clamped by the first splicing connector (6) and the second splicing connector (7).

6. A photovoltaic roofing module according to claim 5, characterized in that said first splicing connection member (6) is a first thermal insulating splicing member connected to said photovoltaic roofing module and having a first snap engagement portion (61), said first snap engagement portion (61) being snap-engaged with said second splicing connection member (7).

7. The photovoltaic roofing module of claim 5, wherein the second assembly connector (7) comprises a second assembly body (71) and an assembly clamping member (72), the second assembly body (71) is connected to the photovoltaic roofing module, the assembly clamping member (72) is connected to the second assembly body (71) and the assembly clamping member (72) has a second clamping matching portion (721), and the second clamping matching portion (721) and the first clamping matching portion (61) are clamped.

8. A photovoltaic roofing module according to claim 7, characterized in that the second module body (71) comprises a second insulating module (711) and a reinforcing support module (712) arranged in sequence in a direction away from the room, the second insulating module (711) being connected to the module clip (72) and having a clip adapter (713), the clip adapter (713) being adapted to the second clip adapter (721), the reinforcing support module (712) connecting the roofing element (2) and the second insulating module (711).

9. Photovoltaic roofing module according to any of claims 1 to 4, further comprising edge sealers (8), said edge sealers (8) being provided at the splicing edges of the photovoltaic roofing module.

10. A photovoltaic roofing structure comprising a plurality of photovoltaic roofing modules according to any one of claims 1 to 9.

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