CN205453616U - Framework that solar module and solar module used - Google Patents

Abstract

The utility model provides a framework that solar module and solar module used, this solar module of uses the framework, and this framework uses the frame piece that adapting unit will be adjacent to fix each other, can't obtain abundant constant intensity sometimes between frame piece and adapting unit. This solar module is through inserting adapting unit to the well kenozooecium of the well kenozooecium of the 1st frame piece and adjacent the 2nd frame piece, with frame piece interconnect each other, in this solar module, forms to set up and adds the convex part of the ministry of worker and the structure of adapting unit's concave part gomphosis in the frame piece. Can set the constant intensity that the shape that has the inclined plane improves frame piece and adapting unit to in the convex part of frame piece through setting up.

Description

Solar module and the framework of solar module

Technical field

This utility model relates to the framework of solar module and solar module, particularly relates to that framework is installed on solar module main body and the solar module that formed and the framework of the solar module that is used for this solar module.

Background technology

In recent years, the concern to global environmental problems improves constantly, and wherein, utilizes the new energy technology of natural energy resources by bigger concern.Particularly, as the method that can obtain clean energy resource, great majority carry out utilizing opto-electronic conversion effect to convert light energy into the solar power generation of electric energy.

Such as, monocrystalline silicon substrate, polycrystalline silicon substrate is used to make solar cell device.In the case of using silicon substrate as solar cell device, the electrically output produced by a solar cell device is less, therefore, in the way of the connection of multiple solar cell devices is obtained the electrically output of practicality, these multiple solar cell devices are electrically connected to form solar module main body.

In the case of using the solar cell device formed by silicon substrate, solar module main body becomes following structure: is arranged by the solar cell device of multiple serial or parallel connections between transparency carrier (glass) and the back-cover of rear side of sensitive surface side and configures, and uses sealing resin that the sealing of these solar cell devices is integrated.For constituting the solar cell device of solar module main body, it is also possible to be in addition to the compound semiconductor beyond monocrystaline silicon solar cell, polysilicon solar cell, the solaode of thin film class.

Further, the peripheral part being formed at this solar module main body is provided with the solar module of framework.The padded coamings such as end face seal parts, binding agent can be configured between solar module main body and framework.It addition, can by being set to have section view time the structure of rectangular hollow bulb and obtain the framework that intensity is higher and lighter.

Figure 12 is the exploded perspective view of the signal of the framework of the solar module disclosed in patent documentation 1.Framework 20 is arranged to surround the architrave shape of module body.Module body is inserted into the groove 20a of framework 20.Framework 20 has 4 frame sheets and by 2 adjacent frame sheets connection member 25 that (such as, the frame sheet 22 of Figure 12 and frame sheet 24) connects each other.

Connection member 25 is arranged to L-shaped substantially, and the 2nd insertion section 25b of connection member is inserted into the insertion hole 20B1 of frame sheet, the 1st insertion section 25a and is inserted into the insertion hole of adjacent frame sheet.For having framework configured as above, it is preferably configured as after the insertion section of connection member is inserted into insertion hole being not susceptible to depart from.As an example, disclose following proposal: by insertion section with insert the face that contact, hole arrange concavo-convex improve insertion after mutual frictional force so that be not susceptible to disengaging.

Prior art literature

Patent documentation

Patent documentation 1: Japanese Unexamined Patent Publication 2013-183092 publication

But, the concavo-convex concrete structure that the face that the insertion hole of the insertion section and framework that are not disclosed in connection member in patent documentation 1 contacts is arranged.

If insertion section and insertion hole cannot obtain the fixing intensity of abundance, then, when undertaking bigger load at solar module, adjacent framework may be separated from one another.

Utility model content

Solar module of the present utility model is formed as, each limit that framework is installed on solar module main body forms, described solar module is characterised by, described framework comprises and has the 1st frame sheet of hollow bulb and the 2nd frame sheet with hollow bulb adjacent with described 1st frame sheet, described framework has connection member, described connection member is by being inserted into hollow bulb and the hollow bulb of described 2nd frame sheet of described 1st frame sheet, and described 1st frame sheet and described 2nd frame sheet are connected to each other, described 1st frame sheet has protuberance at hollow bulb, described connection member has bending section and the recess chimeric with described protuberance, the face of the most described bending section side of described protuberance is inclined plane.

Furthermore it is preferred that the face with described bending section opposite side of described protuberance is relative to the substantially vertical face of direction of insertion described connection member inserted to the hollow bulb of described 1st frame sheet.

Furthermore it is preferred that embed multiple described protuberance in a described recess of described connection member.

Furthermore it is preferred that described connection member is being formed with multiple described recess in the direction of insertion that the hollow bulb of described 1st frame sheet inserts, in multiple described recesses, embed described protuberance.

Furthermore it is preferred that described connection member is being formed with multiple described recess in the direction of insertion that the hollow bulb of described 1st frame sheet inserts, in multiple described recesses, embed described protuberance.

Furthermore it is preferred that described connection member is being formed with multiple described recess in the direction of insertion that the hollow bulb of described 1st frame sheet inserts, in multiple described recesses, embed described protuberance.

In addition, the framework of solar module of the present utility model is characterised by, described framework comprises and has the 1st frame sheet of hollow bulb and the 2nd frame sheet with hollow bulb adjacent with described 1st frame sheet, described framework has connection member, described connection member is by being inserted into hollow bulb and the hollow bulb of described 2nd frame sheet of described 1st frame sheet, and described 1st frame sheet and described 2nd frame sheet are connected to each other, described 1st frame sheet has protuberance at hollow bulb, described connection member has bending section and the recess chimeric with described protuberance, the face of the most described bending section side of described protuberance is inclined plane.

Pass through this utility model, it is possible to obtain the connection firmly of adjacent framework.

Accompanying drawing explanation

Fig. 1 is the simple axonometric chart of the solar module of the 1st embodiment of the present utility model.

Fig. 2 is framework and the simple axonometric chart of connection member of the solar module representing the 1st embodiment of the present utility model.

Fig. 3 is frame sheet and the simple axonometric chart of connection member of the solar module representing the 1st embodiment of the present utility model.

Fig. 4 (a) and 4 (b) are the simple sectional view of the fitting portion of the processing department of the tooth-like part of the connection member of the solar module representing the 1st embodiment of the present utility model and frame sheet respectively.

Fig. 5 (a) and 5 (b) are the axonometric charts of the outline of the frame sheet of the solar module representing the 2nd embodiment of the present utility model and connection member.

Fig. 6 (a) and 6 (b) are the axonometric charts of the outline of the frame sheet of the solar module representing the 3rd embodiment of the present utility model and connection member.

Fig. 7 (a) and 7 (b) are the simple sectional views of the fitting portion of the processing department of the tooth-like part of the connection member of the solar module representing the 4th embodiment of the present utility model and frame sheet.

Fig. 8 (a) and 8 (b) are frame sheet and the schematic drawings of connection member of the solar module representing the 5th embodiment of the present utility model.

Fig. 9 is the simple sectional view of other examples of the connection member of the solar module representing the 5th embodiment of the present utility model.

Figure 10 is the simple axonometric chart of the processing department of the frame sheet of the solar module representing the 6th embodiment of the present utility model.

Figure 11 is the simple axonometric chart of the processing department of the frame sheet of the solar module representing the 7th embodiment of the present utility model.

Figure 12 is the simple axonometric chart of the solar module representing conventional example.

Detailed description of the invention

Below, referring to the drawings, embodiment of the present utility model is illustrated.In the following description, identical to identical parts mark label.Their title and function are the most identical.Thus, the detailed description they not repeated.

[embodiment 1]

Fig. 1 is the simple axonometric chart of the solar module observing the 1st embodiment of the present utility model from sensitive surface side.Solar module 1 be configured to solar module main body 10 periphery architrave shape embed framework 200.Framework 200 has the 1st frame sheet the 210,211, the 2nd frame sheet 220,221 and connection member relative to each other.Solar module 1 is arranged on support platform, roof, for photovoltaic power generation system.

Fig. 2 is the simple axonometric chart of the framework of the solar module representing the 1st embodiment of the present utility model.Connection member 300 is used to be connected to each other by adjacent frame sheet.Solar module main body is in rectangle substantially, therefore, is 4 positions by the position that adjacent frame sheet is connected to each other, and connection member 300 is also 4.Frame sheet is formed by the extruded of the metals such as aluminum.It addition, connection member 300 is formed by the extruded of the metals such as aluminum or the bending machining of metallic plate.

In 4 frame sheets, all the both ends of the surface of length direction are cut into about 45 degree, make adjacent frame sheet the most seamlessly configure.Additionally, the cutting angle of the end face of frame sheet is not limited to 45 degree, as long as the face connected at the 1st frame sheet and the 2nd frame sheet, the structure of corresponding respective hollow bulb.For example, it may be frame sheet is 60 degree of cuttings, another frame sheet is the combinations of 30 degree of cuttings.

Fig. 3 is the simple axonometric chart amplified by the aminoacyl site in Fig. 2, it is shown that a part for connection member the 300 and the 1st frame sheet 211.

1st frame sheet 211 has the fitting portion 212 and hollow bulb 213 being a substantially U-shaped for the cross section being fitted together to solar module main body.Fitting portion 212 is positioned at the sensitive surface side of hollow bulb 213.

The edge of solar module main body 10 is embedded in fitting portion 212.End face seal parts can be configured between solar module main body 10 and fitting portion 212.For end face seal parts, it is possible to use silicones, butyl rubber etc..By making end face seal parts touch with the end face of solar module main body, prevent moisture from invading to inside from the end face of solar module main body.Framework is made to be difficult to the function departed from from solar module main body it addition, end face seal parts also have.

Hollow bulb 213 is the space being made up of 4 walls comprising relative hollow bulb inwall 213c and hollow bulb outer wall 213d.Distance piece 214 it is formed with in hollow bulb 213.By distance piece, hollow bulb 213 it is separated into the 1st space 213a and is positioned at the 2nd space 213b below the 1st space.

Hollow bulb inwall 213c is formed with processing department 400.Processing department 400 is the part processed in the way of forming protuberance in the 1st space 213a of hollow bulb.Processing department 400 is formed by the punch process to frame sheet 211.In the present embodiment, in the end of the 1st frame sheet 211, it is configured with two processing departments 400 substantially in parallel with the end face of frame sheet.Omitted in the drawings, but, processing department 400 is respectively configured with two at the two ends of the 1st frame sheet 211, adds up to and is configured with 4.

Connection member 300 is formed as the shape of L-shaped, and even lug ends 301 becomes, in the way of the 1st space 213a being easily inserted to hollow bulb, the structure that front end is thinner.Connection member 300 has the bending section 302 being bent approximately in 90 degree.Further, even between lug ends 301 and bending section 302, there is recess 303.Recess 303 be one end of short transverse H from connection member be multiple grooves of general triangular when being formed to the section view of the other end.Company's lug ends 301 of connection member is inserted into the 1st space 213a, and, until bending section 302 is embedded in the 1st space 213a, thus connection member 300 is fixed on the 1st frame sheet 211.Ratcheting with the protuberance of processing department 400 by the recess 303 that makes connection member, connection member 300 is chimeric with the 1st frame sheet 211.The protuberance of processing department 400 exists multiple, therefore, it is possible to make connection member 300 chimeric with the 1st frame sheet 211 more securely.It addition, when can prevent solar module from undertaking bigger load by configuring multiple protuberance there is breakage in protuberance.Its reason is, the load making the protuberance of each processing department be undertaken diminishes.

Further, by configuring the protuberance of two processing departments 400 substantially in parallel with the end face of frame sheet 211, the recess 303 of a channel-shaped is configured with the protuberance of two processing departments 400.Can prevent when connection member 300 is inserted into the 1st space 213a of a hollow bulb part for recess the protuberance repeatedly with processing department from colliding by carrying out the configuration of processing department as above.Thereby, it is possible to recess shapes when making connection member insert is difficult to change, obtain stable fixing intensity.

It addition, the cross sectional shape of the cross sectional shape of profile near the bending section 302 of connection member 300 and the 1st space 213a is substantially uniform, by embedding connection member 300 and until bending section 302, close the end of the 1st space 213a.

Connection member 300 is formed as the shape of L-shaped, therefore there are two even lug ends.Another is connected lug ends and is embedded in the 2nd frame sheet 220 adjacent with the 1st frame sheet 211, be similarly formed the structure that the recess of connection member is chimeric with the protuberance of frame sheet.It addition, use Fig. 3 to illustrate a corner, but the situation in other three corners is the most identical.

Fig. 4 (a) and 4 (b) are the simple sectional views of the recess the representing connection member situation the most chimeric with the protuberance of the processing department of frame sheet.Fig. 4 (a) is the figure representing embodiment, and Fig. 4 (b) is the figure representing comparative example.

As shown in Fig. 4 (a), shape in substantially isosceles triangle when the recess 303 of connection member has a section view.It addition, the face of the bending section side of the connection member of the protuberance of the processing department 400 of frame sheet is formed as inclined plane shape.The face of the bending section side of connection member refers to, when the recess of connection member is chimeric with the protuberance of the processing department of frame sheet, and the face contacted with the face being positioned at bending section side of the recess of connecting portion.

In the present embodiment, the face of company's lug ends side of the connection member of the protuberance of the processing department 400 of frame sheet is again formed as inclined plane shape, in the shape of substantially isosceles triangle when protuberance is section view.The face of company's lug ends side of connection member refers to, when the recess of connection member is chimeric with the protuberance of the processing department of frame sheet, and the face contacted with the face being positioned at even lug ends side of the recess of connecting portion.

Fig. 4 (b) is the figure representing comparative example.The shape of the processing department of frame sheet it is with the difference of the present embodiment represented by Fig. 4 (a).Shape in substantially tetragon when the protuberance of the processing department 40 of frame sheet has a section view.In the shape of substantially isosceles triangle when the recess 33 of connection member is the section view identical with present embodiment.

By the face of the bending section side of the connection member of the protuberance of processing department is set to inclined-plane, compared with comparative example, it is possible to increase connection member and the fixing intensity of frame sheet.This is owing to considering following situation: becomes big by the contact area in the face of the bending section side of the recess in the face Yu connection member that make the bending section side of the connection member of the protuberance of the processing department of framework and makes frictional force become big, thus is difficult to be mutually mobile.

It addition, in the case of the shape shown in comparative example, when solar module undertakes the biggest load, connection member can depart from from frame sheet sometimes.By confirming that situation is the discovery that the protuberance self of the processing department of frame sheet departs from detail.Consider that therefore, power concentrates on contact site owing to the recess 33 of connection member is less with the contact area of the protuberance of processing department 40, cause fracture.In this utility model, it is possible to by the face of the bending section side of the connection member of the protuberance of processing department is arranged to inclined-plane, make the contact area of the recess with connection member become big, prevent the concentration of the power of local.

In the present embodiment, by the face of company's lug ends side of the connection member of the protuberance of the processing department of frame sheet is also configured to inclined plane shape, it is easy to carry out the Qian He of recess with connection member.

It addition, in the present embodiment, it be not internally provided with blank part on the surface of connection member.Lightweight can be realized while maintaining intensity by arranging blank part.

In the present embodiment, form the structure that the protuberance of two processing departments making frame sheet is chimeric with the recess of connection member channel-shaped, but naturally it is also possible to be fitted together to 3 with upper convex portion.Quantity is the most, and fixing intensity is the biggest.

[embodiment 2]

Fig. 5 (a) and 5 (b) are the simple axonometric charts of the connection member constituting solar module representing the 2nd embodiment of the present utility model.With the shape that the difference of the 1st embodiment is recess.Fig. 5 (a) and 5 (b) are the simple axonometric charts observing same connection member from different perspectives.

In the present embodiment, the recess 313 of connection member 310 is made only in the position corresponding with the protuberance of the processing department of the 1st frame sheet.The quantity of the protuberance of the processing department of the 1st frame sheet is identical with the quantity of the recess of connection member.In the present embodiment, the protuberance of processing department is two, and therefore the recess of connection member is also two.In order to make the protuberance of the processing department of frame sheet be fitted together to the recess to connection member swimmingly, the width making the width ratio protuberance of recess is big.

By forming the shape of recess as above, compared with the situation of the structure being cut into the channel-shaped of the other end with one end that recess is formed as the short transverse from connection member, owing to the part of the thinner thickness of connection member is less, therefore, connection member self is more difficult to deform.Can be difficult to deform by making connection member, improve the fixing intensity with frame sheet further.

[embodiment 3]

Fig. 6 is the simple axonometric chart of the connection member constituting solar module representing the 3rd embodiment of the present utility model.Fig. 6 (a) and 6 (b) are the simple axonometric charts observing same connection member from different perspectives.Being with the difference of the 1st embodiment, recess does not arrange the other end from one end of the short transverse of connection member.

In the present embodiment, the recess 323 of connection member 320 does not arrange the other end from one end of the short transverse (the H direction Fig. 6) of connection member, and midway is provided with par 324.Par can be provided by improve the intensity of connection member.Its reason is, the position of the thinner thickness of connection member is less, and therefore connection member self is difficult to deform.

It addition, the quantity of the recess being arranged in the direction of insertion (the L direction in Fig. 6) to frame sheet of connection member is more than the quantity of the protuberance being arranged at the 2nd frame sheet.Specifically, only existing a protuberance in an insertion direction, therefore the recess of the chimeric required connection member of protuberance is one, but, it is provided with 8 recesses in an insertion direction.Can be by forming the degree of freedom of the forming position of the protuberance of the processing department constructing and improving frame sheet as above.Its reason is, it is not necessary to be attached the strict location of the protuberance of the recess of parts and the processing department of framework.

In the present embodiment, illustrate that the central part in short transverse H is provided with the situation of par, but it is also possible to arrange par in one end of the short transverse of connection member.Par can also be set at the two ends of short transverse, it is also possible to this arranges par at two at two ends and central part.

[embodiment 4]

Fig. 7 (a) and 7 (b) are the simple sectional views representing the 4th embodiment of the present utility model.Fig. 7 (a) is the sectional view of connection member, and Fig. 7 (b) is the figure of the recess the representing connection member simple section chimeric with the protuberance of processing department.It is with the difference of embodiment 1, the shape of the protuberance of the shape of the recess of connection member and the processing department of framework.

As shown in Fig. 7 (a), the recess 333 of connection member 330 is the shape of approximate right angle triangle when having section view.In more detail, the face of bending section 332 side of the connection member of recess 333 is inclined-plane, and even the face of lug ends 331 side is the most upright face.

It addition, as shown in Fig. 7 (b), the protuberance of the processing department 430 of frame sheet is the shape of approximate right angle triangle when forming the section view with vertical 430a.Vertical 430a is the face substantially vertical with the direction that connection member is inserted into frame sheet.The vertical 333a of the recess 333 of connection member is the face substantially vertical with the direction that connection member is inserted into frame sheet too.The processing department 430 of frame sheet is embedded in the recess 333 of connection member and is formed chimeric.

Can by by the protuberance of the processing department of frame sheet, even the face of lug ends side be set to substantially vertical face, make connection member be difficult to from frame sheet and extract.Further, as shown in the embodiment, it is possible to by the face of company's lug ends side of the recess of connection member is set to vertically, make connection member be difficult to from frame sheet and extract.When connection member is subject to the power extracting direction, the vertical 333a of the recess of connection member abuts with the vertical 430a of the protuberance of processing department.Its reason is, vertical 333a and vertical 430a is the face substantially vertical relative to extracting direction.

As by method chimeric to the protuberance of the processing department of frame sheet and the recess of connection member, exist and carry out the method for punch process when connection member being inserted into the hollow bulb of frame sheet and connection member is inserted into the method being formed with the frame sheet inserting processing department.Along with the maximization of solar module, the length of frame sheet also can be elongated, therefore, it is difficult to carry out punch process when connection member is inserted into the hollow bulb of frame sheet.Thus, for the purpose of improving operability, the method sometimes selecting connection member is inserted into the frame sheet being pre-formed with processing department.In the case of connection member is inserted into the method for the frame sheet being formed with processing department by selection, if the structure of present embodiment, then there is the advantage being prone to connection member is inserted into the hollow bulb of frame sheet.Its reason is, relative to the direction of insertion of connection member, the protuberance of the processing department of frame sheet has the inclined-plane of acute angle.

[embodiment 5]

Fig. 8 (a) and 8 (b) are the schematic drawings of the solar module representing the 5th embodiment of the present utility model.Fig. 8 (a) is the simple sectional view of connection member, and Fig. 8 (b) is the simple axonometric chart of the 2nd frame sheet.Be with the difference of the 4th embodiment, the recess 343 of connection member 340 be not be formed at connection member be formed in relative to the inner side of bending direction outside.It addition, the protuberance 440 of the processing department of the 2nd frame sheet is formed at the face of the hollow bulb side of the hollow bulb outer wall of the hollow bulb constituting frame sheet.

By forming structure as above, it is possible to after the recess of connection member is chimeric with the protuberance of the processing department of frame sheet, improve the operability of the situation using this chimeric technique of processing department forming frame sheet.Its reason is, owing to being the outside of processing frame sheet, so being prone to operate.

Illustrate other examples of present embodiment in fig .9.As it is shown in figure 9, recess 353 can be arranged in the both sides, inner side and outer side in the direction of the bending relative to connection member 350.Higher fixing intensity can be obtained by forming recess in inner side and outer side.

[embodiment 6]

Figure 10 is the simple axonometric chart of the solar module representing the 6th embodiment of the present utility model.It is with the difference of the 4th embodiment, is the structure that multiple recesses of formation are chimeric with the protuberance of processing department in the direction of insertion of connection member.

In the present embodiment, the one end at frame sheet is provided with 4 processing departments 450.Arrange 4 processing departments at the two ends of frame sheet, therefore, there are 8 processing departments in frame sheet on the whole.In the present embodiment, the direction of insertion of connection member is arranged with 3 recesses.The recess of the bending section side being formed at connection member embeds the protuberance of the processing department of two, the recess of even lug ends side embeds the structure of the protuberance of two processing departments.

Can prevent from only a processing department being applied when connection member applies the power rotated the situation of power by being formed in the direction of insertion of connection member the structure of the protuberance of chimeric processing department in multiple recesses of arrangement, maintain higher fixing intensity.

[embodiment 7]

Figure 11 is the simple axonometric chart of the solar module representing the 7th embodiment of the present utility model.With quantity and the configuration that the difference of the 4th embodiment is processing department.

In the present embodiment, the one end at frame sheet is formed with 5 processing departments 460.At least provided with 3 recesses in the direction of insertion of connection member.Form following structure: in the recess of the bending section side of connection member, be fitted together to the protuberance of two processing departments, the protuberance of chimeric two processing departments in the recess of even lug ends side, on this basis, in the recess of central authorities, the protuberance of a chimeric processing department, adds up to the protuberance embedding 5 processing departments.By formation structure as above, the quantity of the protuberance of processing department is not increased to more than requirement, even if in the case of solar module undertakes bigger load, it is also possible to maintain the fixing intensity of connection member and the abundance of frame sheet.

Above, embodiment 1 to embodiment 7 has been carried out specific description, but this utility model has been not limited to this.Appropriately combined 7 above-mentioned embodiments each disclosed technical scheme and the embodiment that obtains is also contained in technical scope of the present utility model.

Additionally, this time disclosed embodiment goes up in all respects is only example, it is not intended as the foundation of the explanation limited.Thus, technical scope of the present utility model is not the content only explained by above-mentioned embodiment, can records based on claims divide.It addition, all changed contents comprised in the meaning impartial with claims and claims.

Label declaration

1 solar module

10 solar module main bodys

200 frameworks

210,211 the 1st frame sheet

220,221 the 2nd frame sheet

212 fitting portions

213 hollow bulbs

214 distance pieces

300,310,320,330,340,350 connection member

301,331 connect lug ends

302,332 bending section

303,313,323,333,343,354 recess

400,410,420,430,440,450,460 processing department.

Claims (7)

1. a solar module, each limit that framework is installed on solar module main body forms, and described solar module is characterised by,

Described framework comprises and has the 1st frame sheet of hollow bulb and the 2nd frame sheet with hollow bulb adjacent with described 1st frame sheet,

Described framework has connection member, and described connection member is by being inserted into hollow bulb and the hollow bulb of described 2nd frame sheet of described 1st frame sheet, and described 1st frame sheet and described 2nd frame sheet is connected to each other,

Described 1st frame sheet has protuberance at hollow bulb,

Described connection member has bending section and the recess chimeric with described protuberance,

The face of the most described bending section side of described protuberance is inclined plane.

Solar module the most according to claim 1, it is characterised in that

The face with described bending section opposite side of described protuberance is relative to the substantially vertical face of direction of insertion described connection member inserted to the hollow bulb of described 1st frame sheet.

Solar module the most according to claim 1 and 2, it is characterised in that

Multiple described protuberance is embedded in a described recess of described connection member.

Solar module the most according to claim 1, it is characterised in that

Described connection member is being formed with multiple described recess in the direction of insertion that the hollow bulb of described 1st frame sheet inserts,

Described protuberance is embedded in multiple described recesses.

Solar module the most according to claim 2, it is characterised in that

Described connection member is being formed with multiple described recess in the direction of insertion that the hollow bulb of described 1st frame sheet inserts,

Described protuberance is embedded in multiple described recesses.

Solar module the most according to claim 3, it is characterised in that

Described connection member is being formed with multiple described recess in the direction of insertion that the hollow bulb of described 1st frame sheet inserts,

Described protuberance is embedded in multiple described recesses.

7. the framework of a solar module, it is characterised in that

Described framework comprises and has the 1st frame sheet of hollow bulb and the 2nd frame sheet with hollow bulb adjacent with described 1st frame sheet,

Described framework has connection member, and described connection member is by being inserted into hollow bulb and the hollow bulb of described 2nd frame sheet of described 1st frame sheet, and described 1st frame sheet and described 2nd frame sheet is connected to each other,

Described 1st frame sheet has protuberance at hollow bulb,

Described connection member has bending section and the recess chimeric with described protuberance,

The face of the most described bending section side of described protuberance is inclined plane.