CN219018725U - Roofing photovoltaic module - Google Patents

Abstract

The application relates to a roofing photovoltaic module relates to the technical field of solar photovoltaic support, including solar panel, stand, channel-section steel, purlin and briquetting, the channel-section steel passes through the installation mechanism and can dismantle the setting on the stand, and the purlin passes through coupling mechanism and can dismantle with the channel-section steel and be connected, and the briquetting is detained and is established on solar panel and is connected with the purlin through positioning mechanism, and coupling mechanism includes channel-section steel buckle, nut piece and locking component. The locking installation mechanism is used for positioning the channel steel, pushing the channel steel buckle to enter the channel steel, rotating the channel steel buckle to drive the nut block to rotate until the nut block is abutted against the channel steel, placing the purline on the channel steel buckle, directly moving the position of the channel steel buckle to enable the purline to keep in a horizontal state, and positioning the channel steel buckle and the purline through the locking assembly, so that the installation of the purline is realized, the convenience of the installation of the position adjustment of the purline is improved, and the installation efficiency of the roof photovoltaic assembly is improved.

Description

Roofing photovoltaic module

Technical Field

The application relates to the technical field of solar photovoltaic brackets, in particular to a roof photovoltaic module.

Background

The solar photovoltaic bracket is a special bracket designed for placing, installing and fixing a solar panel in a solar photovoltaic power generation system. Solar photovoltaic brackets are typically mounted on building roofs or curtain walls and floors to maximize solar panel acceptance.

The common roofing photovoltaic module includes stand, the channel-section steel, the purlin, briquetting and all kinds of connecting pieces, install the stand on the roofing, the stand is two sets of and highly inconsistent usually, establish the connecting piece on the stand, place the channel-section steel on the connecting piece, lock the channel-section steel through bolt and nut, fixed welding has the purlin to hold in the palm on the channel-section steel, with purlin conflict on the purlin holds in the palm, connect purlin through bolt and nut at last and hold in the palm and purlin, place solar panel on the purlin at last, detain through the briquetting and establish on solar panel and conflict on the purlin, through bolted connection briquetting and purlin, thereby accomplish roofing solar photovoltaic module's installation.

Because the solar panel is positioned at the topmost end of the roof, atmospheric corrosion, wind load and other external acting forces can be received in the using process, when the solar panel is stressed, the load is transmitted to the purline through the pressing block, and the purline transmits the load to the channel steel through the purline support, so that the force is dispersed; but purlin holds in the palm usually welds on the channel-section steel, and consequently the flexibility is relatively poor when the installation, need constantly adjust the locking position of channel-section steel and connecting piece to make the purlin just can install on the purlin holds in the palm, thereby has prolonged photovoltaic module's installation time, has consequently reduced roof photovoltaic module's installation effectiveness.

Disclosure of Invention

In order to improve the installation efficiency of roof photovoltaic module, the application provides a roofing photovoltaic module.

The application provides a roofing photovoltaic module adopts following technical scheme:

the utility model provides a roofing photovoltaic module, includes solar panel, stand, channel-section steel, purlin and briquetting, the channel-section steel passes through the installation mechanism and can dismantle the setting on the stand, the purlin passes through coupling mechanism and can dismantle with the channel-section steel and be connected, the briquetting is detained and is established on solar panel and be connected with the purlin through positioning mechanism, coupling mechanism includes:

the channel steel buckle slides and is rotationally arranged on the channel steel and can be taken down from the channel steel, and the purline is abutted on the channel steel buckle;

the nut block is inserted and arranged on the channel steel clip and is abutted against the channel steel;

the locking component is arranged on the channel steel clamping buckle and is connected with the channel steel and the purline.

Through adopting above-mentioned technical scheme, contradict the channel-section steel on the stand earlier, lock installation mechanism fixes a position the channel-section steel, promote the channel-section steel buckle and get into in the channel-section steel, rotate the channel-section steel buckle and drive the nut piece and rotate, until the nut piece is contradicted on the channel-section steel, place the purlin on the channel-section steel buckle, the position of direct removal channel-section steel buckle makes the purlin keep the horizontality, then fix a position channel-section steel buckle and purlin through locking component, thereby realize the installation of purlin, thereby the convenience of purlin position adjustment installation has been improved, place solar panel on the purlin at last, fix a position solar panel through briquetting and positioning mechanism, consequently, the installation effectiveness of roofing photovoltaic module has been improved.

Optionally, the locking assembly includes:

the locking teeth are arranged on the nut block and meshed with the channel steel curled edges;

the two limiting lug plates are arranged on the channel steel clip at intervals and are abutted against the two opposite outer side walls of the purline;

and the locking bolt penetrates through the purline and the channel steel to be buckled and is in threaded connection with the nut block.

Through adopting above-mentioned technical scheme, slide the installation of channel-section steel buckle on the channel-section steel, the length direction and the channel-section steel length direction of nut piece are parallel this moment, rotate the channel-section steel buckle and drive the nut piece and rotate, until locking tooth and the meshing of channel-section steel turn-up, the length direction and the channel-section steel length reverse vertical of nut piece this moment, then place the purlin between two spacing otic placodes, two spacing otic placodes carry out preliminary location to the purlin, then pass purlin and channel-section steel buckle and threaded connection on the nut piece with locking bolt, thereby realize the installation and the location of purlin, reverse operation can adjust the position of purlin or dismantle, thereby the convenience of purlin installation location has been improved.

Optionally, the positioning mechanism includes:

the positioning abutting block slides and is rotationally arranged on the purline, the top end of the purline is downwards bent to form a bending part, and the positioning abutting block abuts against the bending part to limit;

the locating buckle plate is arranged on the locating abutting block in a sliding manner and buckled on the purline, and the pressing block abuts against the locating buckle plate;

the buckling assembly is arranged on the positioning buckle plate and is connected with the positioning abutting block and the pressing block.

Through adopting above-mentioned technical scheme, earlier with purlin and channel-section steel connection, then will fix a position the piece and slide and install on the purlin, rotate the location and support the piece and make the location support the piece and support tightly on the kink, then press the location buckle and make the location buckle detain and establish and fix a position on the purlin, support the solar panel and press on the purlin, detain the briquetting and establish on solar panel edge, the briquetting bottom supports simultaneously and presses on the location buckle, lock the buckling components and fix a position the briquetting, thereby realize solar panel's demountable installation, thereby improved solar panel installation's convenience, consequently improved roofing photovoltaic module's installation effectiveness; when the solar panel receives the load, the load passes through the briquetting and transmits to the purlin on, and the purlin produces the trend of expanding outward or declining inwards, and the location supports the piece and support tightly on the kink, and the locating buckle is detained simultaneously and is established on the purlin top, carries out partial offset to the load of purlin to this stability that improves the purlin, thereby has improved photovoltaic module's stability, has consequently improved roofing photovoltaic module's installation effectiveness.

Optionally, the fastening assembly includes:

the buckling connection rod is arranged on the positioning buckle plate and is slidably arranged on the positioning abutting block, and the buckling connection rod has elasticity;

the buckling teeth are arranged on the buckling rod and buckled on the positioning abutting block, and the positioning abutting block is provided with a positioning hole for positioning the multi-buckling teeth;

the positioning bolt penetrates through the pressing block and the positioning buckle plate, a threaded hole is formed in the positioning abutting block, and the positioning bolt is in threaded connection with the threaded hole and abuts against the pressing block.

Through adopting above-mentioned technical scheme, rotate the location and support the piece and make the location support the piece support tightly on the kink, promote the location buckle and drive the buckling rod and support the piece and slide on the location, until the lock joint tooth detains and establishes on the locating hole, the location buckle detains this moment and establishes on the purlin, then support the briquetting and press on the location buckle, pass briquetting and location buckle back threaded connection on the screw hole with positioning bolt, thereby fix a position the press code, thereby the convenience of pressing the code location has been improved, reverse operation can dismantle solar panel, with this has improved solar panel installation location and dismantlement change's convenience, consequently, the installation effectiveness of roofing photovoltaic module has been improved.

Optionally, the mounting mechanism includes:

the rotating rod is rotatably arranged on the upright post;

the triangular piece is rotatably arranged on the rotating rod and covered on the upright post, and the channel steel is propped against the triangular piece;

the installation nut is in threaded connection with the rotating rod and abuts against the triangular piece;

and the limiting assembly is arranged on the channel steel and is connected with the triangular piece.

Through adopting above-mentioned technical scheme, rotate the triangular piece and make the channel-section steel support and press on the triangular piece, then lock spacing subassembly and carry out spacingly to the channel-section steel, rotate the installation nut simultaneously and support tightly and fix a position on the triangular piece to this installation that realizes the channel-section steel, connect the flexibility that improves the installation through pivoted triangular piece, increase the fault-tolerant rate of installation, thereby improved the convenience of channel-section steel installation location, with this installation effectiveness that has improved roofing photovoltaic module.

Optionally, the limiting assembly includes:

the limit bolt penetrates through the channel steel and the triangular piece;

the limiting nut is in threaded connection with the limiting bolt and abuts against the triangular piece.

Through adopting above-mentioned technical scheme, rotate the triangular piece and make the channel-section steel support and press on the triangular piece, then pass channel-section steel and triangular piece with connecting bolt, rotate stop nut and support and fix a position on the triangular piece, then rotate mounting nut and support tightly on the triangular piece to this installation location that realizes the channel-section steel, reverse operation can adjust and change, thereby has improved the convenience of channel-section steel installation and adjustment.

Optionally, the stand passes through supporting mechanism and can dismantle the setting on the roofing, supporting mechanism includes:

the bearing pier is arranged on the roof, and the upright post is propped against the bearing pier;

the embedded bolts are embedded in the bearing piers and extend out of the bearing piers;

the fixed component is arranged on the upright post and is connected with the embedded bolt.

Through adopting above-mentioned technical scheme, support the stand and press on the bearing mound, locking fixed subassembly connects stand and bearing mound, and the load that solar panel received finally passes through the stand and transmits the bearing mound to bear to improved photovoltaic module's stability, opened fixed subassembly and can change the stand, thereby improved the convenience of stand installation and dismantlement.

Optionally, the fixing assembly includes:

the fixing plate is arranged on the upright post and is glidingly penetrated on the embedded bolt, and the fixing plate is propped against the bearing pier for limiting;

the fixing nut is in threaded connection with the embedded bolt and abuts against the fixing plate.

Through adopting above-mentioned technical scheme, promote the stand and make the fixed plate slide and wear to establish on embedded bolt, continuously promote the stand and make the fixed plate support and press on the bearing mound, then rotate fixation nut threaded connection on embedded bolt and support tightly and fix a position on the fixed plate to this installation location that realizes the stand has improved the stability of stand through embedded bolt and bearing mound cooperation, thereby has improved roofing photovoltaic module's stability.

In summary, the present application includes at least one of the following beneficial technical effects:

the novel solar panel is characterized in that the channel steel is firstly abutted to the upright post, the locking installation mechanism is used for positioning the channel steel, the channel steel buckle is pushed to enter the channel steel, the channel steel buckle is rotated to drive the nut block to rotate until the nut block is abutted to the channel steel, the purline is placed on the channel steel buckle, the position of the channel steel buckle is directly moved so that the purline is kept in a horizontal state, then the channel steel buckle and the purline are positioned through the locking assembly, so that the purline is installed, the convenience of the purline position adjustment installation is improved, the solar panel is finally placed on the purline, and the solar panel is positioned through the pressing block and the positioning mechanism, so that the installation efficiency of the roof photovoltaic assembly is improved.

Drawings

FIG. 1 is a schematic overall structure of the present application;

FIG. 2 is an exploded view of the installation mechanism of the present application, with a partial cross-section of the channel;

FIG. 3 is an exploded view of the attachment mechanism of the present application;

FIG. 4 is an exploded view of the positioning mechanism of the present application;

fig. 5 is a schematic structural view of the fastening assembly of the present application, wherein the positioning block is shown in cross section.

Reference numerals: 1. a solar panel; 11. a column; 12. channel steel; 13. purlin; 131. a bending part; 14. briquetting; 2. a mounting mechanism; 21. a rotating lever; 22. triangular pieces; 23. installing a nut; 24. a limit component; 241. a limit bolt; 242. a limit nut; 3. a connecting mechanism; 31. channel steel buckle; 311. a sliding part; 312. a pressing part; 313. a connection hole; 32. a nut block; 321. a locking hole; 33. a locking assembly; 331. locking teeth; 332. limiting ear plates; 333. a locking bolt; 4. a positioning mechanism; 41. positioning the abutting block; 411. a vertical portion; 412. a horizontal portion; 413. positioning holes; 414. a threaded hole; 42. positioning buckle plates; 43. a fastening assembly; 431. buckling a connecting rod; 432. fastening teeth; 433. positioning bolts; 5. a support mechanism; 51. a bearing pier; 52. embedding bolts; 53. a fixing assembly; 531. a fixing plate; 532. and (5) fixing a nut.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-5.

The embodiment of the application discloses a roofing photovoltaic module.

Referring to fig. 1, a roof photovoltaic assembly comprises a solar panel 1, a column 11, a channel steel 12, a purline 13 and a pressing block 14, wherein the channel steel 12 is detachably arranged on the column 11 through a mounting mechanism 2, the purline 13 is detachably connected with the channel steel 12 through a connecting mechanism 3, and the pressing block 14 is buckled at the edge of the solar panel 1 and is connected with the purline 13 through a positioning mechanism 4.

Referring to fig. 1 and 2, the stand columns 11 are detachably arranged on a roof through the supporting mechanism 5, the supporting mechanism 5 comprises a bearing pier 51, embedded bolts 52 and a fixing assembly 53, the bearing pier 51 is fixedly arranged on the roof and used for bearing, the stand columns 11 are provided with two groups, the stand columns 11 of the two groups are arranged on the bearing pier 51 at intervals, the stand columns 11 of the two groups are inconsistent in height, each group of stand columns 11 comprises a plurality of stand columns arranged at intervals horizontally, and the stand columns 11 are propped against the bearing pier 51 and used for supporting the solar panel 1.

Referring to fig. 1 and 2, the embedded bolts 52 are provided in plurality and correspond to the columns 11 one by one, the projection of the embedded bolts 52 in the horizontal direction is in a U shape, the lower parts of the embedded bolts 52 are embedded in the bearing piers 51, and the top ends of the embedded bolts 52 extend out of the upper surfaces of the bearing piers 51; the fixing components 53 are disposed on the upright 11 and connected with the embedded bolts 52, and the fixing components 53 are disposed in a plurality of groups and are in one-to-one correspondence with the upright 11, and only one fixing component 53 is taken as an example for illustration.

Referring to fig. 1 and 2, the fixing assembly 53 comprises a fixing plate 531 and a fixing nut 532, wherein the fixing plate 531 is fixedly installed at the bottom end of the upright post 11, the fixing plate 531 vertically slides and passes through the embedded bolt 52, and the lower surface of the fixing plate 531 is propped against the bearing pier 51 to limit; the two fixing nuts 532 are arranged, the two fixing nuts 532 are respectively connected to the top ends of the embedded bolts 52 in a threaded mode, and the two fixing nuts 532 are abutted against the upper surface of the fixing plate 531 to be located.

Referring to fig. 1 and 2, the top end of the upright 11 is connected with the channel steel 12 through a mounting mechanism 2, the mounting mechanism 2 is provided with a plurality of and corresponds to the number of the upright 11 one by one, and hereinafter, only one mounting mechanism 2 is described as an example, and the mounting mechanism 2 includes a rotating rod 21, a triangle 22, a mounting nut 23 and a limiting assembly 24.

Referring to fig. 1 and 2, a rotating rod 21 is horizontally rotatably mounted at the top end of a column 11, the length direction of the rotating rod 21 is perpendicular to the projection of the length direction of a channel steel 12 in the vertical direction, the tip end of a triangular piece 22 is horizontally rotatably mounted on the rotating rod 21, the triangular piece 22 is covered at the top end of the column 11, the length direction of the upper surface of the triangular piece 22 is parallel to the length direction of the channel steel 12, and the lower surface of the channel steel 12 is pressed against the upper surface of the triangular piece 22; the mounting nut 23 is in threaded connection with the rotating rod 21 and abuts against the outer side wall of the triangular piece 22 to limit.

Referring to fig. 1 and 2, the limiting assembly 24 is disposed on the channel steel 12 and connected with the triangle 22, the limiting assembly 24 includes a limiting bolt 241 and a limiting nut 242, the limiting bolt 241 is provided with two, two limiting bolts 241 are disposed on the triangle 22 at intervals, the limiting bolt 241 passes through the inner bottom wall of the channel steel 12 and the inner top wall of the triangle 22, the limiting nut 242 is provided with two and corresponds to the limiting bolts 241 one to one, and the limiting nut 242 is in threaded connection with the limiting bolt 241 and abuts against the inner top wall of the triangle 22 to limit.

Referring to fig. 1 and 2, pushing the upright 11 drives the fixing plate 531 to penetrate through the embedded bolt 52, rotating the fixing nut 532 to abut against the fixing plate 531 to limit, then rotating the triangular piece 22 to enable the lower surface of the channel steel 12 to be mortgage on the upper surface of the triangular piece 22, penetrating the limiting bolt 241 through the channel steel 12 and the triangular piece 22, rotating the limiting nut 242 to abut against the inner top wall of the triangular piece 22 to limit, then rotating the mounting nut 23 to abut against the outer side wall of the triangular piece 22 to limit, so that the installation of the channel steel 12 is realized, and the disassembly and replacement can be performed by reverse operation.

Referring to fig. 1 and 2, purlines 13 are provided with two groups and are in one-to-one correspondence with the columns 11, purlines 13 are erected on the upper surface of the channel steel 12, the bottom ends of the purlines 13 are detachably connected with the channel steel 12 through connecting mechanisms 3, the connecting mechanisms 3 are provided with a plurality of connecting positions and are located at the connecting positions of the purlines 13 and the channel steel 12, and in the following, only one connecting mechanism 3 is taken as an example for illustration.

Referring to fig. 2 and 3, the connection mechanism 3 includes a channel steel buckle 31, a nut block 32 and a locking assembly 33, the channel steel buckle 31 includes a sliding portion 311 and a pressing portion 312 integrally provided together, the sliding portion 311 vertically slides through the top end of the channel steel 12 and can be removed from the channel steel 12, and meanwhile, the sliding portion 311 can rotate on the inner wall of the open end of the channel steel 12; the pressing part 312 is located at the top end of the sliding part 311, the pressing part 312 is in a horizontal state and is abutted against the upper surface of the channel steel 12, a vertical connecting hole 313 is formed at the overlapping part of the pressing part 312 and the sliding part 311, and the lower surface of the purline 13 is abutted against the upper surface of the pressing part 312.

Referring to fig. 2 and 3, the nut block 32 is horizontally inserted and mounted on the inner wall of the bottom end of the channel steel buckle 31, the nut block 32 is in a horizontal state and is internally provided with a threaded locking hole 321, and the axis of the locking hole 321 coincides with the axis of the connecting hole 313; in the initial state, the length direction of the nut block 32 is parallel to the length direction of the channel steel 12, and the pressing portion 312 drives the nut block 32 to rotate when rotating until the length direction of the nut block 32 is perpendicular to the length direction of the channel steel 12, and at this time, the upper surface of the nut block 32 is abutted against two curled edges of the channel steel 12.

Referring to fig. 2 and 3, the locking assembly 33 is disposed on the channel steel buckle 31 and connected with the channel steel 12 and the purline 13, the locking assembly 33 includes a locking tooth 331, two limiting lugs 332 and a locking bolt 333, two horizontal clamping grooves are spaced apart on the upper surface of the nut block 32, the clamping grooves correspond to two curled edges of the channel steel 12, the locking tooth 331 is provided with two groups and corresponds to the clamping grooves one by one, the locking tooth 331 is fixedly mounted on the inner wall of the clamping groove, and the locking tooth 331 is meshed with the curled edges of the channel steel 12.

Referring to fig. 2 and 3, two limiting lugs 332 are fixedly installed on the upper surface of the pressing portion 312 at intervals, and the two limiting lugs 332 are located at two sides of the connecting hole 313, and meanwhile, the two limiting lugs 332 are abutted against two opposite outer side walls of the purline 13 opposite to two inner side walls; the locking bolt 333 vertically passes through the inner bottom wall of the purline 13 and the connecting hole 313 and then is connected with the locking hole 321 in a threaded manner to limit.

Referring to fig. 2 and 3, the channel steel buckle 31 is slidably installed on the channel steel 12, at this moment, the length direction of the nut block 32 is parallel to the length direction of the channel steel 12, the pressing part 312 is rotated to drive the nut block 32 to rotate until the locking teeth 331 are in hemmed engagement with the channel steel 12, at this moment, the length direction of the nut block 32 is reversely perpendicular to the length of the channel steel 12, then the purline 13 is placed between the two limiting lug plates 332, the two limiting lug plates 332 are used for preliminarily positioning the purline 13, the position of the channel steel buckle 31 is directly moved to enable the purline 13 to be kept in a horizontal state, and then the locking bolt 333 passes through the purline 13 and the channel steel buckle 31 and is in threaded connection with the nut block 32, so that the installation and positioning of the purline 13 can be realized, and the position or the disassembly of the purline 13 can be adjusted through reverse operation, and the convenience of the installation and positioning of the purline 13 is improved.

Referring to fig. 1 and 3, the solar panels 1 are provided with a plurality of solar panels 1, two adjacent solar panels 1 are connected through the pressing block 14, the pressing block 14 is buckled on the upper surfaces of the two adjacent solar panels 1, the lower surface of the pressing block 14 is propped against the purline 13, the positioning mechanism 4 is arranged at the connection part of the pressing block 14 and the purline 13, and a plurality of positioning mechanisms 4 can be arranged according to the actual installation requirement, and the description is made by taking only one positioning mechanism 4 as an example.

Referring to fig. 3 and 4, the positioning mechanism 4 includes a positioning abutting block 41, a positioning buckle plate 42 and a buckling component 43, two inner walls at the top end of the purline 13 are both bent downwards to form a bending part 131, the positioning abutting block 41 includes a vertical part 411 and a horizontal part 412 which are integrally arranged together, the vertical part 411 is vertically slidably installed between the two bending parts 131 and can be taken down from the purline 13, and meanwhile, the vertical part 411 can rotate between the two bending parts 131; the horizontal portion 412 is located at the bottom end of the vertical portion 411.

Referring to fig. 3 and 4, the horizontal portion 412 is located at the top end of the vertical portion 411, the horizontal portion 412 is in a horizontal state and the upper surface is abutted against the lower surfaces of the two bending portions 131, and the width of the horizontal portion 412 is smaller than the distance between the two bending portions 131; in the initial state, the length direction of the horizontal portion 412 is parallel to the length direction of the purline 13, and the sliding portion 311 drives the horizontal portion 412 to rotate until the length direction of the horizontal portion 412 is perpendicular to the length direction of the purline 13, and at this time, the upper surface of the horizontal portion 412 abuts against the lower surfaces of the two bending portions 131 to limit.

Referring to fig. 3 and 4, the locating buckle plate 42 is vertically slidably installed on the sliding part 311, the locating buckle plate 42 is buckled on two opposite outer side walls at the top end of the purline 13, and the lower surface of the pressing block 14 is pressed against the upper surface of the locating buckle plate 42; the fastening component 43 is arranged on the positioning buckle plate 42 and is connected with the positioning abutting block 41 and the pressing block 14.

Referring to fig. 3 and 4, the fastening assembly 43 includes two fastening rods 431, fastening teeth 432 and positioning bolts 433, the fastening rods 431 are arranged at two, the two fastening rods 431 are fixedly installed on the lower surface of the positioning buckle 42 at intervals, the two fastening rods 431 are vertically slidably installed on the inner wall of the sliding portion 311, and meanwhile the fastening rods 431 have elasticity.

Referring to fig. 3 and 4, two fastening teeth 432 are provided and are in one-to-one correspondence with the fastening rod 431, the fastening teeth 432 are fixedly installed at the bottom end of the fastening rod 431, the tooth ends of the two fastening teeth 432 face opposite directions, two positioning holes 413 are spaced apart from each other on the inner wall of the sliding portion 311, the positioning holes 413 are in one-to-one correspondence with the fastening teeth 432, the fastening teeth 432 are fastened on the inner wall of the positioning holes 413, and at this time, the positioning buckle plate 42 is fastened on the outer wall of the purline 13.

Referring to fig. 3 and 4, the positioning bolt 433 vertically passes through the inner bottom wall of the pressing block 14, the positioning buckle plate 42 and the sliding part 311, the upper surface of the horizontal part 412 is provided with a vertical threaded hole 414, and the positioning bolt 433 is in threaded connection with the threaded hole 414 and abuts against the inner bottom wall of the pressing block 14 to be positioned.

Referring to fig. 3 and 4, after the purlin 13 is installed, the sliding part 311 is pushed to enable the horizontal part 412 to be inserted into the purlin 13, the sliding part 311 is rotated to enable the horizontal part 412 to abut against the two bending parts 131, then the positioning buckle plate 42 is pressed to drive the buckling rod 431 to slide on the positioning abutting block 41 until the buckling teeth 432 are buckled on the positioning holes 413, at the moment, the positioning buckle plate 42 is buckled on the purlin 13, then the pressing block 14 is buckled on the solar panel 1 and abuts against the positioning buckle plate 42, the positioning bolt 433 penetrates through the pressing block 14 and the positioning buckle plate 42 and is connected with the threaded hole 414 in a threaded mode, so that the pressing code is positioned, convenience of pressing code positioning is improved, the solar panel 1 can be disassembled by reverse operation, and convenience of installation, positioning and disassembly and replacement of the solar panel 1 is improved, and therefore the installation efficiency of a roof photovoltaic assembly is improved.

The working principle of the embodiment of the application is as follows:

firstly connecting a vertical column 11 with a roof, then connecting a channel steel 12 to the vertical column 11, then sliding a channel steel buckle 31 on the channel steel 12, at the moment, enabling the length direction of a nut block 32 to be parallel to the length direction of the channel steel 12, rotating a pressing part 312 to drive the nut block 32 to rotate until locking teeth 331 are in curled engagement with the channel steel 12, at the moment, enabling the length direction of the nut block 32 to be reversely vertical to the length of the channel steel 12, then placing a purline 13 between two limiting lug plates 332, initially positioning the purline 13 by the two limiting lug plates 332, and directly moving the position of the channel steel buckle 31 to enable the purline 13 to be kept in a horizontal state, thereby saving the time for installing the purline 13; then pass purlin 13 and channel-section steel buckle 31 and threaded connection on nut piece 32 with locking bolt 333 to this installation and location that realizes purlin 13, thereby improved purlin 13 position adjustment installation's convenience, place solar panel 1 on purlin 13 at last, fix a position solar panel 1 through briquetting 14, location support piece 41 and location buckle 42, reverse operation can dismantle, consequently improved roofing photovoltaic module's installation effectiveness.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. The utility model provides a roofing photovoltaic module, includes solar panel (1), stand (11), channel-section steel (12), purlin (13) and briquetting (14), channel-section steel (12) can dismantle setting up on stand (11) through installation mechanism (2), purlin (13) can dismantle with channel-section steel (12) through coupling mechanism (3) and be connected, briquetting (14) are detained and are established on solar panel (1) and are connected its characterized in that with purlin (13) through positioning mechanism (4): the connection mechanism (3) comprises:

the steel channel buckle (31), the steel channel buckle (31) slides and rotates on the steel channel (12) and can be taken down from the steel channel (12), and the purline (13) is abutted on the steel channel buckle (31);

the nut block (32) is inserted and arranged on the channel steel buckle (31) in a plugging manner and is abutted against the channel steel (12);

the locking assembly (33) is arranged on the channel steel buckle (31) and is connected with the channel steel (12) and the purline (13).

2. The roofing photovoltaic module of claim 1, wherein: the locking assembly (33) comprises:

a locking tooth (331), wherein the locking tooth (331) is arranged on the nut block (32) and is in hemming engagement with the channel steel (12);

the two limiting lug plates (332), the two limiting lug plates (332) are arranged on the channel steel buckle (31) at intervals, and the two limiting lug plates (332) are abutted against the two opposite outer side walls of the purline (13);

and the locking bolt (333) passes through the purline (13) and the channel steel buckle (31) and is in threaded connection with the nut block (32).

3. The roofing photovoltaic module of claim 1, wherein: the positioning mechanism (4) comprises:

the positioning abutting block (41), the positioning abutting block (41) slides and is rotatably arranged on the purline (13), the top end of the purline (13) is downwards bent to form a bending part (131), and the positioning abutting block (41) abuts against the bending part (131) to limit;

the locating buckle plate (42) is arranged on the locating abutting block (41) in a sliding mode and buckled on the purline (13), and the pressing block (14) abuts against the locating buckle plate (42);

the buckling assembly (43) is arranged on the positioning buckle plate (42) and is connected with the positioning abutting block (41) and the pressing block (14).

4. A roofing photovoltaic module according to claim 3, characterized in that: the fastening assembly (43) comprises:

the buckling connection rod (431) is arranged on the positioning buckle plate (42) and is slidably arranged on the positioning abutting block (41), and the buckling connection rod (431) has elasticity;

the buckling teeth (432), the buckling teeth (432) are arranged on the buckling rod (431) and buckled on the positioning abutting block (41), and the positioning abutting block (41) is provided with a positioning hole (413) for positioning the multi-buckling teeth (432);

the positioning bolt (433), positioning bolt (433) pass briquetting (14) and location buckle (42), set up threaded hole (414) on location support piece (41), positioning bolt (433) threaded connection is on threaded hole (414) and support tightly on briquetting (14).

5. The roofing photovoltaic module of claim 2, wherein: the mounting mechanism (2) includes:

a rotating rod (21), wherein the rotating rod (21) is rotatably arranged on the upright post (11);

the triangular piece (22) is rotatably arranged on the rotating rod (21) and covered on the upright post (11), and the channel steel (12) is propped against the triangular piece (22);

the installation nut (23) is in threaded connection with the rotating rod (21) and abuts against the triangular piece (22);

and the limiting assembly (24) is arranged on the channel steel (12) and is connected with the triangular piece (22).

6. The roofing photovoltaic module of claim 5, wherein: the spacing assembly (24) includes:

a limit bolt (241), wherein the limit bolt (241) passes through the channel steel (12) and the triangular piece (22);

and the limit nut (242) is in threaded connection with the limit bolt (241) and abuts against the triangular piece (22).

7. The roofing photovoltaic module of claim 5, wherein: the stand (11) can dismantle the setting on the roofing through supporting mechanism (5), supporting mechanism (5) include:

the bearing pier (51) is arranged on the roof, and the upright post (11) is propped against the bearing pier (51);

the embedded bolts (52) are embedded in the bearing piers (51) and extend out of the bearing piers (51);

the fixing assembly (53), the fixing assembly (53) is arranged on the upright post (11) and is connected with the embedded bolt (52).

8. The roofing photovoltaic module of claim 7, wherein: the fixing assembly (53) comprises:

the fixing plate (531), the fixing plate (531) is arranged on the upright post (11) and is glidingly arranged on the embedded bolt (52) in a penetrating way, and the fixing plate (531) is propped against the bearing pier (51) to limit;

the fixing nut (532) is in threaded connection with the embedded bolt (52) and abuts against the fixing plate (531).

Images