CN218276585U - Multilayer three-dimensional photovoltaic power generation cell panel distribution connection framework - Google Patents

Abstract

The utility model provides a three-dimensional photovoltaic power generation panel distribution connection framework of multilayer relates to photovoltaic cell panel multilayer column mouting technical field, the utility model discloses a stand, a pedestal, photovoltaic cell panel and mounting bracket, base fixed connection is in the bottom of stand, the mounting bracket sets up the side at the stand, the mounting bracket is provided with the both sides of a plurality of equipartitions at the stand, photovoltaic cell panel one side is kept away from to the mounting bracket is provided with the support, the support is close to stand one side fixedly connected with mount, the mount is close to stand one side and is provided with the hoop and detain, stand top fixed mounting has the lightning rod, support among the prior art can not carry out the polylith photovoltaic cell panel with polylith and carry out the successive layer installation, and interval between the photovoltaic cell panel installation back also is difficult to adjust, the mount carries on side support mounting photovoltaic cell panel spacing, make its a plurality of photovoltaic cell panel can the successive layer install on the stand, photovoltaic cell panel can adjust interval between.

Description

Multilayer three-dimensional photovoltaic power generation cell panel distribution connection framework

Technical Field

The utility model relates to a photovoltaic cell board multilayer column mouting technical field especially relates to a three-dimensional photovoltaic power generation panel distribution connection framework of multilayer.

Background

At present, solar energy is taken as a clean renewable resource, a solar photovoltaic panel is a core part of a solar power generation system, the solar photovoltaic panel is exposed for a long time to be used, and generally, a support is required to be used for installing and fixing the solar photovoltaic panel.

CN201820339065.2 among the prior art is a novel U type solar panel supporting structure, through this kind of novel U type solar panel supporting structure, at pipe top welding U type frame structure, thoroughly becomes the detachable support with the fixed bolster to realized that the angle is adjustable, made it more pleasing to the eye practical, the preparation technology is simple and convenient.

But this kind of support can not carry out the polylith with polylith photovoltaic cell board and carry out the successive layer installation to interval between the photovoltaic cell board installation back also is difficult to adjust.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a three-dimensional photovoltaic power generation panel distribution connection framework of multilayer to solve.

The utility model relates to a three-dimensional photovoltaic power generation panel distribution connection framework's of multilayer purpose and efficiency is reached by following concrete technical means: the utility model provides a three-dimensional photovoltaic power generation panel of multilayer distributes and connects framework, includes stand, base, photovoltaic cell panel and mounting bracket, base fixed connection is in the bottom of stand, the mounting bracket sets up the side at the stand, the mounting bracket is provided with the both sides of a plurality of equipartitions at the stand, photovoltaic cell panel swing joint is in the mounting bracket top, the mounting bracket periphery is provided with the clip, the mounting bracket is kept away from photovoltaic cell panel one side and is provided with the support, be provided with the fagging between support and the mounting panel, the support is close to stand one side fixedly connected with mount, the mount is close to stand one side and is provided with the hoop buckle, stand top fixed mounting has the lightning rod.

Preferably, the fixing frame is arranged in an arc shape, the side wall of the fixing frame is connected to the outer wall of the upright post in a sliding mode, and positioning screw holes are formed in the side walls of two sides of the upright post.

Preferably, the positioning screw holes are provided with a plurality of uniform distribution on the side wall of the upright post, and the side wall below the fixing frame is in threaded connection with a positioning screw rod.

Preferably, the side end of the positioning screw penetrates through the side wall of the fixing frame and is connected in the positioning screw hole in a threaded manner.

Preferably, the support is integrally arranged in a V-shaped manner, the bottom side of the mounting frame is hinged to the bottom of the front end of the supporting plate, a rotating shaft is arranged between the front end of the support and the bottom side of the supporting plate, a second adjusting screw is in threaded connection with the upper side of the support and is arranged on the side wall above the support in a left-right mode, and the side end of the second adjusting screw is connected to the side wall of the supporting plate in a sliding mode.

Preferably, the middle part of the front end of the support is in threaded connection with a first adjusting screw rod, and a sliding cavity is formed in the side wall, close to one side of the support, of the mounting frame.

Preferably, one side of the first adjusting screw rod, which is close to the sliding cavity, is fixedly connected with a sliding block, and the sliding block is in sliding connection with the sliding cavity.

Preferably, the upper side of the front end side of the supporting plate is fixedly connected with a fixing belt, the side surface of the mounting frame is positioned above the sliding cavity and is provided with a connecting hole, and the fixing belt is inserted in the connecting hole.

Has the advantages that:

1. can install multilayer photovoltaic cell board through every stand, and decide the installation panel number of piles according to stand height and stand diameter, every layer of photovoltaic cell board of installation can install polylith bilateral symmetry photovoltaic cell board through stand top, the quantity of installation is decided according to the diameter of stand, thereby make the holistic result of use of stand better, install the back in the support top through every layer of photovoltaic cell board, photovoltaic cell board can adjust photovoltaic cell board irradiation angle according to light intensity angle, make its multilayer photovoltaic cell board corresponding can adjust interval between and photovoltaic cell board's horizontal angle and left right direction angle modulation, wherein photovoltaic cell board's horizontal direction angle modulation is greater than 45, thereby make photovoltaic cell board installation back illumination intensity better, the practicality of equipment has been improved.

2. Install back on support side mounting bracket through photovoltaic cell board, through rotating the first adjusting screw in support front end side top, promote the mounting bracket to remove when making its first adjusting screw side slider slide in sliding chamber, the mounting bracket articulates the installation angle that carries out rotation regulation photovoltaic cell board at the support front end through bottom side, make its photovoltaic cell board carry out vertical preceding angle regulation back, first adjusting screw side slider supports to support the mounting bracket in sliding chamber, through rotating support top both sides second adjusting screw, when making its second adjusting screw be a front and back support on the fagging lateral wall, the fagging passes through and the support between the pivot rotate, thereby make photovoltaic cell board easy operation in angle modulation process, time saving and labor saving.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the structure of the center pillar of the present invention.

Fig. 3 is a schematic view of the structure of the middle fixing frame of the present invention.

Fig. 4 is a schematic view of a sectional side structure of the middle mounting frame of the present invention.

Fig. 5 is a schematic view of the back structure of the middle support of the present invention.

In fig. 1-5, the correspondence between the component names and the reference numbers is: the device comprises a vertical column-1, a base-101, a lightning rod-102, a support-2, a mounting rack-21, a fixing rack-3, a hoop buckle-31, a clip buckle-4, a photovoltaic cell panel-41, a positioning screw rod-5, a positioning screw hole-51, a sliding cavity-6, a first adjusting screw rod-61, a connecting hole-7, a fixing belt-71, a sliding block-8, a second adjusting screw rod-9 and a supporting plate-91.

Detailed Description

The technical solution in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, rather than all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative work belong to the protection scope of the present invention based on the embodiments of the present invention.

As shown in figures 1 to 5: the utility model provides a three-dimensional photovoltaic power generation panel distribution connection framework of multilayer, including stand 1, base 101, photovoltaic cell panel 41 and mounting bracket 21, base 101 fixed mounting is in the bottom of stand 1, install stand 1 spacingly through base 101, make its stand 1 ann change back more stable, mounting bracket 21 swing joint is in stand 1 side, mounting bracket 21 is a plurality of both sides that set up the equipartition at stand 1, both sides fixed mounting has clip 4 about mounting bracket 21, photovoltaic cell panel 41 installs in mounting bracket 21 top, photovoltaic cell panel 41 installs when mounting bracket 21 top, install photovoltaic cell panel 41 spacingly in the top through clip 4, make its polylith photovoltaic cell panel 41 can install in stand 1 top by the successive layer, photovoltaic cell panel 41's result of use has been improved, mounting bracket 2 is installed to mounting bracket 21 side, it is spacing on stand 1 with photovoltaic cell panel 41 through bracket 2, make its photovoltaic cell panel 41 install after more stable, be provided with fagging 91 between bracket 2 and the mounting bracket 21, bracket 2 is close to stand 1 one side fixed connection has 3, through back 3 swing joint on the stand 1 outer wall, make its mount 3 can adjust the mount 3 and buckle the material to make the mount 3 to carry out the spacing hoop 3 of photovoltaic cell panel and carry out the installation, thereby make the spacing hoop 31 of the installation of the mount 3 to adjust the mount 3 and carry out the spacing hoop effect of the installation of the mount 3. The top end is fixedly provided with a lightning rod 102, and the whole upright post is protected by the lightning rod 102

As shown in figures 1 to 5: mount 3 is the setting of 1 outer wall of arc symmetry stand, 3 lateral wall sliding connection of mount are on 1 outer wall of stand, when making its mount 3 install on 1 outer wall of stand, mount 3 can laminate on 1 outer wall of stand, mount 3 fixes more stably on 1 outer wall of stand, location screw 51 has been seted up on 1 both sides lateral wall of stand, location screw 51 is for controlling two a set of settings, location screw 51 has seted up a plurality of equipartitions on 1 lateral wall of stand, threaded connection has positioning screw 5 on 3 lateral walls of mount, positioning screw 5 side runs through 3 lateral wall threaded connection of mount in location screw 51, behind the installation interval between the photovoltaic cell board 41 on the slide adjusting side mounting bracket 21 on 1 outer wall of stand 3, fix a position in location screw 51 through passing 3 bottom side threaded connection of mount with positioning screw 5, make its hoop buckle 31 winding fix mount 3 on 1 outer wall of stand, hoop buckle 31 is the material setting such as metal, it is better to make its hoop buckle 31 fix the fixed effect on 1 outer wall of stand, thereby make the illumination effect better after making photovoltaic cell board 41 install layer-by layer.

As shown in figures 1 to 5: the whole support 2 is arranged in a V shape, the side of the support 2 and the mounting rack 21 are arranged in an inclined shape, when the mounting rack 21 supports the support 2 in an inclined shape, the photovoltaic cell panel 41 is obliquely mounted by the mounting rack 21, so that the photovoltaic cell panel 41 can better illuminate, the bottom side of the mounting rack 21 is provided with a hinge or a rotating shaft, the mounting rack 21 is hinged at the bottom of the front end of the supporting plate 91 through the hinge, the rotating shaft is arranged between the front end of the support 2 and the bottom side of the supporting plate 91, the upper side of the support 2 is in threaded connection with a second adjusting screw 9, the second adjusting screws 9 are arranged on the side wall above the support 2 in a left-right two way, when the second adjusting screws 9 rotate to be supported on the side wall of the supporting plate 91 in a front-back way, the side end of the second adjusting screw 9 is in sliding connection with the side wall of the supporting plate 91, the supporting plate 91 rotates through the rotating shaft between the supporting plate and the support 2, the supporting plate 91 drives the photovoltaic cell panel 41 to perform transverse angle adjustment on the lateral side of the bracket 2, wherein the horizontal transverse angle adjustment of the photovoltaic cell panel 41 on the lateral side of the bracket 2 is more than 45 degrees, so that the angle adjustment of the photovoltaic cell panel 41 is wider, the middle part of the front end of the bracket 2 is in threaded connection with a first adjusting screw 61, the side wall of the mounting bracket 21 close to one side of the bracket 2 is provided with a sliding cavity 6, one side of the first adjusting screw 61 close to the sliding cavity 6 is fixedly connected with a slide block 8, the slide block 8 is embedded in the sliding cavity 6, the slide block 8 is in sliding connection with the sliding cavity 6, the upper part of the front end side of the bracket 2 is fixedly connected with a fixing belt 71, the side surface of the mounting bracket 21 is provided with a connecting hole 7 above the sliding cavity 6, the fixing belt 71 is inserted in the connecting hole 7, and when the slide block 8 at the side end of the first adjusting screw 61 pushes the mounting bracket 21 to rotate towards the lateral side by rotating the first adjusting screw 61, the slider 8 supports the mounting bracket 21 when propping to slide in the sliding cavity 6, and after the mounting bracket 21 drives the vertical installation angle adjustment of the side photovoltaic cell panel 41, the mounting bracket 21 is fixed on the side of the support 2 through the fixing band 71.

The working principle is as follows: base 101 is with stand 1 fixed mounting subaerial back, through installing a plurality of mounts 3 in stand 1 both sides, make its mount 3 adjust after the installation interval between step by step, pass fixing frame 3 in the symmetrical location screw 51 on the stand 1 lateral wall, 3 spacing back with hoop buckle 31 winding on stand 1 outer wall carry out the secondary with mount 3, mount 3 supports support 2 in stand 1 side back, when installing photovoltaic cell board 41 on support 2 side mounting bracket 21, through clip 4 with photovoltaic cell board 41 fixed mounting on mounting bracket 21, through rotating support 2 front end side top first adjusting screw 61, make its first adjusting screw 61 side slider 8 promote mounting bracket 21 to remove when sliding in smooth chamber 6, mounting bracket 21 articulates the installation angle of rotation regulation photovoltaic cell board 41 at support 2 front end through the bottom side, photovoltaic cell board 41 vertically install the angle after adjusting, first adjusting screw 61 side slider 8 supports support 21 in smooth chamber 6, pass side connecting hole 71 and fix support 3 at support 2 through side 7, through rotating support 2 top, through the second adjusting screw 9, thereby it has improved the illumination effect to support 2 side support through the support 2 side support when the support 2 side support 2, thereby it has improved the illumination effect to photovoltaic cell board through the side support 2 side support 9, thereby it has been adjusted the support 2 side support to the support 2 side support of the photovoltaic cell board 9.

Claims (8)

1. The utility model provides a three-dimensional photovoltaic power generation panel distribution connection framework of multilayer, includes stand (1), base (101), photovoltaic cell panel (41) and mounting bracket (21), base (101) fixed connection is in the bottom of stand (1), mounting bracket (21) set up the side at stand (1), its characterized in that: mounting bracket (21) are provided with the both sides of a plurality of equipartitions at stand (1), photovoltaic cell board (41) swing joint is in mounting bracket (21) top, mounting bracket (21) periphery is provided with clip (4), photovoltaic cell board (41) one side is kept away from in mounting bracket (21) is provided with support (2), be provided with fagging (91) between support (2) and mounting bracket (21), support (2) are close to stand (1) one side fixedly connected with mount (3), mount (3) are close to stand (1) one side and are provided with hoop buckle (31), stand (1) top fixed mounting has lightning rod (102).

2. The multilayer stereoscopic photovoltaic power generation panel distributed connection architecture of claim 1, wherein: the fixing frame (3) is arranged in an arc shape, the side wall of the fixing frame (3) is connected to the outer wall of the upright post (1) in a sliding mode, and positioning screw holes (51) are formed in the side walls of the two sides of the upright post (1).

3. The multi-layer stereoscopic photovoltaic power generation panel distributed connection architecture of claim 2, wherein: the positioning screw holes (51) are provided with a plurality of uniform distribution holes on the side wall of the upright post (1), and the side wall below the fixing frame (3) is in threaded connection with positioning screws (5).

4. The multilayer stereoscopic photovoltaic cell panel distributed connection architecture of claim 3, wherein: the side end of the positioning screw rod (5) penetrates through the side wall of the fixing frame (3) and is connected in the positioning screw hole (51) in a threaded manner.

5. The multi-layer stereoscopic photovoltaic power generation panel distributed connection architecture of claim 1, wherein: support (2) wholly is the setting of V type shape, mounting bracket (21) bottom side articulates in fagging (91) front end bottom, be provided with the pivot between support (2) front end and fagging (91) bottom side, support (2) side top threaded connection has second adjusting screw (9), second adjusting screw (9) are for controlling two settings on support (2) top lateral wall, second adjusting screw (9) side sliding connection is on fagging (91) lateral wall.

6. The multi-layer stereoscopic photovoltaic power generation panel distribution connection architecture of claim 5, wherein: the middle part of the front end of the supporting plate (91) is in threaded connection with a first adjusting screw rod (61), and a sliding cavity (6) is formed in the side wall, close to the support (2), of the mounting rack (21).

7. The multi-layer stereoscopic photovoltaic power generation panel distribution connection architecture of claim 6, wherein: the first adjusting screw (61) is close to one side of the sliding cavity (6) and is fixedly connected with a sliding block (8), and the sliding block (8) is connected with the sliding cavity (6) in a sliding mode.

8. The multi-layer stereoscopic photovoltaic power generation panel distributed connection architecture of claim 1, wherein: fixed band (71) are fixedly connected with to fagging (91) front end side top, mounting bracket (21) side is located smooth chamber (6) top and has seted up connecting hole (7), fixed band (71) alternate in connecting hole (7).

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