CN220043309U - Photovoltaic assembly for photovoltaic roof - Google Patents
Photovoltaic assembly for photovoltaic roof Download PDFInfo
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- CN220043309U CN220043309U CN202321540806.0U CN202321540806U CN220043309U CN 220043309 U CN220043309 U CN 220043309U CN 202321540806 U CN202321540806 U CN 202321540806U CN 220043309 U CN220043309 U CN 220043309U
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- 238000009434 installation Methods 0.000 claims abstract description 26
- 230000005611 electricity Effects 0.000 claims description 6
- 230000002265 prevention Effects 0.000 claims 1
- 238000000034 method Methods 0.000 description 2
- 210000003205 muscle Anatomy 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000006378 damage Effects 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 238000001556 precipitation Methods 0.000 description 1
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Abstract
The utility model discloses a photovoltaic module for a photovoltaic roof, which relates to the technical field of photovoltaic modules and comprises a top beam, a fixing unit, a photovoltaic unit, an adjusting unit and a windproof unit, wherein the top beam is a strip-shaped cross beam and is connected with the roof through the fixing unit; the fixing unit comprises movable lugs, inclined beams, cross beams, first movable shafts, fixed lugs and clamping ribs, wherein the front end and the rear end of the top beam are respectively and fixedly connected with the first movable shafts, each first movable shaft is respectively and rotatably connected with two movable lugs, the movable lugs are respectively and fixedly connected with the inclined beams, the two ends of opposite surfaces of the inclined beams are respectively and fixedly connected with the two ends of the cross beams, the bottom ends of the lower side surfaces of the inclined beams are respectively and fixedly connected with the top ends of the fixed lugs, and the fixed lugs are respectively and fixedly connected with corresponding positions in front of and behind a roof through the clamping ribs; the inclined beams with adjustable included angles are arranged at the two ends of the top beam, so that the roof is suitable for installation of slope roofs with different slopes, and the application range is wider.
Description
Technical Field
The utility model relates to the technical field of photovoltaic modules, in particular to a photovoltaic module for a photovoltaic roof.
Background
The solar photovoltaic module at the current stage is used by firstly installing a bracket on the roof of a building and then fixing the solar photovoltaic panel with the outer frame on the bracket.
The current photovoltaic assembly of the photovoltaic roof is often installed and used for a plane roof, and inclined plane roofs are often adopted in partial areas of China due to abundant precipitation, so that the photovoltaic assembly for the photovoltaic roof is provided.
Disclosure of Invention
The utility model aims to overcome the existing defects, and provides a photovoltaic module for a photovoltaic roof, wherein inclined beams with adjustable included angles are arranged at two ends of a top beam, so that the photovoltaic module can be suitable for installation of roofs with slope surfaces with different slopes, has a wider application range and can effectively solve the problems in the background art.
In order to achieve the above purpose, the present utility model provides the following technical solutions: a photovoltaic module for a photovoltaic roof comprises a top beam, a fixing unit, a photovoltaic unit, an adjusting unit and a windproof unit;
top beam: the roof beam is a strip-shaped cross beam, and the top beam is connected with a roof through a fixing unit;
a fixing unit: the roof comprises movable lugs, inclined beams, cross beams, first movable shafts, fixed lugs and clamping ribs, wherein the front end and the rear end of the top beam are respectively and fixedly connected with the first movable shafts, each first movable shaft is respectively and rotatably connected with two movable lugs, the movable lugs are respectively and fixedly connected with the inclined beams, the two ends of opposite surfaces of the inclined beams are respectively and fixedly connected with the two ends of the cross beams, the bottom ends of the lower side surfaces of the inclined beams are respectively and fixedly connected with the top ends of the fixed lugs, and the fixed lugs are respectively and fixedly connected with the corresponding positions of the front surface and the rear surface of a roof through the clamping ribs;
photovoltaic unit: is arranged on the left cross beam;
an adjusting unit: is arranged on the front side of the lower surface of the photovoltaic unit;
windproof unit: is arranged on the upper part of the top beam.
The movable lugs keep the included angle of the inclined beams adjustable through the first movable shaft, the cross beams are connected with the inclined beams on two sides, the fixed lugs are provided with clamping ribs, and the clamping ribs are connected with the front surface and the back surface of the roof.
Further, the fixed unit still contains first telescopic link mount table, first rotation ear, first installation ear and first telescopic link, the lower surface middle part of sloping is fixed connection first telescopic link mount table respectively, the relative face of first telescopic link mount table is fixed connection first rotation ear respectively, first rotation ear is through movable rod swing joint first installation ear respectively, the both ends of first telescopic link that first installation ear is fixed connection respectively corresponds, the input of first telescopic link is connected with external power source electricity through outside control switch group.
The first telescopic link mount table is used for installing first rotation ear, and first rotation ear keeps the rotation connection of first installation ear, first installation ear is used for installing first telescopic link, and first telescopic link passes through the contained angle of flexible adjustment sloping.
Further, the photovoltaic unit comprises a photovoltaic plate rotating shaft, a second rotating lug, a second fixing lug and a photovoltaic plate, wherein the middle part of the upper surface of the left cross beam is fixedly connected with the second rotating lug respectively, the middle part of the small surface of the photovoltaic plate is fixedly connected with the second fixing lug, and the second fixing lug is movably connected with the second rotating lug through the photovoltaic plate rotating shaft.
The photovoltaic board pivot is used for keeping the rotation of second rotation ear and second fixed ear to be connected, and the second rotates the ear and is used for connecting the crossbeam, and the second fixed ear is used for connecting the photovoltaic board, and the photovoltaic board is used for generating electricity.
Further, the adjustment unit contains adjustment unit installation piece, third rotation ear, third fixed ear, pneumatic cylinder, loose axle and crossbeam installation ear, the front end middle part fixed connection adjustment unit installation piece of photovoltaic board, the lower fixed surface of adjustment unit installation piece is connected the third rotation ear, the third rotation ear passes through loose axle swing joint third fixed ear the top of third fixed ear fixed connection pneumatic cylinder, the bottom fixed connection third fixed ear of pneumatic cylinder, the upper surface middle part fixed connection crossbeam installation ear of the sloping of left side front end, the crossbeam installation ear passes through the third fixed ear of loose axle swing joint downside, the input of pneumatic cylinder is connected with external power source electricity through outside control switch group.
The adjusting unit installation piece is connected through the loose axle and is installed the third and rotates the ear, and the third rotates ear and the fixed ear of third and keep the angularly adjustable, and the fixed ear of third is used for connecting the pneumatic cylinder, and the pneumatic cylinder is used for providing the inclination of flexible change control photovoltaic board, and the crossbeam installation ear is used for connecting the crossbeam.
Further, the windproof unit comprises a windproof rod, a windproof bearing and an arc-shaped plate, wherein the middle part of the upper surface of the top beam is fixedly connected with the bottom end of the windproof rod, and the top end of the windproof rod is rotationally connected with the middle part of the arc-shaped plate through the windproof bearing.
The wind-proof rod is used for installing a wind-proof bearing, the wind-proof bearing is used for keeping the arc panel and the wind-proof rod rotatable, and the arc panel is used for placing the photovoltaic module to be turned over by wind in the windy weather through the Bernoulli principle.
Further, the windproof unit further comprises a downwind rod and a downwind device, wherein the middle part of the plane of the arc panel is fixedly connected with the bottom end of the downwind rod, and the top end of the downwind rod is fixedly connected with the downwind device.
The downwind rod is used for installing a downwind device, and the downwind device is used for keeping the arc panel along the wind direction.
Compared with the prior art, the utility model has the beneficial effects that: the photovoltaic module for the photovoltaic roof has the following advantages:
1. the photovoltaic board installation of slope face roof through the contained angle of flexible control sloping of first telescopic link adaptable multiple angle to the joint muscle of installation fixed is on roof mountain wall, prevents to install the destruction of photovoltaic board to roof waterproof facility.
2. The second rotation ear and the second fixed ear are movably connected through the photovoltaic panel rotating shaft, the angle of the photovoltaic panel is kept adjustable, and meanwhile, the hydraulic cylinder at the front end can control the angle adjustment of the telescopic adjustment photovoltaic panel.
3. The rotatable cambered surface plate is arranged on the top beam, meanwhile, the bearing keeps the cambered surface plate to rotate, the forward-flow device is adopted to keep the cambered surface plate along the wind flow direction, and the safety of the equipment is kept in the windy weather by utilizing the force of downward pressure generated by the Bernoulli principle.
Drawings
FIG. 1 is a schematic diagram of the structure of the present utility model;
fig. 2 is a schematic view of a partial enlarged structure at a in fig. 1 according to the present utility model.
In the figure: 1 roof beam, 2 roof, 3 fixed unit, 31 movable ear, 32 sloping beam, 33 crossbeam, 34 first movable shaft, 35 fixed ear, 36 joint muscle, 37 first telescopic link mount table, 38 first rotation ear, 39 first installation ear, 310 first telescopic link, 4 photovoltaic unit, 41 photovoltaic board pivot, 42 second rotation ear, 43 second fixed ear, 44 photovoltaic board, 5 adjustment unit, 51 adjustment unit installation piece, 52 third rotation ear, 53 third fixed ear, 54 pneumatic cylinder, 55 movable shaft, 56 crossbeam installation ear, 6 prevent wind the unit, 61 prevent wind pole, 62 prevent wind bearing, 63 arc panel, 64 downwind pole, 65 downwind ware.
Detailed Description
The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.
Referring to fig. 1-2, the present embodiment provides the following technical solutions: a photovoltaic module for a photovoltaic roof comprises a top beam 1, a fixing unit 3, a photovoltaic unit 4, an adjusting unit 5 and a windproof unit 6;
top beam 1: the roof beam 1 is a strip-shaped cross beam and is connected with a roof 2 through a fixing unit 3;
fixing unit 3: the roof comprises movable lugs 31, inclined beams 32, cross beams 33, first movable shafts 34, fixed lugs 35 and clamping ribs 36, wherein the front end and the rear end of the top beam 1 are respectively and fixedly connected with the first movable shafts 34, each first movable shaft 34 is respectively and rotatably connected with two movable lugs 31, each movable lug 31 is respectively and fixedly connected with the inclined beam 32, two ends of the opposite surface of each inclined beam 32 are respectively and fixedly connected with two ends of each cross beam 33, the bottom end of the lower side surface of each inclined beam 32 is respectively and fixedly connected with the top end of each fixed lug 35, and each fixed lug 35 is respectively and fixedly connected with the corresponding position of the front surface and the rear surface of the roof 2 through the corresponding clamping rib 36;
photovoltaic unit 4: mounted on the left-hand cross member 33;
the photovoltaic unit 4 comprises a photovoltaic panel rotating shaft 41, a second rotating lug 42, a second fixing lug 43 and a photovoltaic panel 44, wherein the middle part of the upper surface of the left beam 33 is fixedly connected with the second rotating lug 42 respectively, the middle part of the small surface of the photovoltaic panel 44 is fixedly connected with the second fixing lug 43, and the second fixing lug 43 is movably connected with the second rotating lug 42 through the photovoltaic panel rotating shaft 41.
The photovoltaic panel rotation shaft 41 is used for maintaining the rotation connection of the second rotation lug 42 and the second fixing lug 43, the second rotation lug 42 is used for connecting the cross beam 33, the second fixing lug 43 is used for connecting the photovoltaic panel 44, and the photovoltaic panel 44 is used for generating electricity.
An adjusting unit 5: mounted on the front side of the lower surface of the photovoltaic unit 4;
the adjusting unit 5 comprises an adjusting unit mounting block 51, a third rotating lug 52, a third fixing lug 53, a hydraulic cylinder 54, a movable shaft 55 and a beam mounting lug 56, wherein the middle part of the front end of the photovoltaic panel 44 is fixedly connected with the adjusting unit mounting block 51, the lower surface of the adjusting unit mounting block 51 is fixedly connected with the third rotating lug 52, the third rotating lug 52 is movably connected with the top end of the third fixing lug 53 through the movable shaft 55, the third fixing lug 53 is fixedly connected with the top end of the hydraulic cylinder 54, the bottom end of the hydraulic cylinder 54 is fixedly connected with the third fixing lug 53, the middle part of the upper surface of the inclined beam 32 at the front end of the left side is fixedly connected with the beam mounting lug 56, the beam mounting lug 56 is movably connected with the third fixing lug 53 at the lower side through the movable shaft 55, and the input end of the hydraulic cylinder 54 is electrically connected with an external power supply through an external control switch group.
The adjusting unit mounting block 51 is connected and mounted with a third rotating lug 52 through a movable shaft 55, the third rotating lug 52 and a third fixing lug 53 are kept at an adjustable angle, the third fixing lug 53 is used for being connected with a hydraulic cylinder 54, the hydraulic cylinder 54 is used for providing telescopic change to control the inclination angle of the photovoltaic panel 44, and the beam mounting lug 56 is used for being connected with the beam 33.
Wind-proof unit 6: is installed at the upper part of the top beam 1.
The windproof unit 6 comprises a windproof rod 61, a windproof bearing 62 and a cambered surface plate 63, wherein the middle part of the upper surface of the top beam 1 is fixedly connected with the bottom end of the windproof rod 61, and the top end of the windproof rod 61 is rotationally connected with the middle part of the cambered surface plate 63 through the windproof bearing 62.
The wind-proof rod 61 is used for installing a wind-proof bearing 62, the wind-proof bearing 62 is used for keeping the arc panel 63 and the wind-proof rod 61 rotatable, and the arc panel 63 is turned over by wind when the photovoltaic module is placed in the windy weather by the Bernoulli principle.
The wind-proof unit 6 further comprises a downwind rod 64 and a downwind device 65, wherein the middle part of the plane of the cambered surface plate 63 is fixedly connected with the bottom end of the downwind rod 64, and the top end of the downwind rod 64 is fixedly connected with the downwind device 65.
The downwind lever 64 is used for installing a downwind device 65, and the downwind device 65 is used for keeping the arc panel 63 along the wind direction.
The movable lugs 31 keep the included angle of the inclined beams 32 adjustable through the first movable shafts 34, the cross beams 33 are connected with the inclined beams 32 on two sides, the fixed lugs 35 are provided with the clamping ribs 36, and the clamping ribs 36 are connected with the front and back surfaces of the roof 2.
The fixed unit 3 further comprises a first telescopic rod mounting table 37, a first rotating lug 38, a first mounting lug 39 and a first telescopic rod 310, the middle of the lower surface of the inclined beam 32 is fixedly connected with the first telescopic rod mounting table 37 respectively, the opposite surfaces of the first telescopic rod mounting table 37 are fixedly connected with the first rotating lug 38 respectively, the first rotating lug 38 is movably connected with the first mounting lug 39 through a movable rod respectively, the first mounting lug 39 is fixedly connected with two ends of the corresponding first telescopic rod 310 respectively, and the input end of the first telescopic rod 310 is electrically connected with an external power supply through an external control switch group.
The first telescopic link mount 37 is used for mounting a first rotating lug 38, the first rotating lug 38 keeps the rotating connection of the first mounting lug 39, the first mounting lug 39 is used for mounting a first telescopic link 310, and the first telescopic link 310 adjusts the included angle of the inclined beam 32 through telescopic.
The working principle of the photovoltaic module for the photovoltaic roof provided by the utility model is as follows:
the movable lugs 31 keep the included angle of the inclined beams 32 adjustable through the first movable shafts 34, the cross beams 33 are connected with the inclined beams 32 on two sides, the fixed lugs 35 are provided with the clamping ribs 36, and the clamping ribs 36 are connected with the front and back surfaces of the roof 2. The first telescopic link mount 37 is used for mounting a first rotating lug 38, the first rotating lug 38 keeps the rotating connection of the first mounting lug 39, the first mounting lug 39 is used for mounting a first telescopic link 310, and the first telescopic link 310 adjusts the included angle of the inclined beam 32 through telescopic.
The photovoltaic panel rotation shaft 41 is used for maintaining the rotation connection of the second rotation lug 42 and the second fixing lug 43, the second rotation lug 42 is used for connecting the cross beam 33, the second fixing lug 43 is used for connecting the photovoltaic panel 44, and the photovoltaic panel 44 is used for generating electricity.
The adjusting unit mounting block 51 is connected and mounted with a third rotating lug 52 through a movable shaft 55, the third rotating lug 52 and a third fixing lug 53 are kept at an adjustable angle, the third fixing lug 53 is used for being connected with a hydraulic cylinder 54, the hydraulic cylinder 54 is used for providing telescopic change to control the inclination angle of the photovoltaic panel 44, and the beam mounting lug 56 is used for being connected with the beam 33.
The wind-proof rod 61 is used for installing a wind-proof bearing 62, the wind-proof bearing 62 is used for keeping the arc panel 63 and the wind-proof rod 61 rotatable, and the arc panel 63 is turned over by wind when the photovoltaic module is placed in the windy weather by the Bernoulli principle.
The downwind lever 64 is used for installing a downwind device 65, and the downwind device 65 is used for keeping the arc panel 63 along the wind direction.
It is noted that the external control switch set controls the operation of first telescopic rod 310 and hydraulic cylinder 54 using methods commonly used in the art.
The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present utility model.
Claims (6)
1. A photovoltaic module for a photovoltaic roof, characterized by: the wind-proof device comprises a top beam (1), a fixing unit (3), a photovoltaic unit (4), an adjusting unit (5) and a wind-proof unit (6);
top beam (1): the roof beam (1) is connected with a roof (2) through a fixing unit (3);
fixing unit (3): the novel movable roof comprises movable lugs (31), inclined beams (32), cross beams (33), first movable shafts (34), fixed lugs (35) and clamping ribs (36), wherein the front end and the rear end of each top beam (1) are respectively and fixedly connected with the first movable shafts (34), each first movable shaft (34) is respectively and rotatably connected with two movable lugs (31), each movable lug (31) is respectively and fixedly connected with the inclined beam (32), two ends of the opposite surface of each inclined beam (32) are respectively and fixedly connected with two ends of the cross beam (33), the bottom end of the lower side surface of each inclined beam (32) is respectively and fixedly connected with the top end of each fixed lug (35), and the fixed lugs (35) are respectively and fixedly connected with corresponding positions in front of and behind a roof (2) through the clamping ribs (36);
photovoltaic unit (4): is arranged on the left cross beam (33);
an adjustment unit (5): is arranged on the front side of the lower surface of the photovoltaic unit (4);
windproof unit (6): is arranged at the upper part of the top beam (1).
2. A photovoltaic module for a photovoltaic roof according to claim 1, characterized in that: the fixed unit (3) further comprises a first telescopic rod mounting table (37), a first rotating lug (38), a first mounting lug (39) and a first telescopic rod (310), the middle of the lower surface of the inclined beam (32) is fixedly connected with the first telescopic rod mounting table (37) respectively, the opposite surfaces of the first telescopic rod mounting table (37) are fixedly connected with the first rotating lug (38) respectively, the first rotating lug (38) is movably connected with the first mounting lug (39) through a movable rod respectively, the first mounting lug (39) is fixedly connected with the two ends of the corresponding first telescopic rod (310) respectively, and the input end of the first telescopic rod (310) is electrically connected with an external power supply through an external control switch group.
3. A photovoltaic module for a photovoltaic roof according to claim 1, characterized in that: the photovoltaic unit (4) comprises a photovoltaic plate rotating shaft (41), a second rotating lug (42), a second fixing lug (43) and a photovoltaic plate (44), wherein the second rotating lug (42) is fixedly connected to the middle part of the upper surface of the left cross beam (33), the second fixing lug (43) is fixedly connected to the middle part of the small surface of the photovoltaic plate (44), and the second fixing lug (43) is movably connected with the second rotating lug (42) through the photovoltaic plate rotating shaft (41).
4. A photovoltaic module for a photovoltaic roof according to claim 3, characterized in that: the utility model discloses a photovoltaic panel, including adjusting unit (5), including adjusting unit installation piece (51), third rotation ear (52), third fixed ear (53), pneumatic cylinder (54), loose axle (55) and crossbeam installation ear (56), front end middle part fixed connection adjusting unit installation piece (51) of photovoltaic panel (44), the lower fixed surface of adjusting unit installation piece (51) connects third rotation ear (52), third rotation ear (52) pass through loose axle (55) swing joint third fixed ear (53) the top of third fixed ear (53) fixed connection pneumatic cylinder (54), the bottom fixed connection third fixed ear (53) of pneumatic cylinder (54), the upper surface middle part fixed connection crossbeam installation ear (56) of sloping (32) of left side front end, crossbeam installation ear (56) pass through third fixed ear (53) of loose axle (55) swing joint downside, the input of pneumatic cylinder (54) is connected with outside power electricity through outside control switch group.
5. A photovoltaic module for a photovoltaic roof according to claim 1, characterized in that: the wind-proof unit (6) comprises a wind-proof rod (61), a wind-proof bearing (62) and a cambered surface plate (63), wherein the middle part of the upper surface of the top beam (1) is fixedly connected with the bottom end of the wind-proof rod (61), and the top end of the wind-proof rod (61) is rotationally connected with the middle part of the cambered surface plate (63) through the wind-proof bearing (62).
6. A photovoltaic module for a photovoltaic roof according to claim 5, wherein: the wind prevention unit (6) further comprises a downwind rod (64) and a downwind device (65), the middle part of the plane of the cambered surface plate (63) is fixedly connected with the bottom end of the downwind rod (64), and the top end of the downwind rod (64) is fixedly connected with the downwind device (65).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202321540806.0U CN220043309U (en) | 2023-06-16 | 2023-06-16 | Photovoltaic assembly for photovoltaic roof |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202321540806.0U CN220043309U (en) | 2023-06-16 | 2023-06-16 | Photovoltaic assembly for photovoltaic roof |
Publications (1)
Publication Number | Publication Date |
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CN220043309U true CN220043309U (en) | 2023-11-17 |
Family
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202321540806.0U Active CN220043309U (en) | 2023-06-16 | 2023-06-16 | Photovoltaic assembly for photovoltaic roof |
Country Status (1)
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CN (1) | CN220043309U (en) |
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2023
- 2023-06-16 CN CN202321540806.0U patent/CN220043309U/en active Active
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