CN210380732U

CN210380732U - Intelligent photovoltaic building integrated system

Info

Publication number: CN210380732U
Application number: CN201921566433.8U
Authority: CN
Inventors: 马志跃; 冯现皊
Original assignee: Jiangsu Sino Clean Energy Co ltd
Current assignee: Jiangsu Sino Clean Energy Co ltd
Priority date: 2019-09-19
Filing date: 2019-09-19
Publication date: 2020-04-21
Anticipated expiration: 2029-09-19

Abstract

The utility model discloses an intelligence photovoltaic building integration system relates to intelligent photovoltaic system field, can adjust the purpose of solar cell panel angle when the roof of slope installation solar cell panel, and its technical scheme main points are: photovoltaic module includes a plurality of solar cell panel, be equipped with a plurality of dead levers that extend to keeping away from to plain noodles roof direction on the roof to the plain noodles to and the connecting rod of the dead lever that the connection is located same row, each the mutual parallel arrangement of connecting rod, the connecting rod passes the dead lever that is located same row, each solar cell panel is fixed on the connecting rod through the mounting that sets up on the connecting rod, be equipped with drive connecting rod pivoted driving piece on the plain noodles roof.

Description

Intelligent photovoltaic building integrated system

Technical Field

The utility model relates to an intelligence photovoltaic system field, more specifically say, it relates to an intelligence photovoltaic building integration system.

Background

Solar energy is a new energy source, and is inexhaustible, simultaneously because solar energy is a clean energy, when developing and using, can not produce waste residue, waste water, waste gas, also not have the noise, can not influence ecological balance more, absolutely can not cause pollution and nuisancely, consequently at the present of high advocate environmental protection, widely is favored by people.

Chinese patent No. CN204316400U discloses an intelligent photovoltaic power station for a pitched roof, which comprises an inclined pitched roof, wherein the pitched roof comprises a light facing surface and a light backing surface, a photovoltaic module for generating electric energy is laid on the upper surface of the light facing surface, the output end of the photovoltaic module is connected with the input end of an inverter, and the inverter converts direct current input by the photovoltaic module into three-phase sinusoidal alternating current and outputs the three-phase sinusoidal alternating current;

the output end of the inverter is connected with the input end of a distribution box, and the distribution box distributes the alternating current input by the inverter outwards; the output end of the distribution box is connected with a bidirectional ammeter and an electric appliance; the bidirectional electric meter is connected with a power grid.

The photovoltaic module (also called solar panel) is a core part in a solar power generation system and is also the most important part in the solar power generation system. However, when the solar panel is installed on an inclined roof, the inclination angle of the solar panel is not fixed, so that the angle of the solar panel needs to be adjusted in the installation process.

Disclosure of Invention

The utility model aims at providing an intelligence photovoltaic building integration system reaches the purpose that can adjust the solar cell panel angle when the roof of slope installation solar cell panel.

The above technical purpose of the present invention can be achieved by the following technical solutions: an intelligent photovoltaic building integrated system comprises an inclined pitched roof, wherein the pitched roof comprises a light facing surface and a light backing surface, a photovoltaic module for generating electric energy is paved on the upper surface of the light facing surface, the output end of the photovoltaic module is connected with the input end of an inverter, and the inverter converts direct current input by the photovoltaic module into three-phase sine alternating current and outputs the three-phase sine alternating current;

the output end of the inverter is connected with the input end of a distribution box, and the distribution box distributes the alternating current input by the inverter outwards; the output end of the distribution box is connected with a bidirectional ammeter and an electric appliance; the bidirectional electric meter is connected with a power grid, the photovoltaic module comprises a plurality of solar cell panels, a plurality of fixing rods extending towards the direction of the glazed surface roof are arranged on the glazed surface roof, the fixing rods are connected with connecting rods located on the same row of fixing rods, the connecting rods are arranged in parallel, the connecting rods penetrate through the fixing rods located on the same row, the solar cell panels are fixed on the connecting rods through fixing pieces arranged on the connecting rods, and driving pieces for driving the connecting rods to rotate are arranged on the glazed surface roof.

Through adopting the above technical scheme, when driving piece drive connecting rod rotates, drive the solar cell panel on the connecting rod and rotate, and then be convenient for adjust the inclination of the solar cell panel on the roof, make solar cell panel can adjust solar cell panel's angle when installing on the roof, it is comparatively convenient, the setting of dead lever and connecting rod is convenient for fix solar cell panel, fix each solar cell panel on the connecting rod through the mounting one by one, because each connecting rod is parallel arrangement each other, consequently, can make the orderly range of solar cell panel on the roof, and the driving piece can drive the solar cell panel of same row and rotate, and then change the inclination.

Preferably, the mounting is including setting up the connecting plate on the connecting rod, the connecting plate distributes along solar cell panel's length direction, just the connecting plate all is equipped with the connecting rod that extends the solar cell panel side in the both sides on the long limit of connecting plate, the last connecting block that corresponds with the connecting rod that is equipped with of solar cell panel, the connecting block passes through fastening bolt with the connecting rod and is connected.

Preferably, the driving piece is including setting up the support at the connecting rod both ends, the support is fixed on the roof, the both ends of connecting rod all rotate with the support and are connected, the one end of connecting rod is extended the support and is equipped with solid fixed ring at an pot head that extends, the support is equipped with a plurality of scale marks in one side that the connecting rod extends, the circular arc that uses the connecting rod center as the centre of a circle is distributed along the scale mark, gu be equipped with the pointer of instructing the scale mark on the fixed ring, gu fixed ring passes through locking bolt and is fixed with the connecting rod, be equipped with restriction connecting rod pivoted locating part.

Preferably, the locating part is including seting up a plurality of connecting holes on the support, each the connecting hole is along using the connecting rod center to distribute as the circular arc of centre of a circle, each the connecting hole distributes in the scale mark outer lane and corresponds the setting with each scale mark, be equipped with the bull stick with the pointer symmetry on the connecting rod, the bull stick is located same straight line with the pointer, when the connecting rod rotates the scale mark that the pointer needs to instruct on, threaded connection has the locking lever that extends to get into in the connecting hole on the bull stick, locking lever and connecting hole threaded connection.

Preferably, the roof of sunward side all is equipped with the backup pad in the both sides of connecting rod, the backup pad is connected with the conflict pole of contradicting with solar cell panel towards roof one side through the extensible member that sets up in the backup pad.

Preferably, the extensible member is including fixing first pole in the backup pad and establishing the second pole outside first pole at the cover, first pole and second pole threaded connection, the one end that first pole was kept away from to the second pole is contradicted with solar cell panel towards roof one side.

Preferably, the connecting rod is provided with a plane at one side abutting against the solar cell panel.

To sum up, the utility model discloses following beneficial effect has: when driving piece drive connecting rod rotates, drive the solar cell panel on the connecting rod and rotate, and then be convenient for adjust the solar cell panel's on the roof inclination, make solar cell panel can adjust solar cell panel's angle when installing on the roof, it is comparatively convenient, the fixed solar cell panel of being convenient for is fixed in setting up of dead lever and connecting rod, fix each solar cell panel on the connecting rod through the mounting one by one, because each connecting rod is parallel arrangement each other, consequently, can make the orderly range of solar cell panel on the roof, and the driving piece can drive the solar cell panel of same row and rotate, and then change the inclination.

Drawings

FIG. 1 is a schematic structural view of the present embodiment;

FIG. 2 is a schematic structural diagram of a connecting plate according to the present embodiment;

FIG. 3 is a schematic structural diagram for embodying scale marks in the present embodiment;

fig. 4 is a schematic structural diagram for embodying the touch bar of the present embodiment.

In the figure: 1. a backlight surface; 2. a light facing surface; 21. a solar panel; 22. fixing the rod; 23. a connecting rod; 231. a connecting plate; 232. a connecting rod; 233. connecting blocks; 234. fastening a bolt; 235. a plane; 24. a support; 241. a fixing ring; 242. scale lines; 243. a pointer; 244. locking the bolt; 25. connecting holes; 251. a rotating rod; 252. a locking lever; 26. a support plate; 261. a touch bar; 262. a first lever; 263. a second lever.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

An intelligent photovoltaic building integrated system comprises an inclined pitched roof, as shown in figure 1, wherein the pitched roof comprises a light facing surface 2 and a backlight surface 1, a photovoltaic module for generating electric energy is paved on the upper surface of the light facing surface 2, the output end of the photovoltaic module is connected with the input end of an inverter, and the inverter converts direct current input by the photovoltaic module into three-phase sine alternating current and outputs the three-phase sine alternating current;

as shown in fig. 1, the output end of the inverter is connected with the input end of the distribution box, and the distribution box distributes the alternating current input by the inverter outwards; the output end of the distribution box is connected with a bidirectional ammeter and an electric appliance; the bidirectional electric meter is connected with a power grid, and the structure is as disclosed in the Chinese patent with the publication number of CN204316400U, and details are not repeated herein.

As shown in fig. 1 and 2, the photovoltaic module includes a plurality of solar cell panels 21, a plurality of fixing rods 22 extending in a direction away from the roof of the light facing surface 2 are disposed on the roof of the light facing surface 2, and connecting rods 23 connected to the fixing rods 22 in the same row, each connecting rod 23 is disposed in parallel, the connecting rod 23 passes through the fixing rods 22 in the same row, each solar cell panel 21 is fixed on the connecting rod 23 by a fixing member disposed on the connecting rod 23, and a driving member for driving the connecting rod 23 to rotate is disposed on the roof of the light facing surface 2.

As shown in fig. 1 and 2, when the driving member drives the connecting rod 23 to rotate, the solar cell panel 21 on the connecting rod 23 is driven to rotate, and further the inclination angle of the solar cell panel 21 on the roof is convenient to adjust, so that the angle of the solar cell panel 21 can be adjusted when the solar cell panel 21 is installed on the roof, which is convenient, the solar cell panel 21 is convenient to fix by the fixing member 22 and the connecting rod 23, each solar cell panel 21 is fixed on the connecting rod 23 by the fixing member one by one, because each connecting rod 23 is arranged in parallel, the ordered arrangement of the solar cell panel 21 on the roof can be realized, and the driving member can drive the solar cell panel 21 on the same column to rotate, and further the inclination angle is changed.

As shown in fig. 1 and 2, the fixing member includes a connecting plate 231 disposed on the connecting rod 23, the connecting plate 231 is distributed along the length direction of the solar cell panel 21, connecting rods 232 extending out of the sides of the solar cell panel 21 are disposed on both sides of the long side of the connecting plate 231, a connecting block 233 corresponding to the connecting rods 232 is disposed on the solar cell panel 21, and the connecting block 233 and the connecting rods 232 are connected by fastening bolts 234. When installing solar cell panel 21, place solar cell panel 21 on connecting plate 231 for connecting block 233 passes through fastening bolt 234 with connecting rod 232 and fixes, and then fixes solar cell panel 21 on bull stick 251, and the mounting structure is convenient, can place earlier on connecting plate 231 in the installation of the convenient solar cell panel 21 of addition, consequently keeps away from the baffle that upwards extends in one side of connecting plate 231 of connecting rod 23.

As shown in fig. 1 and 2, a plane 235 is disposed on one side of the connecting rod 23 abutting against the solar cell panel 21, so that the contact area between the connecting rod 23 and the solar cell panel 21 can be increased when the solar cell panel 21 abuts against the connecting rod 23, and the solar cell panel 21 can be conveniently mounted.

As shown in fig. 2 and 3, the driving member includes supports 24 disposed at two ends of the connecting rod 23, the supports 24 are fixed on the roof, two ends of the connecting rod 23 are rotatably connected to the supports 24, one end of the connecting rod 23 extends out of the supports 24, and a fixing ring 241 is sleeved at the extended end of the connecting rod 23, the supports 24 are provided with a plurality of scale marks 242 on the extended side of the connecting rod 23, the scale marks 242 are distributed along an arc with the center of the connecting rod 23 as the center of the circle, the fixing ring 241 is provided with a pointer 243 for indicating the scale marks 242, when the solar cell panel 21 is located on the horizontal plane 235, the scale mark 242 indicated by the pointer 243 is a scale mark 242 of 0 degree, the fixing ring 241 is moved on the connecting rod 23, so that the fixing ring 241 is placed close to the supports 24, at this time, the pointer 243 is convenient for indicating the scale marks, and the fixing ring 241 can rotate along with the rotation of the connecting rod 23, and when the connecting rod 23 rotates to a required position, the support 24 is provided with a limiting piece for limiting the rotation of the connecting rod 23.

As shown in fig. 2 and 3, the limiting member includes a plurality of connecting holes 25 formed in the support 24, each connecting hole 25 is distributed along an arc with the center of the connecting rod 23 as the center, each connecting hole 25 is distributed on the outer circle of the scale mark 242 and is arranged corresponding to each scale mark 242, the connecting rod 23 is provided with a rotating rod 251 symmetrical to the pointer 243, the rotating rod 251 and the pointer 243 are positioned on the same straight line, so that when an operator rotates the connecting rod 23, the pointer 243 indicates a desired position, at this time, the rotating rod 251 symmetrical to the pointer 243 corresponds to the connecting hole 25, when the connecting rod 23 rotates to the scale mark 242 which the pointer 243 needs to indicate, the rotating rod 251 is in threaded connection with a locking rod 252 extending into the connecting hole 25, the locking rod 252 is in threaded connection with the connecting hole 25, at this time, the locking rod 252 is rotated to enter the connecting hole 25, thereby fixing the position of the rotating rod 251, and the position of the rotating, thereby fixing the position of the connecting bar 23 and the solar cell panel 21.

As shown in fig. 2 and 4, after the position of the connecting rod 23 is fixed by the limiting member, the position of the solar cell panel 21 is further fixed, and at this time, in order to provide better support for the solar cell panel 21, the supporting plates 26 are disposed on both sides of the connecting rod 23 on the roof of the light facing surface 2, and the supporting plates 26 are connected to the abutting rods 261 abutting against the solar cell panel 21 toward one side of the roof through the expansion members disposed on the supporting plates 26. The extensible member will drive the touch-sensitive rod 261 to touch with the solar cell panel 21, and then make placing on the roof that the solar cell panel 21 can be stable.

As shown in fig. 2 and 4, the telescopic member includes a first rod 262 fixed on the supporting plate 26 and a second rod 263 sleeved outside the first rod 262, the first rod 262 is in threaded connection with the second rod 263, so that the second rod 263 is rotated to gradually move the second rod 263 upwards or downwards from the first rod 262, thereby changing the position of the touch rod 261, and one end of the second rod 263, which is far away from the first rod 262, abuts against the solar cell panel 21 towards the roof side, so that the touch rod 261 is convenient to support the solar cell panel 21.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims

1. An intelligent photovoltaic building integrated system comprises an inclined pitched roof, wherein the pitched roof comprises a light facing surface (2) and a backlight surface (1), a photovoltaic module for generating electric energy is paved on the upper surface of the light facing surface (2), the output end of the photovoltaic module is connected with the input end of an inverter, and the inverter converts direct current input by the photovoltaic module into three-phase sinusoidal alternating current and outputs the three-phase sinusoidal alternating current;

the output end of the inverter is connected with the input end of a distribution box, and the distribution box distributes the alternating current input by the inverter outwards; the output end of the distribution box is connected with a bidirectional ammeter and an electric appliance; the bidirectional electric meter is connected with a power grid, and is characterized in that: photovoltaic module includes a plurality of solar cell panel (21), be equipped with on the roof to plain noodles (2) a plurality of dead lever (22) that extend to keeping away from to plain noodles (2) roof direction to and connecting rod (23) of connecting and being located dead lever (22) of same row, each connecting rod (23) parallel arrangement each other, connecting rod (23) pass and are located dead lever (22) of same row, each solar cell panel (21) are fixed on connecting rod (23) through the mounting that sets up on connecting rod (23), be equipped with drive connecting rod (23) pivoted driving piece on the roof to plain noodles (2).

2. The intelligent building integrated photovoltaic system as claimed in claim 1, wherein: the mounting is including setting up connecting plate (231) on connecting rod (23), the length direction of solar cell panel (21) is distributed along connecting plate (231), just connecting plate (231) all are equipped with connecting rod (232) that extend solar cell panel (21) side in the both sides on connecting plate (231) long limit, be equipped with connecting block (233) that correspond with connecting rod (232) on solar cell panel (21), connecting block (233) are connected through fastening bolt (234) with connecting rod (232).

3. The intelligent building integrated photovoltaic system as claimed in claim 1, wherein: the driving piece is including setting up support (24) at connecting rod (23) both ends, support (24) are fixed on the roof, the both ends of connecting rod (23) all rotate with support (24) and are connected, the one end of connecting rod (23) is extended support (24) and is equipped with solid fixed ring (241) at the pot head that extends, support (24) are equipped with a plurality of scale marks (242) in one side that connecting rod (23) extended, the circular arc distribution that uses connecting rod (23) center as the centre of a circle is followed in scale mark (242), be equipped with pointer (243) of instructing scale mark (242) on solid fixed ring (241), gu fixed ring (241) are fixed with connecting rod (23) through locking bolt (244), be equipped with on support (24) and restrict connecting rod (23) pivoted locating part.

4. The intelligent building integrated photovoltaic system as claimed in claim 3, wherein: the locating part is including seting up a plurality of connecting holes (25) on support (24), each connecting hole (25) are along the circular arc distribution that uses connecting rod (23) center as the centre of a circle, each connecting hole (25) distribute in scale mark (242) outer lane and correspond the setting with each scale mark (242), be equipped with bull stick (251) symmetrical with pointer (243) on connecting rod (23), bull stick (251) are located same straight line with pointer (243), when connecting rod (23) rotate to pointer (243) need indicate on scale mark (242), threaded connection has lock lever (252) that extend into in connecting hole (25) on bull stick (251), lock lever (252) and connecting hole (25) threaded connection.

5. The intelligent building integrated photovoltaic system as claimed in claim 1, wherein: the roof of sunward side (2) all is equipped with backup pad (26) in the both sides of connecting rod (23), backup pad (26) are connected with through the extensible member that sets up on backup pad (26) with solar cell panel (21) towards the conflict pole (261) of roof one side conflict.

6. The intelligent building integrated photovoltaic system as claimed in claim 5, wherein: the extensible member is including fixing first pole (262) on backup pad (26) and establishing second pole (263) outside first pole (262), first pole (262) and second pole (263) threaded connection, the one end and the conflict of solar cell panel (21) towards roof one side that first pole (262) are kept away from to second pole (263).

7. The intelligent building integrated photovoltaic system as claimed in claim 2, wherein: the connecting rod (23) is provided with a plane (235) at one side abutting against the solar cell panel (21).