CN205276709U - Industry factory building building integrated photovoltaic roof power generation system - Google Patents

Industry factory building building integrated photovoltaic roof power generation system Download PDF

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Publication number
CN205276709U
CN205276709U CN201620042875.2U CN201620042875U CN205276709U CN 205276709 U CN205276709 U CN 205276709U CN 201620042875 U CN201620042875 U CN 201620042875U CN 205276709 U CN205276709 U CN 205276709U
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strut member
power generation
generation system
factory building
roof
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CN201620042875.2U
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胡纯星
孔维
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ZHEJIANG JINBEST ENERGY SECIENCE AND TECHNOLOGY Co.,Ltd.
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Hangzhou Sani's Energy Science And Technology Ltd Co
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A30/00Adapting or protecting infrastructure or their operation
    • Y02A30/14Extreme weather resilient electric power supply systems, e.g. strengthening power lines or underground power cables
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B10/00Integration of renewable energy sources in buildings
    • Y02B10/10Photovoltaic [PV]
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/50Photovoltaic [PV] energy
    • Y02E10/56Power conversion systems, e.g. maximum power point trackers
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P80/00Climate change mitigation technologies for sector-wide applications
    • Y02P80/20Climate change mitigation technologies for sector-wide applications using renewable energy

Abstract

The utility model discloses an industry factory building building integrated photovoltaic roof power generation system, including the domatic roof of chevron shape of the industry factory building compriseed a plurality of steel I -beams, being fixed with horizontal purlin on the steel I -beam, the purlin is put on the shelf and is equipped with a plurality of W shape drainage support piece s parallel with the steel I -beam, the base of slope on the domatic roof of chevron shape is equipped with horizontal daylighting band, and is equipped with on the domatic roof of chevron shape domatic and a plurality ofly accesss to vertical daylighting bands of top of slope from the base of slope, is equipped with the waffle slab on horizontal daylighting band and the vertical daylighting band and maintains the pavement, and the solar photovoltaic board has been laid in the region between each vertical daylighting band, horizontal daylighting band, vertical daylighting band and solar photovoltaic board all are that one end supports at a W shape drainage support piece middle part, and the other end supports at adjacent W shape drainage support piece middle part. The utility model discloses can effectively improve installation, the maintenance of building integration roof power generation system on the roof, and have higher waterproof performance.

Description

Industry factory building photovoltaic building integration roof power generation system
Technical field
The utility model relates to a kind of industry factory building photovoltaic building integration roof power generation system, belongs to solar energy generation technology field.
Background technology
What current building energy conservation was most widely used is solar photovoltaic building integration structure, namely Solar use is included in the overall design of building, building, technology and aesthetics are combined together. And architecture-integral roof power generation system, perfectly achieve and solar energy power generating is combined with building, using solar photovoltaic assembly as roof layouts. But how to improve the performances such as the convenience of the installation of industry factory building photovoltaic building integration roof power generation system and maintenance, water-repellancy, become the important prerequisite that architecture-integral roof power generation system obtains large-scale promotion.
Practical novel content
The purpose of this utility model is, it is provided that a kind of industry factory building photovoltaic building integration roof power generation system. It can effectively improve the installation, maintenance of architecture-integral roof power generation system on roof, and has higher water resistance.
The technical solution of the utility model: industry factory building photovoltaic building integration roof power generation system, it is characterized in: the domatic roof of herring-bone comprising the industrial factory building being made up of multiple steel I-beam, being fixed with horizontal purlin on steel I-beam, purlin is added is provided with multiple W shape draining strut member parallel with steel I-beam; It is provided with at the bottom of the slope on the domatic roof of herring-bone and laterally safeguards aisle, and the domatic of the domatic roof of herring-bone is provided with multiple longitudinal ribbon skylight from leading to top, slope at the bottom of slope, longitudinal ribbon skylight is provided with grid plate and safeguards aisle, and the region between the longitudinal ribbon skylight of each bar is equipped with solar energy photovoltaic panel; Described transverse direction safeguards that aisle, longitudinal ribbon skylight and solar energy photovoltaic panel are all that one end is supported in the middle part of a W shape draining strut member, and the other end is supported in the middle part of adjacent W shape draining strut member.
In above-mentioned industrial factory building photovoltaic building integration roof power generation system, it is provided with ribbon skylight supporting tube below longitudinal ribbon skylight, ribbon skylight supporting tube one end is supported on the coin type rubber pad side above a W shape draining strut member, and the other end is supported on the coin type rubber pad side above adjacent W shape draining strut member; Described grid plate is fixed on grid plate support, and grid plate support one end is supported in the middle part of a W shape draining strut member, and the other end is supported in the middle part of adjacent W shape draining strut member.
In aforesaid industry factory building photovoltaic building integration roof power generation system, between adjacent longitudinal ribbon skylight, between the adjacent solar energy photovoltaic panel in climb and fall direction and the junction of horizontal ribbon skylight and solar energy photovoltaic panel is equipped with transverse row tank; One end of transverse row tank is erected at the edge of W shape draining strut member, and the other end is erected at the edge of adjacent W shape draining strut member.
In aforesaid industry factory building photovoltaic building integration roof power generation system, longitudinal ribbon skylight of ridge and upward slope one end of solar energy photovoltaic panel near the domatic roof of herring-bone are located in transverse row tank, the ridge on the domatic roof of herring-bone is provided with ridge top cover, ridge top cover both sides are located on the W shape draining strut member of both sides, herring-bone domatic roof respectively, are respectively equipped with transverse row tank between W shape draining strut member and the both sides of ridge top cover.
In aforesaid industry factory building photovoltaic building integration roof power generation system, region between the longitudinal ribbon skylight of described each bar is also equipped with metal pedal, metal pedal is provided with chimney and/or unpowered blower fan, it is arranged with the color steel watt waterproof collar outside described chimney and/or unpowered blower fan, the color steel watt waterproof collar is fixed by aluminium waterproof rivet and metal pedal, and the junction of the color steel watt waterproof collar and metal pedal sticks and is covered with ABS water proofing asphalt coiled material, ABS water proofing asphalt coiled material surrounding is sealed with water-proof silica-gel.
In aforesaid industry factory building photovoltaic building integration roof power generation system, being provided with rubber pad in the middle part of described W shape draining strut member, rubber pad is provided with two supporting planes, and rubber pad is also connected with briquetting. Two supporting planes can support laterally safeguards aisle, longitudinal ribbon skylight, solar energy photovoltaic panel, ribbon skylight supporting tube.
In aforesaid industry factory building photovoltaic building integration roof power generation system, it is connected with group string invertor by cable after described solar energy photovoltaic panel group string, by cable, power distribution cabinet is connected group string invertor with exchanging, exchange power distribution cabinet lies prostrate grid-connection cabinet by cable and light and is connected, and light volt grid-connection cabinet is connected with grid-connected bus.
In aforesaid industry factory building photovoltaic building integration roof power generation system, described solar energy photovoltaic panel carries out group string taking 22 as one group, and each group string invertor connects 4 string solar energy photovoltaic panels.
In aforesaid industry factory building photovoltaic building integration roof power generation system, the backboard of described group of string invertor buckles on two parallel C shape steel, is provided with corrugated tube, corrugated tube is connected with penetration pipe below group string invertor, and penetration pipe is connected to solar energy photovoltaic panel; Described C shape steel is fixed on the parapet of industry factory building, or is fixed on the inside body of wall of industry factory building.
In aforesaid industry factory building photovoltaic building integration roof power generation system, the domatic roof of described herring-bone is provided with the dormer crossbeam tilted on the sunny side, dormer crossbeam is connected with steel I-beam by joist steel, and dormer crossbeam is provided with C-type steel purlin, C-type steel purlin is provided with multiple parallel W shape draining strut member, W shape draining strut member is added is provided with solar energy photovoltaic panel, one end of each solar energy photovoltaic panel is supported in the middle part of a W shape draining strut member, and the other end is supported in the middle part of adjacent W shape draining strut member.
Compared with prior art, the utility model is by the setting of horizontal ribbon skylight and longitudinal ribbon skylight and has gathered grid plate simultaneously and has safeguarded aisle, make roof is distributed with the passage having gathered daylighting, installation and maintenance walking, it is convenient to installation and the maintenance of the continuous photovoltaic panel of rear sun power. It is the primary member that draining supports in conjunction with W type draining strut member again, it is possible to realize the smooth discharge of rainwater, it is to increase the water resistance on roof, and then existing roof ceiling structure (watt, color steel, concrete pouring structure etc.) can be substituted completely.
In addition, the utility model also combine ridge top cover, chimney and, the installation structure of unpowered blower fan, good waterproof effect can not only be played, and be conducive to indoor ventilation, play the problem preventing solar energy photovoltaic panel overheated.
Accompanying drawing explanation
Fig. 1 is structural representation of the present utility model;
Fig. 2 is the structural representation at ridge ceiling place;
Fig. 3 is the structural representation at longitudinal ribbon skylight place;
Fig. 4 is the appearance schematic diagram of Fig. 3;
Fig. 5 is the installation structural representation of chimney;
Fig. 6 is the installation structural representation of unpowered blower fan;
Fig. 7 is system architecture schematic diagram of the present utility model;
Fig. 8 is mounted in the group string inverter structure schematic diagram on parapet;
Fig. 9 is without group string inverter structure schematic diagram during parapet;
Figure 10 is dormer structural representation.
Mark in accompanying drawing: 1-steel I-beam, 2-purlin, 3-W shape draining strut member, 4A-laterally safeguards aisle, the longitudinal ribbon skylight of 4B-, 5-solar energy photovoltaic panel, aisle safeguarded by 6-grid plate, 7-ribbon skylight supporting tube, 8-grid plate support, 9-transverse row tank, 10-ridge top cover, 11-metal pedal, 12-chimney, 13-is unpowered blower fan, the color steel watt waterproof collar of 14-, 15-rubber pad, 16-briquetting, 17-group string invertor, 18-exchanges power distribution cabinet, 19-light volt grid-connection cabinet, 20-C shape steel, 21-corrugated tube, 22-penetration pipe, 23-dormer crossbeam, 24-C section steel purlin.
Embodiment
Below in conjunction with drawings and Examples, the utility model is further described, but not as the foundation that the utility model is limited.
Embodiment. Industry factory building photovoltaic building integration roof power generation system, shown in as shown in Figure 1, Figure 3 and Figure 4: the domatic roof of herring-bone comprising the industrial factory building being made up of multiple steel I-beam 1, being fixed with horizontal purlin 2 on steel I-beam 1, purlin 2 is added is provided with multiple W shape draining strut member 3 parallel with steel I-beam 1; Horizontal ribbon skylight 4A it is provided with at the bottom of the slope on the domatic roof of herring-bone, and the domatic of the domatic roof of herring-bone is provided with multiple longitudinal ribbon skylight 4B from leading to top, slope at the bottom of slope, horizontal ribbon skylight 4A and longitudinal ribbon skylight 4B is provided with grid plate and safeguards aisle 6 (being made up of grid pedal), and the region between the longitudinal ribbon skylight 4B of each bar is equipped with solar energy photovoltaic panel 5; Described horizontal ribbon skylight 4A, longitudinal ribbon skylight 4B and solar energy photovoltaic panel 5 are all that one end is supported in the middle part of a W shape draining strut member 3, and the other end is supported in the middle part of adjacent W shape draining strut member 3. Described transverse direction is safeguarded and is provided with ribbon skylight supporting tube 7 below aisle 4A and longitudinal ribbon skylight 4B, ribbon skylight supporting tube 7 one end is supported in the middle part of the briquetting side 3 above a W shape draining strut member, and the other end is supported in the middle part of the briquetting side 3 above adjacent W shape draining strut member; Described grid plate safeguards that aisle 6 is fixed on grid plate support 8, and grid plate support 8 one end is supported in the middle part of a W shape draining strut member 3, and the other end is supported in the middle part of adjacent W shape draining strut member 3. Between adjacent longitudinal ribbon skylight 4B, between the adjacent solar energy photovoltaic panel 5 in climb and fall direction and the junction of horizontal ribbon skylight 4A and solar energy photovoltaic panel 5 is equipped with transverse row tank 9; One end of transverse row tank 9 is erected at the edge of W shape draining strut member 3, and the other end is erected at the edge of adjacent W shape draining strut member 3.
Longitudinal ribbon skylight of ridge and upward slope one end of solar energy photovoltaic panel near the domatic roof of herring-bone are located in transverse row tank, the ridge on the domatic roof of herring-bone is provided with ridge top cover, ridge top cover both sides are located at the W shape draining strut member of both sides, herring-bone domatic roof respectively, and upward slope one end and the ridge top cover of longitudinal ribbon skylight and solar energy photovoltaic panel are located in transverse row tank. As shown in Figure 2.
Region between the longitudinal ribbon skylight 4B of described each bar is also equipped with metal pedal 11, metal pedal 11 is provided with chimney 12 and/or unpowered blower fan 13, it is arranged with the color steel watt waterproof collar 14 outside described chimney 12 and/or unpowered blower fan 13, the color steel watt waterproof collar 14 is fixed by aluminium waterproof rivet and metal pedal 11, and the color steel watt waterproof collar 14 is covered with ABS water proofing asphalt coiled material with the junction of metal pedal 11 is glutinous, ABS water proofing asphalt coiled material surrounding is sealed with water-proof silica-gel, respectively as shown in Figure 5 and Figure 6.
Being provided with rubber pad 15 in the middle part of described W shape draining strut member 3, rubber pad 15 is provided with two supporting planes, and rubber pad 15 is also connected with briquetting 16.
Being connected with group string invertor 17 by cable after described solar energy photovoltaic panel 5 groups of strings, by cable, power distribution cabinet 18 is connected group string invertor 17 with exchanging, and exchange power distribution cabinet 18 lies prostrate grid-connection cabinet 19 by cable and light and is connected, and light volt grid-connection cabinet 19 is connected with grid-connected bus. Described solar energy photovoltaic panel 5 carries out group string taking 22 as one group, and each group string invertor 17 connects 4 string solar energy photovoltaic panels 5, as shown in Figure 7.
The backboard of described group of string invertor 17 buckles on two parallel C shape steel 20, is provided with corrugated tube 21, corrugated tube 21 is connected with penetration pipe 22 below group string invertor 17, and penetration pipe 22 is connected to solar energy photovoltaic panel 5; Described C shape steel 20 is fixed on the parapet of industry factory building (as shown in Figure 8), or is fixed on the inside body of wall of industry factory building (as shown in Figure 9).
When factory building has concrete or a color steel watt parapet, it is possible to by structure installment shown in Fig. 8, must ensure to have with roofing the height spacing of 0.5 meter bottom the group string invertor installed. Group string inverter solar photovoltaic panel wiring mode: the photovoltaic cable of access is by the penetration pipe of special bending and corrugated flexible hose, penetration pipe is fixed by supporting pipe clamp, whole sealing structure waterproof, ensures that photovoltaic cable can not corrode because of the sewage touching ditch. When factory building roof does not have concrete or color steel watt parapet or do not allow the invertor in outdoor mounted, group string invertor can be arranged on indoor does not have row to hang the metope place not affecting workshop work, as shown in Figure 9; The maintenance access safeguarded for organizing string invertor operation to be also installed in addition, bottom the group string invertor installed, must ensure to have with maintenance access face the height spacing of 0.5 meter.
The domatic roof of described herring-bone is provided with the dormer crossbeam 23 tilted on the sunny side, dormer crossbeam 23 is connected with steel I-beam 1 by joist steel, and dormer crossbeam 23 is provided with C-type steel purlin 24, C-type steel purlin 24 is provided with multiple parallel W shape draining strut member 3, W shape draining strut member 3 is added is provided with solar energy photovoltaic panel 5, one end of each solar energy photovoltaic panel 5 is supported in the middle part of a W shape draining strut member 3, and the other end is supported in the middle part of adjacent W shape draining strut member 3, as shown in Figure 10. This had both remained the original ventilation heat rejection function of dormer, and the installed capacity of the whole system that increased again improves aesthetics and the ornamental value of factory building roof simultaneously.

Claims (10)

1. industry factory building photovoltaic building integration roof power generation system, it is characterized in that: the domatic roof of herring-bone comprising the industrial factory building being made up of multiple steel I-beam (1), being fixed with horizontal purlin (2) on steel I-beam (1), purlin (2) is added is provided with multiple W shape draining strut member (3) parallel with steel I-beam (1); It is provided with at the bottom of the slope on the domatic roof of herring-bone and laterally safeguards aisle (4A), and the domatic of the domatic roof of herring-bone is provided with multiple longitudinal ribbon skylight (4B) from leading to top, slope at the bottom of slope, longitudinal ribbon skylight (4B) is provided with grid plate and safeguards aisle (6), and the region between the longitudinal ribbon skylight (4B) of each bar is equipped with solar energy photovoltaic panel (5); Described transverse direction safeguards that aisle (4A), longitudinal ribbon skylight (4B) and solar energy photovoltaic panel (5) are all that one end is supported on W shape draining strut member (3) middle part, and the other end is supported on adjacent W shape draining strut member (3) middle part.
2. industry factory building photovoltaic building integration roof according to claim 1 power generation system, it is characterized in that: described transverse direction safeguards that aisle (4A) and longitudinal ribbon skylight (4B) lower section are provided with ribbon skylight supporting tube (7), ribbon skylight supporting tube (7) one end is supported on W shape draining strut member (3) middle part, and the other end is supported on adjacent W shape draining strut member (3) middle part; Grid plate on described longitudinal ribbon skylight (4B) safeguards that aisle is fixed on grid plate support (8), grid plate support (8) one end is supported on W shape draining strut member (3) middle part, and the other end is supported on adjacent W shape draining strut member (3) middle part.
3. industry factory building photovoltaic building integration roof power generation system according to claim 1, it is characterised in that: between adjacent longitudinal ribbon skylight (4B), between the adjacent solar energy photovoltaic panel (5) in climb and fall direction and laterally safeguard that aisle (4A) is equipped with transverse row tank (9) with the junction of solar energy photovoltaic panel (5); One end of transverse row tank (9) is erected at the edge of W shape draining strut member (3), and the other end is erected at the edge of adjacent W shape draining strut member (3).
4. industry factory building photovoltaic building integration roof according to claim 3 power generation system, it is characterized in that: longitudinal ribbon skylight (4B) of ridge and upward slope one end of solar energy photovoltaic panel (5) near the domatic roof of herring-bone are located in transverse row tank (9), the ridge on the domatic roof of herring-bone is provided with ridge top cover (10), ridge top cover (10) is located on W shape draining strut member (3), is respectively equipped with transverse row tank (9) between the both sides of W shape draining strut member (3) and ridge top cover (10).
5. industry factory building photovoltaic building integration roof according to claim 1 power generation system, it is characterized in that: the region between the longitudinal ribbon skylight (4B) of described each bar is also equipped with metal pedal (11), metal pedal (11) is provided with chimney (12) or unpowered blower fan (13), it is arranged with the color steel watt waterproof collar (14) outside described chimney (12) or unpowered blower fan (13), the color steel watt waterproof collar (14) is fixed by aluminium waterproof rivet and metal pedal (11), and the color steel watt waterproof collar (14) is covered with ABS water proofing asphalt coiled material with the junction of metal pedal (11) is glutinous, ABS water proofing asphalt coiled material surrounding is sealed with water-proof silica-gel.
6. industry factory building photovoltaic building integration roof according to claim 1 power generation system, it is characterized in that: described W shape draining strut member (3) middle part is provided with rubber pad (15), rubber pad (15) structure has two supporting planes, rubber pad (15) is also connected with briquetting (16).
7. industry factory building photovoltaic building integration roof according to claim 1 power generation system, it is characterized in that: be connected with group string invertor (17) by cable after described solar energy photovoltaic panel (5) group string, by cable, power distribution cabinet (18) is connected group string invertor (17) with exchanging, exchange power distribution cabinet (18) lies prostrate grid-connection cabinet (19) by cable and light and is connected, and light volt grid-connection cabinet (19) is connected with grid-connected bus.
8. industry factory building photovoltaic building integration roof according to claim 7 power generation system, it is characterized in that: described solar energy photovoltaic panel (5) carries out group string taking 22 as one group, each group string invertor (17) connects 4 strings solar energy photovoltaic panel (5).
9. industry factory building photovoltaic building integration roof according to claim 7 power generation system, it is characterized in that: the backboard of described group of string invertor (17) buckles on two parallel C shape steel (20), group string invertor (17) lower section is provided with corrugated tube (21), being connected with penetration pipe (22) on corrugated tube (21), penetration pipe (22) is connected to the solar energy photovoltaic panel (5) of group string; Described C shape steel (20) is fixed on the parapet of industry factory building, or is fixed on the inside body of wall of industry factory building.
10. industry factory building photovoltaic building integration roof according to claim 1 power generation system, it is characterized in that: the domatic roof of described herring-bone is provided with the dormer crossbeam (23) tilted on the sunny side, dormer crossbeam (23) is connected with steel I-beam (1) by joist steel, and dormer crossbeam (23) is provided with C-type steel purlin (24), C-type steel purlin (24) is provided with multiple parallel W shape draining strut member (3), W shape draining strut member (3) is added is provided with solar energy photovoltaic panel (5), one end of each solar energy photovoltaic panel (5) is supported on W shape draining strut member (3) middle part, the other end is supported on adjacent W shape draining strut member (3) middle part.
CN201620042875.2U 2016-01-18 2016-01-18 Industry factory building building integrated photovoltaic roof power generation system Active CN205276709U (en)

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Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105871313A (en) * 2016-06-08 2016-08-17 浙江精工能源科技集团有限公司 Flexible roof photovoltaic subassembly installing structure
CN107060231A (en) * 2017-05-08 2017-08-18 谢光华 A kind of photovoltaic roofing structures for ease of maintenaince
CN108149861A (en) * 2018-02-06 2018-06-12 廖成敏 roof with photovoltaic panel
CN108560801A (en) * 2018-05-07 2018-09-21 佛山市聚高新能源有限公司 A kind of photovoltaic bracket top structure suitable for steel construction
CN108599682A (en) * 2018-06-26 2018-09-28 江门智光用电服务有限公司 A kind of dormer holder of fixed photovoltaic panel component
CN109905069A (en) * 2019-03-01 2019-06-18 莘县三伏天新能源有限责任公司 Home-use cooperative photovoltaic plant
CN110735447A (en) * 2018-07-18 2020-01-31 山东光实能源有限公司 comprehensive pipe gallery for solar power generation pavement power grooves and using method
CN113700234A (en) * 2021-10-29 2021-11-26 浙江正泰新能源开发有限公司 Building integrated photovoltaic system

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105871313A (en) * 2016-06-08 2016-08-17 浙江精工能源科技集团有限公司 Flexible roof photovoltaic subassembly installing structure
CN107060231A (en) * 2017-05-08 2017-08-18 谢光华 A kind of photovoltaic roofing structures for ease of maintenaince
CN108149861A (en) * 2018-02-06 2018-06-12 廖成敏 roof with photovoltaic panel
CN108560801A (en) * 2018-05-07 2018-09-21 佛山市聚高新能源有限公司 A kind of photovoltaic bracket top structure suitable for steel construction
CN108599682A (en) * 2018-06-26 2018-09-28 江门智光用电服务有限公司 A kind of dormer holder of fixed photovoltaic panel component
CN110735447A (en) * 2018-07-18 2020-01-31 山东光实能源有限公司 comprehensive pipe gallery for solar power generation pavement power grooves and using method
CN110735447B (en) * 2018-07-18 2024-03-19 山东光实能源有限公司 Comprehensive pipe rack for solar power generation pavement electric power groove and use method
CN109905069A (en) * 2019-03-01 2019-06-18 莘县三伏天新能源有限责任公司 Home-use cooperative photovoltaic plant
CN113700234A (en) * 2021-10-29 2021-11-26 浙江正泰新能源开发有限公司 Building integrated photovoltaic system

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