CN210041715U - Solar power generation's building sunshading board - Google Patents
Solar power generation's building sunshading board Download PDFInfo
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- CN210041715U CN210041715U CN201920354108.9U CN201920354108U CN210041715U CN 210041715 U CN210041715 U CN 210041715U CN 201920354108 U CN201920354108 U CN 201920354108U CN 210041715 U CN210041715 U CN 210041715U
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- shuttle
- motor
- connecting rod
- sun
- frame
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- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B10/00—Integration of renewable energy sources in buildings
- Y02B10/10—Photovoltaic [PV]
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- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/50—Photovoltaic [PV] energy
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- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E70/00—Other energy conversion or management systems reducing GHG emissions
- Y02E70/30—Systems combining energy storage with energy generation of non-fossil origin
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Abstract
The utility model provides a solar energy power generation's building sunshading board, it is not only simple, replicability is strong, can play solar energy and commercial power moreover and can be used for providing the advantage of power for building sunshading board simultaneously. A solar-powered building visor, comprising: the shutter type sun-shading shutter comprises a shuttle-shaped sun-shading shutter 1, a frame 2, a connecting shaft 3, a connecting rod 4, a pushing head 5, a positioning locking piece 6 and a motor 7, wherein the motor 7 is fixed on a left frame 22, a motor shaft of the motor 7 is connected with the pushing head 5, the pushing head 5 is connected with the connecting rod 4, and the connecting rod 4 is parallel to the left frame 22; each shuttle-shaped sun-shading louver 1 is connected with a connecting rod 4 through a positioning locking piece 6; the method is characterized in that: at least one surface of the shuttle-shaped sun-shading louver 1 is covered with an oily photovoltaic panel 15, a photovoltaic panel connector is arranged on the oily photovoltaic panel 15, the photovoltaic panel connector is electrically connected with a storage battery, and the storage battery is electrically connected with a grid-connected inverter.
Description
Technical Field
The utility model relates to outer wall tripe equipment technical field, it is comparatively specific, involve a solar energy power generation's building sunshading board.
Background
With the social development and the urbanization development, the outer wall of an office or an apartment of a large community of people adopts a design structure of a glass curtain wall. People set up the outer wall tripe on the glass curtain wall of above-mentioned structure, and the outer wall tripe is the most basic structure by frame and design blade between the frame and constitute, and the blade is taken place to overturn through driving system and is changed the angle, but, at present, driving system's control is usually provided by the commercial power directly. The existing outer wall shutter is exposed in the air all year round, and can be in direct contact with sunlight, and in order to respond to the call of environmental protection and energy conservation, a building sun shield capable of utilizing solar energy is urgently needed to be provided.
SUMMERY OF THE UTILITY MODEL
In view of this, the utility model provides a solar energy power generation's building sunshading board, it is through pasting one deck oil photovoltaic board on the surface of blade, and the solar energy that will gather through oil photovoltaic board converts the electric energy into to store in the battery, then passes through a grid-connected inverter with the electric energy in the battery, changes the direct current into 220V alternating current for supply with the driving system of building sunshading board. Adopt the utility model discloses a solar energy power generation's building sunshading board's structure, not only simple, replicability is strong, can play solar energy and commercial power moreover and can be used for providing the advantage of power for building sunshading board simultaneously.
A solar-powered building visor, comprising: the shuttle-shaped sun-shading shutter comprises a shuttle-shaped sun-shading shutter 1, a frame 2, connecting shafts 3, connecting rods 4, a pushing head 5, a positioning locking piece 6 and a motor 7, wherein the frame 2 comprises an upper frame 21, a left frame 22, a lower frame 23 and a right frame 24, a left shaft hole and a right shaft hole are formed in the opposite inner side faces of the left frame 22 and the right frame 24, and the shuttle-shaped sun-shading shutter 1 is movably connected in the opposite left shaft hole and the right shaft hole through the two connecting shafts 3; the motor 7 is fixed on the left frame 22, a motor shaft of the motor 7 is connected with the push head 5, the push head 5 is connected with the connecting rod 4, and the connecting rod 4 is parallel to the left frame 22; each shuttle-shaped sun-shading louver 1 is connected with a connecting rod 4 through a positioning locking piece 6; the method is characterized in that: at least one surface of the shuttle-shaped sun-shading louver 1 is covered with an oily photovoltaic panel 15, a photovoltaic panel connector is arranged on the oily photovoltaic panel 15, the photovoltaic panel connector is electrically connected with a storage battery, and the storage battery is electrically connected with a grid-connected inverter.
Further, the shuttle-shaped sun-shading louver 1 is composed of an upper blade 11, a lower blade 12, a left first movable sealing cover plate 13 and a right second movable sealing cover plate 14 which are opposite, a cavity is arranged inside the upper blade 11, the lower blade 12, the left first movable sealing cover plate 13 and the right second movable sealing cover plate 14 which are opposite, a connecting shaft 3 is correspondingly arranged in the middle of the first movable sealing cover plate 13, the connecting shaft 3 comprises a countersunk head screw 31, an inner nested telescopic component 32 and a rotating shaft sleeve 33, the inner nested telescopic component 32 can movably penetrate through a through hole in the middle of the first movable sealing cover plate 13 and the second movable sealing cover plate 14, the inner nested telescopic component 32 is fixed on the inner sides of the first movable sealing cover plate 13 and the second movable sealing cover plate 14 through the countersunk head screw 31, and the rotating shaft sleeve 33 is sleeved on the inner nested telescopic component 32 from the outside. The adoption of the connecting shaft 3 is beneficial to the installation of the shuttle-shaped sun-shading louver 1.
Further, the one end of pushing head 5 is equipped with the screw rod, and the screw rod can insert the motor shaft and obtain the threaded hole of free end to lock through the nut, make the motor shaft fixed with the one end of pushing head 5, the other one end fixed connection of pushing head 5 is on connecting rod 4, is equipped with a plurality of location latch fitting 6 on connecting rod 4, and location latch fitting 6 can make connecting rod 4 be connected with a plurality of fusiform sunshade tripe 1 respectively.
Furthermore, the positioning locking piece 6 comprises a sleeve 61, a screw 62 and a driving plate 63, wherein the sleeve 61 is provided with a first through hole 611 penetrating up and down and a second through hole 612 perpendicular to the first through hole 611 penetrating up and down, the connecting rod 4 penetrates through the first through hole 611 penetrating up and down of the sleeve 61, and the screw 62 is screwed into the second through hole 612 to fixedly lock the connecting rod 4 in the sleeve 61.
Further, the driving plate 63 is in a herringbone shape, the top of the herringbone driving plate 63 is connected with the sleeve 61, the bottom of the herringbone driving plate 63 is connected with the shuttle-shaped sun-shading louver 1, the distance between the top of the herringbone driving plate 63 and the end of the shuttle-shaped sun-shading louver 1 is short, and the distance between the top of the herringbone driving plate 63 and the middle of the shuttle-shaped sun-shading louver 1 is long.
Further, the driving plate 63 may be located on the upper blade 11 or the lower blade 12 of the shuttle-shaped sunshade louver 1. Preferably, the driving plate 63 is located on the lower blade 12 of the shuttle-shaped sun blind 1, which is beneficial to improving the supporting force.
Further, the motor 7 is electrically connected with the PLC, and the motion of the motor can be controlled through the PLC.
Further, a communication unit is arranged in the motor 7, and can be communicated with the mobile control end, so that the mobile control end can control the motor 7 to move.
Furthermore, the included angle of the plane formed by the shuttle-shaped sun-shading louver 1 and the frame 2 is 0-105 degrees.
Further, in order to prevent corrosion of the shuttle-shaped sun blind 1, an aluminum alloy 6063T5 is adopted for the shuttle-shaped sun blind 1, and preferably, fluorocarbon is coated on the surface of the aluminum alloy 6063T 5.
Further, the motor 7 adopts a push rod motor, the working voltage of the push rod motor is 220V, the frequency is 50Hz, and the waterproof grade is IP 56.
The utility model discloses a solar energy power generation's building sunshading board's theory of operation does: the oily photovoltaic panel 15 attached to the surface of the shuttle-shaped sun-shading louver 1 converts solar energy into electric energy, then transmits the electric energy to the storage battery for storage, when the angle of the shuttle-shaped sun-shading louver 1 needs to be adjusted, the storage battery is electrically connected with the grid-connected inverter, the direct current is converted into 220V commercial power through the grid-connected inverter, and then the commercial power is supplied to the power supply of the motor 7; when the motor 7 cannot be supplied with electric energy generated by the oily photovoltaic panel 15 to work in continuous rainy days, the electric energy is directly connected to the commercial power and is used for supplying the motor 7 to work.
Drawings
Fig. 1 is a schematic structural diagram of the solar power generation building sun visor of the present invention.
Fig. 2 is a schematic structural view of a shuttle-shaped sun blind.
Figure 3 is a schematic view of the positioning lock.
Figure 4 is a schematic view of the positioning lock.
Fig. 5 is a schematic structural view of the sleeve.
Description of the main elements
The following detailed description of the invention will be further described in conjunction with the above-identified drawings.
Detailed Description
Specific embodiment example 1:
as shown in fig. 1, it is a schematic structural diagram of the solar power generation building sun visor of the present invention; as shown in fig. 2, is a schematic structural view of a shuttle-shaped sun blind; FIG. 4 is a schematic view of the positioning lock of FIG. 4; fig. 5 is a schematic structural view of the sleeve. A solar-powered building visor, comprising: the shuttle-shaped sun-shading shutter comprises a shuttle-shaped sun-shading shutter 1, a frame 2, connecting shafts 3, connecting rods 4, a pushing head 5, a positioning locking piece 6 and a motor 7, wherein the frame 2 comprises an upper frame 21, a left frame 22, a lower frame 23 and a right frame 24, a left shaft hole and a right shaft hole are formed in the opposite inner side faces of the left frame 22 and the right frame 24, and the shuttle-shaped sun-shading shutter 1 is movably connected in the opposite left shaft hole and the right shaft hole through the two connecting shafts 3; the motor 7 is fixed on the left frame 22, a motor shaft of the motor 7 is connected with the push head 5, the push head 5 is connected with the connecting rod 4, and the connecting rod 4 is parallel to the left frame 22; each shuttle-shaped sun-shading louver 1 is connected with a connecting rod 4 through a positioning locking piece 6; the method is characterized in that: at least one surface of the shuttle-shaped sun-shading louver 1 is covered with an oily photovoltaic panel 15, a photovoltaic panel connector is arranged on the oily photovoltaic panel 15, the photovoltaic panel connector is electrically connected with a storage battery, and the storage battery is electrically connected with a grid-connected inverter.
The shuttle-shaped sun-shading louver 1 comprises an upper blade 11, a lower blade 12, a left first movable sealing cover plate 13 and a right second movable sealing cover plate 14 which are opposite, a cavity is formed inside the upper blade 11, the lower blade 12, the left first movable sealing cover plate 13 and the right second movable sealing cover plate 14 which are opposite, a connecting shaft 3 is correspondingly arranged in the middle of the first movable sealing cover plate 13, the connecting shaft 3 comprises a countersunk head screw 31, an inner nested telescopic component 32 and a rotating shaft sleeve 33, the inner nested telescopic component 32 can movably penetrate through a through hole in the middle of the first movable sealing cover plate 13 and the second movable sealing cover plate 14, the inner nested telescopic component 32 is fixed on the inner sides of the first movable sealing cover plate 13 and the second movable sealing cover plate 14 through the countersunk head screw 31, and the rotating shaft sleeve 33 is sleeved on the inner nested telescopic component 32 from the outside. The adoption of the connecting shaft 3 is beneficial to the installation of the shuttle-shaped sun-shading louver 1.
The one end of pushing head 5 is equipped with the screw rod, and the screw rod can insert the motor shaft and obtain the threaded hole of free end to lock through the nut, make the motor shaft fixed with the one end of pushing head 5, push head 5's other one end fixed connection is on connecting rod 4, is equipped with a plurality of location latch fitting 6 on connecting rod 4, and location latch fitting 6 can be so that connecting rod 4 is connected with a plurality of fusiform sunshade tripe 1 respectively.
The positioning locking piece 6 comprises a sleeve 61, a screw 62 and a driving plate 63, wherein the sleeve 61 is provided with a first through hole 611 penetrating up and down and a second through hole 612 perpendicular to the first through hole 611 penetrating up and down, the connecting rod 4 penetrates through the first through hole 611 penetrating up and down of the sleeve 61, and the screw 62 is screwed into the second through hole 612 to fixedly lock the connecting rod 4 in the sleeve 61.
The driving plate 63 is in a herringbone shape, the top of the herringbone driving plate 63 is connected with the sleeve 61, the bottom of the herringbone driving plate 63 is connected with the shuttle-shaped sun-shading louver 1, the distance between the top of the herringbone driving plate 63 and the end of the shuttle-shaped sun-shading louver 1 is short, and the distance between the top of the herringbone driving plate 63 and the middle of the shuttle-shaped sun-shading louver 1 is long. The driving plate 63 is positioned on the lower blade 12 of the shuttle-shaped sun-shading louver 1, and is beneficial to improving the supporting force.
The motor 7 is electrically connected with the PLC, and the motion of the motor can be controlled through the PLC.
The included angle of the plane formed by the shuttle-shaped sun-shading louver 1 and the frame 2 is 0-105 degrees.
In order to prevent corrosion of the shuttle-shaped sun-shading shutter 1, an aluminum alloy 6063T5 is adopted for the shuttle-shaped sun-shading shutter 1, and preferably, fluorocarbon is coated on the surface of the aluminum alloy 6063T 5.
The motor 7 adopts a push rod motor, the working voltage of the push rod motor is 220V, the frequency is 50Hz, and the waterproof grade is IP 56.
The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.
Claims (9)
1. A solar-powered building visor, comprising: the shuttle-shaped sun-shading louver comprises a shuttle-shaped sun-shading louver body (1), a frame (2), connecting shafts (3), connecting rods (4), a pushing head (5), a positioning locking piece (6) and a motor (7), wherein the frame (2) comprises an upper frame (21), a left frame (22), a lower frame (23) and a right frame (24), a left shaft hole and a right shaft hole are formed in the opposite inner side faces of the left frame (22) and the right frame (24), and the shuttle-shaped sun-shading louver body (1) is movably connected in the opposite left shaft hole and the right shaft hole through the two connecting shafts (3); the motor (7) is fixed on the left frame (22), a motor shaft of the motor (7) is connected with the push head (5), the push head (5) is connected with the connecting rod (4), and the connecting rod (4) is parallel to the left frame (22); each shuttle-shaped sun-shading shutter (1) is connected with a connecting rod (4) through a positioning locking piece (6); the method is characterized in that: at least one surface of the shuttle-shaped sun-shading louver (1) is covered with an oily photovoltaic panel (15), a photovoltaic panel connector is arranged on the oily photovoltaic panel (15), the photovoltaic panel connector is electrically connected with a storage battery, and the storage battery is electrically connected with a grid-connected inverter.
2. A solar electricity generating building sun visor according to claim 1, wherein: the shuttle-shaped sun-shading louver (1) consists of an upper blade (11), a lower blade (12), a left first movable sealing cover plate (13) and a right second movable sealing cover plate (14) which are opposite, a cavity is arranged inside the upper blade (11), the lower blade (12), the left first movable sealing cover plate (13) and the right second movable sealing cover plate (14) which are opposite, a connecting shaft (3) is correspondingly arranged in the middle of the first movable sealing cover plate (13), the connecting shaft (3) comprises a countersunk head screw (31), an inner nested telescopic component (32) and a rotating shaft sleeve (33), the inner nested telescopic component (32) can movably penetrate through a through hole in the middle of the first movable sealing cover plate (13) and the second movable sealing cover plate (14), and the inner nested telescopic component (32) is fixed on the inner sides of the first movable sealing cover plate (13) and the second movable sealing cover plate (14) through the countersunk head screw (31), the rotating shaft sleeve (33) is sleeved on the inner nested telescopic component (32) from the outside.
3. A solar electricity generating building sun visor according to claim 1, wherein: the one end of pushing away head (5) is equipped with the screw rod, and the screw rod can insert the motor shaft and obtain the threaded hole of free end to lock through the nut, make the motor shaft fixed with the one end of pushing away head (5), the other one end fixed connection of pushing away head (5) is on connecting rod (4), is equipped with a plurality of location latch fitting (6) on connecting rod (4), and location latch fitting (6) can be so that connecting rod (4) are connected with a plurality of fusiformis sunshade tripe (1) respectively.
4. A solar electricity generating building sun visor according to claim 1, wherein: the positioning locking piece (6) comprises a sleeve (61), a screw (62) and a driving plate (63), a first through hole (611) which is through up and down and a second through hole (612) which is perpendicular to the first through hole (611) which is through up and down are formed in the sleeve (61), the connecting rod (4) penetrates through the first through hole (611) which is through up and down of the sleeve (61), the screw (62) is screwed into the second through hole (612), and the connecting rod (4) is fixedly locked inside the sleeve (61).
5. The solar power generation building visor of claim 4, wherein: the driving plate (63) is in a herringbone shape, the top of the herringbone driving plate (63) is connected with the sleeve (61), the bottom of the herringbone driving plate (63) is connected with the shuttle-shaped sun-shading louver (1), and the distance between the top of the herringbone driving plate (63) and the end part of the shuttle-shaped sun-shading louver (1) is smaller than the distance between the top of the herringbone driving plate (63) and the middle part of the shuttle-shaped sun-shading louver (1).
6. The solar power generation building visor of claim 4, wherein: the driving plate (63) can be positioned on the upper blade (11) or the lower blade (12) of the shuttle-shaped sun blind (1).
7. A solar electricity generating building sun visor according to claim 1, wherein: the motor (7) is electrically connected with the PLC, and the motion of the motor can be controlled through the PLC.
8. A solar electricity generating building sun visor according to claim 1, wherein: the included angle of the plane formed by the shuttle-shaped sun-shading louver (1) and the frame (2) is 0-105 degrees.
9. A solar electricity generating building sun visor according to claim 1, wherein: the motor (7) adopts a push rod motor, the working voltage of the push rod motor is 220V, the frequency is 50Hz, and the waterproof grade is IP 56.
Priority Applications (1)
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CN201920354108.9U CN210041715U (en) | 2019-03-20 | 2019-03-20 | Solar power generation's building sunshading board |
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CN201920354108.9U CN210041715U (en) | 2019-03-20 | 2019-03-20 | Solar power generation's building sunshading board |
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CN210041715U true CN210041715U (en) | 2020-02-07 |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112112330A (en) * | 2020-09-21 | 2020-12-22 | 吴祖荣 | Photovoltaic glass shutter wall with high power generation efficiency and energy conservation |
CN114232853A (en) * | 2021-12-30 | 2022-03-25 | 南京城镇建筑设计咨询有限公司 | Novel cross louvered breathing curtain wall system and control method thereof |
-
2019
- 2019-03-20 CN CN201920354108.9U patent/CN210041715U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112112330A (en) * | 2020-09-21 | 2020-12-22 | 吴祖荣 | Photovoltaic glass shutter wall with high power generation efficiency and energy conservation |
CN112112330B (en) * | 2020-09-21 | 2021-11-26 | 广州盈德建筑工程有限公司 | Photovoltaic glass shutter wall with high power generation efficiency and energy conservation |
CN114232853A (en) * | 2021-12-30 | 2022-03-25 | 南京城镇建筑设计咨询有限公司 | Novel cross louvered breathing curtain wall system and control method thereof |
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Address after: 201615 room 1503-1, No. 668, xinbrick Road, Songjiang District, Shanghai Patentee after: Shanghai Yuebai Sunshade Technology Co., Ltd. Address before: 201615 No.2 Building, 755 Shenglong Road, Songjiang District, Shanghai Patentee before: Shanghai Yuebai Sunshade Technology Co., Ltd. |