CN205092822U - Chain expansion solar panel bearing frame with gyration function - Google Patents

Chain expansion solar panel bearing frame with gyration function Download PDF

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Publication number
CN205092822U
CN205092822U CN201520770326.2U CN201520770326U CN205092822U CN 205092822 U CN205092822 U CN 205092822U CN 201520770326 U CN201520770326 U CN 201520770326U CN 205092822 U CN205092822 U CN 205092822U
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CN
China
Prior art keywords
truss
axle
large arm
sprocket wheel
boxboard
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Withdrawn - After Issue
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CN201520770326.2U
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Chinese (zh)
Inventor
于丰泽
陈怀春
于占江
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New Forms Of Energy Co Ltd By Shares Of Heilungkiang Xingan
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New Forms Of Energy Co Ltd By Shares Of Heilungkiang Xingan
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Priority to CN201520770326.2U priority Critical patent/CN205092822U/en
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Publication of CN205092822U publication Critical patent/CN205092822U/en
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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
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/50Photovoltaic [PV] energy

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  • Photovoltaic Devices (AREA)

Abstract

The utility model provides a chain expansion solar panel bearing frame with gyration function. The utility model relates to a solar energy power generation technical field, concretely relates to chain expansion solar panel bearing frame with gyration function. The utility model discloses a removal car body assembly overall dimension who solves current solar power station is too big, and the transportation is inconvenient, and acquireing of solar energy receives the ambient condition restriction simultaneously, influences power generator effect's problem. A chain expansion solar panel bearing frame with gyration function is including expanding motor, main bracing truss, rotation mechanism, bracing piece, four chain drive of group, two big arm trusss, two side plate trusss and two upper cover plate trusss, the middle part of owner bracing truss's lower terminal surface is equipped with rotation mechanism and bracing piece from top to bottom in proper order, and both ends from interior to exterior is equipped with big arm truss, side plate truss and upper cover plate truss in proper order about main bracing truss. The utility model is used for the emergent guarantee power supply system of solar energy.

Description

A kind of chain expansion solar panel carrying support body with revolute function
Technical field
The utility model relates to solar energy generation technology field, is specifically related to a kind of chain expansion solar panel carrying support body with revolute function.
Background technology
Solar power station is the device utilizing solar module to be electric energy by light energy conversion, is clean energy resource and the regenerative resource of the earth.In solar photovoltaic generation system.Because the generated output of photovoltaic is directly proportional to photovoltaic cell component, and the moving body assembly of existing solar energy emergency guarantee electric power system due to its overall dimension excessive, transportation is inconvenient, the relevant regulations of road transportation management P regulations cannot be met simultaneously, power to solar energy emergency guarantee and bring inconvenience.In addition, the acquisition due to solar energy can be subject to the restriction of environmental condition, to residing geographical environment and season all relevant, and unstable, therefore, when solar illuminance is not enough, then can not meet the demand of emergency power generation.
Utility model content
The utility model is that to solve the moving body assembly overall dimension of existing solar power station excessive, transportation is inconvenient, the acquisition of solar energy is simultaneously subject to environmental condition restriction, the problem of impact generating effect, and then proposes a kind of chain expansion solar panel carrying support body with revolute function.
The utility model is solve the problems of the technologies described above the technical scheme taked to be: the utility model comprises expansion motor, main sub-truss, slew gear, support bar, four groups of chain drives, two large arm truss, two side box plate truss and two upper cover plate truss, main sub-truss is horizontally disposed with, the middle part of the lower surface of main sub-truss is provided with slew gear and support bar from top to bottom successively, affixed at the bottom of the bottom of support bar and the compartment of solar power station car, the two ends, left and right of main sub-truss are provided with large arm truss from the inside to the outside successively, side box plate truss and upper cover plate truss, the middle part level of main sub-truss is provided with driven shaft and two driving shafts, the both sides, front and back of main sub-truss respectively symmetry are hinged with a driving shaft, wherein side driving shaft is connected with expansion motor, one end of driven shaft and the side of main sub-truss hinged, the other end of driven shaft and the opposite side of main sub-truss hinged, driving shaft and driven shaft are symmetrical arranged about the vertical center line of main sub-truss, each driving shaft is connected with transmission gear and drive sprocket from the inside to the outside successively, the two ends of driven shaft are connected with transfer driven gear and driven sprocket respectively from the inside to the outside successively, transmission gear and transfer driven gear are meshed, drive sprocket and driven sprocket are connected to one group of chain drive, chain drive is symmetricly set on the both sides, front and back of main sub-truss.
The beneficial effects of the utility model are:
1, the utility model is used on the moving body of solar energy emergency guarantee electric power system, when advancing without the need to generating or power station, truss collapses in car through chain drive by power source, greatly reduce parking space, the moving body assembly effectively meeting solar energy emergency guarantee electric power system meets the relevant regulations of road transportation management P regulations, and powering to solar energy emergency guarantee brings conveniently;
2, a power source is utilized to realize One step development or the gathering of all truss by chain drive in the utility model, large arm truss, side box plate truss and upper cover plate truss complete the action launching or draw in simultaneously, transmission efficiency is high, the speed launched or draw in is fast, save time, transmission process is stablized simultaneously;
3, the both sides, front and back at truss in the utility model are equipped with chain drive, make truss stress equalization when launching or draw in, anti-locking apparatus causes damage owing to being subject to the effect of torsion, effectively prevent the damage causing solar panel when drawing in due to truss run-off the straight simultaneously;
4, in the utility model after truss all draws in, truss is arranged on the outside of solar panel, achieves available protecting to solar panel in transport moving process;
5, the utility model realizes the 360 degree rotations of solar-cell panel support along self by slew gear after deployment, the contact area of solar panel and sun direct projection can be adjusted on the one hand according to the movement of position of sun, improve the utilance of solar energy, improve generating effect, the position of solar panel can be adjusted on the other hand according to wind direction, reduce the impact of large wind resistance on solar panel, prevent solar panel from sustaining damage;
6, structure of the present utility model is simple, stable work in work, manufactures easily.
Accompanying drawing explanation
Overall structure structural representation when Fig. 1 is the utility model gathering;
Fig. 2 is overall structure structural representation when driving shaft 18 side large arm truss 11, side box plate truss 12 and upper cover plate truss 13 launch in the utility model;
Fig. 3 is the vertical view of Fig. 2;
Fig. 4 is the front view of slew gear 29 in the utility model;
Fig. 5 is the vertical view of slew gear 29 in the utility model;
Embodiment
Embodiment one: composition graphs 1 to Fig. 5 illustrates, a kind of chain expansion solar panel carrying support body with revolute function described in present embodiment comprises expansion motor 1, main sub-truss 10, slew gear 29, support bar 27, four groups of chain drives, two large arm truss 11, two side box plate truss 12 and two upper cover plate truss 13, main sub-truss 10 is horizontally disposed with, the middle part of the lower surface of main sub-truss 10 is provided with slew gear 29 and support bar 27 from top to bottom successively, affixed at the bottom of the bottom of support bar 27 and the compartment of solar power station car, the two ends, left and right of main sub-truss 10 are provided with large arm truss 11 from the inside to the outside successively, side box plate truss 12 and upper cover plate truss 13, the middle part level of main sub-truss 10 is provided with driven shaft 20 and two driving shafts 18, the both sides, front and back of main sub-truss 10 respectively symmetry are hinged with a driving shaft 18, wherein side driving shaft 18 is connected with and launches motor 1, one end of driven shaft 20 and the side of main sub-truss 10 hinged, the other end of driven shaft 20 and the opposite side of main sub-truss 10 hinged, driving shaft 18 is symmetrical arranged with the vertical center line of driven shaft 20 about main sub-truss 10, each driving shaft 18 is connected with transmission gear 17 and drive sprocket 22 from the inside to the outside successively, the two ends of driven shaft 20 are connected with transfer driven gear 21 and driven sprocket 23 respectively from the inside to the outside successively, transmission gear 17 and transfer driven gear 21 are meshed, drive sprocket 22 and driven sprocket 23 are connected to one group of chain drive, chain drive is symmetricly set on the both sides, front and back of main sub-truss 10.
The main sub-truss 10 of design like this, large arm truss 11, the upper surface of side box plate truss 12 and upper cover plate truss 13 is all connected with solar panel, main sub-truss 10 is static, launching motor 1 drives driving shaft 18 to rotate counterclockwise, transmission gear 17 rotates thereupon, the transfer driven gear 21 be meshed with it together rotates clockwise together with driven shaft, drive sprocket 22 and driven sprocket 23 drive the chain drive of both sides to operate respectively, realize the large arm truss 11 at main sub-truss about 10 two ends, side box plate truss 12 and upper cover plate truss 13 launch, realization like this launches action, otherwise realize drawing in.Large arm truss 11, side box plate truss 12 and upper cover plate truss 13 6 supports can be realized in present embodiment all launch, make the space that takies during gathering less, transport moving process is convenient, and during expansion, the area of solar panel is larger, generating better effects if.Slew gear 28 realizes the 360 degree rotations of solar-cell panel support along self, according to the position of wind direction adjustment solar panel, reduces the impact of large wind resistance on solar panel, prevents solar panel from sustaining damage.
Embodiment two: composition graphs 1 to Fig. 3 illustrates, often organize chain drive described in present embodiment and comprise large arm axle 2, boxboard axle 3, upper cover plate axle 4, large arm axle sprocket wheel 5, main sub-truss sprocket wheel 6, boxboard axle sprocket wheel 7, large arm truss sprocket wheel 8, boxboard connecting axle sprocket wheel 9, boxboard connecting axle 24, boxboard connecting axle gear 25 and sector gear 26, large arm axle 2 is horizontally set between main sub-truss 10 and large arm truss 11, the excircle sidewall of the medial extremity of large arm axle 2 and main sub-truss 10 hinged and affixed with large arm truss 11, the outboard end of large arm axle 2 is provided with main sub-truss sprocket wheel 6 and large arm axle sprocket wheel 5 from the inside to the outside successively, large arm axle sprocket wheel 5 is affixed with large arm axle 2, main sub-truss sprocket wheel 6 is hinged with large arm axle 2, the end face of main sub-truss sprocket wheel 6 and the side of main sub-truss 10 affixed,
Boxboard axle 3 is horizontally set between large arm truss 11 and side box plate truss 12, the excircle sidewall of the medial extremity of boxboard axle 3 and large arm truss 11 affixed and hinged with side box plate truss 12, the outboard end of boxboard axle 3 is provided with boxboard axle sprocket wheel 7 and large arm truss sprocket wheel 8 from the inside to the outside successively, large arm truss sprocket wheel 8 is affixed with boxboard axle 3, boxboard axle sprocket wheel 7 is hinged with boxboard axle 3, the end face of boxboard axle sprocket wheel 7 and the side of side box plate truss 12 affixed
Upper cover plate axle 4 is horizontally set between side box plate truss 12 and upper cover plate truss 13, the excircle sidewall of the medial extremity of upper cover plate axle 4 and side box plate truss 12 hinged and affixed with upper cover plate truss 13, the outboard end of upper cover plate axle 4 is connected with sector gear 26, boxboard connecting axle 24 is horizontally hinged outside side box plate truss 12, the outboard end of boxboard connecting axle 24 is connected with boxboard connecting axle sprocket wheel 9 and boxboard connecting axle gear 25 from the inside to the outside successively
Drive sprocket 22 is connected with large arm axle sprocket wheel 5 respectively by first chain 14 with driven sprocket 23, main sub-truss sprocket wheel 6 is connected with boxboard axle sprocket wheel 7 by the second chain 15, large arm truss sprocket wheel 8 is connected with boxboard connecting axle sprocket wheel 9 by the 3rd chain 16, and boxboard connecting axle gear 25 is meshed with sector gear 26.Other composition is identical with embodiment one with connected mode.
When performing expansion action, launching motor 1 drives driving shaft 18 to rotate counterclockwise, transmission gear 17 rotates thereupon, drive sprocket 22 drives large arm axle sprocket wheel 5 to rotate counterclockwise by the first chain 14, large arm axle sprocket wheel 5 is affixed with large arm axle 2, large arm axle sprocket wheel 5 drives large arm axle 2 to rotate counterclockwise, large arm axle 2 is affixed with large arm truss 11, large arm axle 2 drives large arm truss 11 to rotate counterclockwise expansion 90 °, and large arm truss 11 is the level of state (namely the direction of arrow in Fig. 2 on large arm truss 11 represent the rotation direction of large arm truss 11), because main sub-truss sprocket wheel 6 and main sub-truss 10 are fixed, when large arm truss 11 rotates counterclockwise, drive the second chain 15 transmission, second chain 15 drives boxboard axle sprocket wheel 7 to rotate clockwise, boxboard axle sprocket wheel 7 is affixed with side box plate truss 12, boxboard axle sprocket wheel 7 drives side box plate truss 12 to rotate clockwise expansion 180 °, and side box plate truss 12 is the level of state (namely the direction of arrow in Fig. 2 on side box plate truss 12 represent the rotation direction of side box plate truss 12), because large arm truss sprocket wheel 8 and boxboard axle 3 are fixed, boxboard axle 3 is fixed with large arm truss 11, when side box plate truss 12 rotates clockwise, drive the 3rd chain 16 transmission, 3rd chain 16 drives boxboard connecting axle sprocket wheel 9 to rotate counterclockwise, boxboard connecting axle sprocket wheel 9 drives boxboard connecting axle 24 to rotate counterclockwise, boxboard connecting axle 24 drives boxboard connecting axle gear 25 to rotate counterclockwise, boxboard connecting axle gear 25 drives sector gear 26 to rotate clockwise, upper cover plate axle 4 rotates thereupon, upper cover plate truss 13 is fixed with upper cover plate axle 4, upper cover plate truss 13 rotates clockwise 90 °, upper cover plate truss 13 is the level of state (namely the direction of arrow in Fig. 2 on upper cover plate truss 13 represent the rotation direction of upper cover plate truss 13), while transmission gear 17 rotates, the transfer driven gear 21 be meshed with it together rotates clockwise together with driven shaft, drives the large arm truss 11 of opposite side, side box plate truss 12 and upper cover plate truss 13 to complete same expansion action.In like manner launch motor 1 to rotate clockwise, complete gathering action.
Embodiment three: composition graphs 1 to Fig. 5 illustrates, slew gear 29 described in present embodiment comprises revolution lower bottom base 29-1, revolution upper bed-plate 29-3, turning motor 29-4, revolution driving gear 29-5, revolution driven gear 29-6, reduction gearing 29-7 and multiple steel ball 29-2, the upper surface of revolution upper bed-plate 29-3 is affixed by the lower surface of connecting rod and main sub-truss 10, revolution lower bottom base 29-1 is arranged on immediately below revolution upper bed-plate 29-3, revolution lower bottom base 29-1 and support bar 27 affixed, the lower surface of revolution upper bed-plate 29-3 and the upper surface of revolution lower bottom base 29-1 are along the circumferential direction provided with circular orbit groove, multiple steel ball 29-2 is laid with in circular orbit groove, the side of revolution upper bed-plate 29-3 is provided with turning motor 29-4, the output shaft of turning motor 29-4 is provided with revolution driving gear 29-5, the lateral wall of revolution upper bed-plate 29-3 is along the circumferential direction laid with multiple gear teeth 29-9, the side of revolution upper bed-plate 29-3 is also provided with power transmission shaft 29-8, power transmission shaft 29-8 is connected with revolution driven gear 29-6 and reduction gearing 29-7, revolution driving gear 29-5 is meshed with revolution driven gear 29-6, reduction gearing 29-7 is meshed with the gear teeth 29-9 on the lateral wall of revolution upper bed-plate 29-3.Other composition is identical with embodiment one or two with connected mode.
Design like this is when turning motor 29-4 rotates, revolution driving gear 29-5 rotates thereupon, by engaging of revolution driven gear 29-6 and revolution driving gear 29-5 and reduction gearing 29-7 and the gear teeth 29-9 on the lateral wall turning round upper bed-plate 29-3, revolution upper bed-plate 29-3 is made to do axial-rotation, complete revolution action, thus drive main sub-truss 10, large arm truss 11, side box plate truss 12 and upper cover plate truss 13 to turn round.
Embodiment four: composition graphs 1 to Fig. 5 illustrates, turning motor 29-4 described in present embodiment and power transmission shaft 29-8 is arranged on supporting seat 29-10, and supporting seat 29-10 is affixed with revolution lower bottom base 29-1.Other composition is identical with embodiment three with connected mode.
Embodiment five: composition graphs 3 illustrates, driving shaft 18 described in present embodiment is connected with expansion motor 1 by reductor 28.Other composition is identical with embodiment four with connected mode.

Claims (1)

1. the chain expansion solar panel carrying support body with revolute function, it is characterized in that: described a kind of chain expansion solar panel carrying support body with revolute function comprises expansion motor (1), main sub-truss (10), slew gear (29), support bar (27), four groups of chain drives, two large arm truss (11), two side box plate truss (12) and two upper cover plate truss (13), main sub-truss (10) is horizontally disposed with, the middle part of the lower surface of main sub-truss (10) is provided with slew gear (29) and support bar (27) from top to bottom successively, affixed at the bottom of the bottom of support bar (27) and the compartment of solar power station car, the two ends, left and right of main sub-truss (10) are provided with large arm truss (11) from the inside to the outside successively, side box plate truss (12) and upper cover plate truss (13), the middle part level of main sub-truss (10) is provided with driven shaft (20) and two driving shafts (18), the both sides, front and back of main sub-truss (10) respectively symmetry are hinged with a driving shaft (18), wherein side driving shaft (18) is connected with and launches motor (1), one end of driven shaft (20) and the side of main sub-truss (10) hinged, the other end of driven shaft (20) and the opposite side of main sub-truss (10) hinged, driving shaft (18) is symmetrical arranged with the vertical center line of driven shaft (20) about main sub-truss (10), each driving shaft (18) is connected with from the inside to the outside successively transmission gear (17) and drive sprocket (22), the two ends of driven shaft (20) are connected with transfer driven gear (21) and driven sprocket (23) respectively from the inside to the outside successively, transmission gear (17) and transfer driven gear (21) are meshed, drive sprocket (22) and driven sprocket (23) are connected to one group of chain drive, chain drive is symmetricly set on the both sides, front and back of main sub-truss (10),
Described chain drive of often organizing comprises large arm axle (2), boxboard axle (3), upper cover plate axle (4), large arm axle sprocket wheel (5), main sub-truss sprocket wheel (6), boxboard axle sprocket wheel (7), large arm truss sprocket wheel (8), boxboard connecting axle sprocket wheel (9), boxboard connecting axle (24), boxboard connecting axle gear (25) and sector gear (26), large arm axle (2) is horizontally set between main sub-truss (10) and large arm truss (11), the excircle sidewall of the medial extremity of large arm axle (2) and main sub-truss (10) hinged and affixed with large arm truss (11), the outboard end of large arm axle (2) is provided with main sub-truss sprocket wheel (6) and large arm axle sprocket wheel (5) from the inside to the outside successively, large arm axle sprocket wheel (5) is affixed with large arm axle (2), main sub-truss sprocket wheel (6) is hinged with large arm axle (2), the end face of main sub-truss sprocket wheel (6) and the side of main sub-truss (10) affixed,
Boxboard axle (3) is horizontally set between large arm truss (11) and side box plate truss (12), the excircle sidewall of the medial extremity of boxboard axle (3) and large arm truss (11) affixed and hinged with side box plate truss (12), the outboard end of boxboard axle (3) is provided with boxboard axle sprocket wheel (7) and large arm truss sprocket wheel (8) from the inside to the outside successively, large arm truss sprocket wheel (8) is affixed with boxboard axle (3), boxboard axle sprocket wheel (7) is hinged with boxboard axle (3), the end face of boxboard axle sprocket wheel (7) and the side of side box plate truss (12) affixed,
Upper cover plate axle (4) is horizontally set between side box plate truss (12) and upper cover plate truss (13), the excircle sidewall of the medial extremity of upper cover plate axle (4) and side box plate truss (12) hinged and affixed with upper cover plate truss (13), the outboard end of upper cover plate axle (4) is connected with sector gear (26), boxboard connecting axle (24) is horizontally hinged in side box plate truss (12) outside, the outboard end of boxboard connecting axle (24) is connected with boxboard connecting axle sprocket wheel (9) and boxboard connecting axle gear (25) from the inside to the outside successively
Drive sprocket (22) is connected with large arm axle sprocket wheel (5) respectively by first chain (14) with driven sprocket (23), main sub-truss sprocket wheel (6) is connected with boxboard axle sprocket wheel (7) by the second chain (15), large arm truss sprocket wheel (8) is connected with boxboard connecting axle sprocket wheel (9) by the 3rd chain (16), boxboard connecting axle gear (25) is meshed with sector gear (26)
Described slew gear (29) comprises revolution lower bottom base (29-1), revolution upper bed-plate (29-3), turning motor (29-4), revolution driving gear (29-5), revolution driven gear (29-6), reduction gearing (29-7) and multiple steel ball (29-2), the upper surface of revolution upper bed-plate (29-3) is affixed by the lower surface of connecting rod and main sub-truss (10), revolution lower bottom base (29-1) is arranged on immediately below revolution upper bed-plate (29-3), revolution lower bottom base (29-1) is affixed with support bar (27), the lower surface of revolution upper bed-plate (29-3) and the upper surface of revolution lower bottom base (29-1) are along the circumferential direction provided with circular orbit groove, multiple steel ball (29-2) is laid with in circular orbit groove, the side of revolution upper bed-plate (29-3) is provided with turning motor (29-4), the output shaft of turning motor (29-4) is provided with revolution driving gear (29-5), the lateral wall of revolution upper bed-plate (29-3) is along the circumferential direction laid with multiple gear teeth (29-9), the side of revolution upper bed-plate (29-3) is also provided with power transmission shaft (29-8), power transmission shaft (29-8) is connected with revolution driven gear (29-6) and reduction gearing (29-7), revolution driving gear (29-5) is meshed with revolution driven gear (29-6), reduction gearing (29-7) is meshed with the gear teeth (29-9) on the lateral wall of revolution upper bed-plate (29-3),
Described turning motor (29-4) and power transmission shaft (29-8) are arranged on supporting seat (29-10), and supporting seat (29-10) is affixed with revolution lower bottom base (29-1),
Described driving shaft (18) is connected with expansion motor (1) by reductor (28).
CN201520770326.2U 2015-09-30 2015-09-30 Chain expansion solar panel bearing frame with gyration function Withdrawn - After Issue CN205092822U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201520770326.2U CN205092822U (en) 2015-09-30 2015-09-30 Chain expansion solar panel bearing frame with gyration function

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201520770326.2U CN205092822U (en) 2015-09-30 2015-09-30 Chain expansion solar panel bearing frame with gyration function

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Publication Number Publication Date
CN205092822U true CN205092822U (en) 2016-03-16

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CN201520770326.2U Withdrawn - After Issue CN205092822U (en) 2015-09-30 2015-09-30 Chain expansion solar panel bearing frame with gyration function

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105207597A (en) * 2015-09-30 2015-12-30 黑龙江兴安新能源股份有限公司 Chain-unfolded type solar panel bearing frame body with rotary function

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105207597A (en) * 2015-09-30 2015-12-30 黑龙江兴安新能源股份有限公司 Chain-unfolded type solar panel bearing frame body with rotary function

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AV01 Patent right actively abandoned

Granted publication date: 20160316

Effective date of abandoning: 20170322

C25 Abandonment of patent right or utility model to avoid double patenting