CN202068349U - Foldable moving type solar photovoltaic power station - Google Patents
Foldable moving type solar photovoltaic power station Download PDFInfo
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- CN202068349U CN202068349U CN2011201378885U CN201120137888U CN202068349U CN 202068349 U CN202068349 U CN 202068349U CN 2011201378885 U CN2011201378885 U CN 2011201378885U CN 201120137888 U CN201120137888 U CN 201120137888U CN 202068349 U CN202068349 U CN 202068349U
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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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Abstract
The utility model provides a foldable moving type solar photovoltaic power station, which relates to the field of solar power generation and comprises a solar power generation system and a carrying frame, wherein the solar power generation system is arranged on the carrying frame, and the solar power generation system comprises a solar panel pack, a controller and a storage battery. The foldable moving type solar photovoltaic power station is characterized in that the solar panel pack is hinged on the carrying frame, an angle regulator is arranged between the solar panel assembly and the carrying frame, the bottom of the carrying frame is provided with rolling wheels, the solar panel pack comprises a plurality of solar panels, the solar panels are ranged and split into an integral plane, and in addition, the two adjacent solar panels are mutually hinged through hinges.
Description
Technical field
The utility model relates to field of solar thermal power generation, particularly relates to a kind of collapsible mobile solar energy photovoltaic plant.
Background technology
The human conventional fossil energy of using has also caused problems when promoting industrial development and social progress.For example: resource exhaustion, global warming, environmental pollution, geological disaster or the like, thus make the ecology of the earth suffer serious day by day destruction, therefore exploitation and use non-pollution of renewable energy are the key subjects that the mankind face.Along with the approach exhaustion gradually of fossil energy, environmental problem is serious day by day, and regenerative resource fast development is the strategy alternatives energy, and solar energy must become most important electric power energy.
Solar photovoltaic power plant generally is fixed at present, utilizes support or pedestal to be fixedly mounted on roof or ground.The solar photovoltaic power plant that generally will satisfy the household appliances electricity consumption all will be at 2000W(except air conditioner) or 3000W(band air conditioner) above photovoltaic generating system, the installation of this system at first is the construction immobilizing foundation, carries out installation and debugging then.If the roof is installed, consider roof bearing load and strengthening measure.As floor mounted, dig ground pour water mud, stagger angle retort stand then.
Aforesaid traditional solar photovoltaic power plant provides required electric energy though can behave in the specific implementation, but still exists a series of defective on its structure, is specifically described as follows:
At first, when the traditional solar photovoltaic power plant that can bear the household appliances electricity consumption is assembled on the roof, may need to employ hoisting equipment, and the assembling solar battery panel components is also debugged the installation company's installation that also need ask specialty, need the higher reward of cost, and reward generally can account for gross investment 1/3-1/2, improved overall cost of ownership;
Secondly, because four seasons spring, summer, autumn and winter, the solar radiation angle in every morning, noon, afternoon is all constantly changing, sunlight wants vertical irradiation to cell panel, just can give full play to the generating capacity of cell panel, if oblique fire, because of part sunlight is reflected away, will weaken the generating capacity of cell panel, fixed solar photovoltaic power plant is fixed because of the setting angle and the direction of cell panel, can not change direction and angle with moving of the sun, its generating capacity will have very big loss, can not give full play to the generated output of solar panel.
More than be traditional solar photovoltaic power plant existing major technique defective on supporting construction, further improved necessity is arranged.
The utility model content
The utility model provides the product of a kind of and traditional solar photovoltaic power plant same nature, and the utility model provides a kind of collapsible mobile solar energy photovoltaic plant, and its technical problem underlying to be solved is:
At first, solve the problem that traditional fixed solar photovoltaic power plant need support by fixed pedestal, the solar photovoltaic power plant of conventional fixed formula can't move along with user's demand, and the construction of described fixed pedestal and assembling need please specialty installation company build installation, need the high expense of cost, thereby improved its overall cost of ownership;
Secondly, the angle that solves traditional fixed its solar panel of solar photovoltaic power plant can't be regulated, and makes described solar panel can't follow the tracks of the trend of the sun and can not give full play to the problem of its generated output.
It more than is the technical problem underlying that exists on traditional solar photovoltaic power plant to be solved in the utility model.
For solving the problems of the technologies described above, the technical scheme that the utility model adopted is: the utility model provides a kind of collapsible mobile solar energy photovoltaic plant, it comprises solar power system and carrier, described solar power system is arranged on the described carrier, described solar power system comprises solar cell panel assembly, controller and storage battery, it is characterized in that: described solar cell panel assembly is hinged on the described carrier, be provided with an angle regulator between described solar cell panel assembly and the described carrier, regulate the angle of described solar cell panel assembly by described angle regulator, described carrier bottom is provided with roller, make described mobile carrier to carry to adorn described solar power system by described roller and move, the described loading carriage fit angle adjusting device of described roller is equipped with in utilization, can reach the described solar cell panel assembly of omnibearing adjustment towards angle, to guarantee that the sunlight vertical irradiation is on solar panel, further, described solar cell panel assembly comprises plurality of solar battery panels, described plurality of solar battery panels is arranged and is spliced into an integral planar, and be hinged by hinge between two adjacent described solar panels, thereby it is folding to overturn mutually between the described solar panel of the described solar cell panel assembly of feasible formation, rain when meeting with, snow, the user can reach more convenient with the folding gathering of described solar cell panel assembly under the boisterous situation such as strong wind or hail, be easy to move into the folding back that folds of the utility model indoor.
Some described solar panels are transversely arranged, and the quantity of transversely arranged described solar panel is even number, be hinged between two adjacent described solar panels, be positioned at vertically being hinged on the described carrier of two described solar panels of horizontal centre, all be arranged with on two limits up and down of described solar panel and snap in guide groove, the described guide groove that snaps in can be gone into to the unidirectional limit of another adjacent solar panel along the checkpost of described solar panel, described angle regulator is arranged between described carrier and two the described solar panels in the middle of laterally, described solar cell panel assembly of the present utility model in the specific implementation, some described solar panel horizontal spreadings that laterally are hinged at grade, the described guide groove that snaps in is gone into to the limit of another adjacent solar panel along the checkpost of described solar panel, two adjacent described solar panels are fixing at grade, the laterally arrangement of even number, and two described solar panels in the middle of being positioned at vertically are hinged on the described carrier, make the utility model after described solar module opens, can keep gravity balance, by described angle regulator regulate the described solar cell panel assembly of locking towards angle, during gathering, the described guide groove that snaps in that is fastened on the limit of two described solar panels is taken off, remove the positioning relation between two adjacent described solar panels, the described solar panel that will laterally be hinged again is folding to fold to two described solar panels that are positioned at horizontal centre, remove the location of described angle regulator at last to the angle of described solar cell panel assembly, with the described solar cell panel assembly described carrier that reclines, be convenient to the purpose of depositing and transporting thereby reach.
Some described solar panel arrangements become matrix, the horizontal of described matrix is even number, vertically be two rows, and be hinged between laterally adjacent per two described solar panels, a ranking vertically being hinged on the described carrier wherein in two described solar panels of horizontal centre, simultaneously, two described solar panels that vertically are hinged on the described carrier also are hinged with vertical two adjacent described solar panels, be provided with longitudinal folding control device between the described solar panel that vertically is hinged, on vertical two limits of described solar panel and be positioned at all to be arranged with on the limit of the horizontal outer of matrix and snap in guide groove, the described guide groove that snaps in can be gone into to the unidirectional limit of another adjacent solar panel along the checkpost of described solar panel, and described angle regulator is arranged between described carrier and two the described solar panels in the middle of laterally.
Some described solar panel arrangements become matrix, the horizontal of described matrix is even number, vertically be three rows, and be hinged between laterally adjacent per two described solar panels, being positioned at two middle described solar panels of matrix vertically is hinged on the described carrier, simultaneously, two described solar panels that are hinged on the described carrier also are hinged with vertical adjacent described solar panel, be provided with longitudinal folding control device between the described solar panel that vertically is hinged, on vertical two limits of described solar panel and be positioned at all to be arranged with on the limit of the horizontal outer of matrix and snap in guide groove, the described guide groove that snaps in can be gone into to the unidirectional limit of another adjacent solar panel along the checkpost of described solar panel, described angle regulator is arranged between described carrier and two the described solar panels in the middle of laterally, the utility model in the specific implementation, adjust on the same plane by the described solar panel that described longitudinal folding control device will be hinged longitudinally, again at grade with some described solar panel horizontal spreadings that laterally are hinged, the described guide groove that snaps in is gone into to the limit of another adjacent solar panel along the checkpost of described solar panel, two adjacent described solar panels are fixing at grade, by described angle regulator regulate the described solar cell panel assembly of locking towards angle, during gathering, the described guide groove that snaps in that is fastened on the limit of two described solar panels is taken off, remove the positioning relation between two adjacent described solar panels, the described solar panel that will laterally be hinged again is folding to fold to two described solar panels that are positioned at horizontal centre, remove the location of described angle regulator at last to the angle of described solar cell panel assembly, make its described carrier that reclines, handle described longitudinal folding control device again and make the folding described carrier that reclines of vertically adjacent described solar panel hinge longitudinally, be convenient to the purpose of depositing and transporting thereby reach.
Described angle regulator is a connecting rod, axially evenly offer some adjustment holes on the described connecting rod, one end of described connecting rod is hinged on the described solar cell panel assembly, described carrier is provided with bolt, described adjustment hole on the other end of described connecting rod sheathed on the bolt on the described carrier, also be provided with hold-down nut on the described bolt, the utility model in the specific implementation, by lifting or depress described solar cell panel assembly, adjust described solar module towards angle, again corresponding adjustment hole on the described connecting rod is enclosed within on the described bolt, and the nut of screwing on fixes, thus to described solar module towards angle lock.
Described longitudinal folding control device comprises adjusting screw(rod) and adjusting bracket, the operating side of described adjusting screw(rod) is provided with handle, described adjusting bracket comprises first support and second support, described first support and second support are separately fixed on two vertically adjacent described solar panels, be hinged with location bearing and swivel nut respectively on described first support and second support, the end that described handle is set on the described adjusting screw(rod) is plugged in the described location bearing, described adjusting screw(rod) axial lock fixes in the described location bearing, the other end of described adjusting screw(rod) passes described swivel nut, and the threaded engagement in screw thread on the described adjusting screw(rod) and the described swivel nut, the utility model in the specific implementation, drive described adjusting screw(rod) rotation by shaking described handle, thereby described swivel nut drives described second support in the axial motion of the described adjusting screw(rod) in the guiding lower edge of screw thread and promotes described solar panel and rotate around the solar panel that vertically is hinged, and launches mutually or folding purpose thereby reach between the vertically adjacent described solar panel of operation.
Compared with prior art, the beneficial effect that the utility model produced is: the utility model provides a kind of collapsible mobile solar energy photovoltaic plant, compare with the fixed type photovoltaic power station, at first, need not build the basis, so omitted foundation construction and Installation and Debugging expense, gross investment is lower than fixed, and do not install the construction period, can promptly buy promptly and use; Secondly, because of can adjust direction and angle in good time,, investment repayment is shortened greatly so can give full play to the generating capacity of solar module; At last, its volume after folding is little, is convenient to transportation.
Description of drawings
Fig. 1 is a perspective view of the present utility model.
Fig. 2 is first kind of preferred embodiment schematic diagram of the present utility model.
Fig. 3 is first kind of preferred embodiment movement relation schematic diagram of the present utility model.
Fig. 4 is second kind of preferred embodiment schematic diagram of the present utility model.
Fig. 5 is second kind of preferred embodiment movement relation schematic diagram of the present utility model.
Fig. 6 is the third preferred embodiment schematic diagram of the present utility model.
Fig. 7 is the third preferred embodiment movement relation schematic diagram of the present utility model.
Fig. 8 is an angle regulator schematic diagram of the present utility model.
Fig. 9 is a longitudinal folding control device schematic diagram of the present utility model.
Embodiment
Below with reference to accompanying drawing and preferred embodiment a kind of collapsible mobile solar energy photovoltaic plant that the utility model proposed is described in more detail.
As shown in Figure 1, a kind of collapsible mobile solar energy photovoltaic plant, it comprises solar power system and carrier 10, described solar power system is arranged on the described carrier 10.
Described solar power system comprises solar cell panel assembly 20, controller and storage battery, described solar cell panel assembly 20 is the cores in the solar power system, also be to be worth the highest part in the solar power system, its effect is to be electric energy with conversion of solar energy, thereby or promotion loaded work piece, the effect of described controller is the operating state of the whole solar power system of control, described controller adopts liquid crystal display, the user can be by the clear instant generating voltage of understanding solar cell panel assembly of described liquid crystal display, electric current, the output dc voltage of battery tension and via controller and direct current, also can check simultaneously the gross generation on the same day, with the electrical power storage that described solar cell panel assembly 20 is sent, it's time to needs to discharge again by described storage battery.
Wherein, described solar cell panel assembly 20 is hinged on the described carrier 10,
Be provided with an angle regulator 30 between described solar cell panel assembly 20 and the described carrier 10, by the angle of the described solar cell panel assembly 20 of described angle regulator 30 adjustings.
Described carrier 10 bottoms are provided with roller 11, the utility model in the specific implementation, make described mobile carrier 10 to carry to adorn described solar power system by described roller 11 and move, the described loading carriage 10 fit angle accent device 30 of described roller 11 is equipped with in utilization, can reach 20 of described solar cell panel assemblies of omnibearing adjustment towards angle, to guarantee that the sunlight vertical irradiation is on solar panel, further, rain when meeting with, snow, the user can be more convenient under the boisterous situation such as strong wind or hail, be easy to the utility model is moved into indoor.
Described solar cell panel assembly 20 comprises plurality of solar battery panels 21, described plurality of solar battery panels 21 is arranged and is spliced into an integral planar, and be hinged by hinge between two adjacent described solar panels 21, thereby it is folding to overturn mutually between the described solar panel 21 of the described solar cell panel assembly 20 of feasible formation.
As Fig. 2, shown in 3, first kind of preferred embodiment for described battery panel components 20 of the present utility model, wherein, some described solar panel 21 is transversely arranged, and the quantity of transversely arranged described solar panel 21 is even number, be hinged between two adjacent described solar panels 21, be positioned at vertically being hinged on the described carrier 10 of two described solar panels 21 of horizontal centre, all be arranged with on two limits up and down of described solar panel 21 and snap in guide groove 22, the described guide groove 22 that snaps in can be gone into to the unidirectional limit of another adjacent solar panel 21 along the checkpost of described solar panel 21, and described angle regulator 30 is arranged between described carrier 10 and two the described solar panels 21 in the middle of laterally.
Described solar cell panel assembly 20 of the present utility model in the specific implementation, some described solar panel 21 horizontal spreadings that laterally are hinged at grade, the described guide groove 22 that snaps in is gone into to the limit of another adjacent solar panel 21 along the checkpost of described solar panel 21, two adjacent described solar panels 21 are fixed at grade, the laterally arrangement of even number, and two described solar panels 21 in the middle of being positioned at vertically are hinged on the described carrier 10, make the utility model after described solar module 20 opens, can keep gravity balance, by described angle regulator 30 regulate 20 of described solar cell panel assemblies of locking towards angle, during gathering, the described guide groove 22 that snaps in that is fastened on the limit of two described solar panels 21 is taken off, remove the positioning relation between two adjacent described solar panels 21, described solar panel 21 folding the folding to two that are positioned at horizontal centre described solar panels 21 that will laterally be hinged again, remove the location of the angle of 30 pairs of described solar cell panel assemblies 20 of described angle regulator at last, with the described solar cell panel assembly 20 described carrier 10 that reclines, be convenient to the purpose of depositing and transporting thereby reach.
As Fig. 4, shown in 5, second kind of preferred embodiment of the described battery panel components 20 that the utility model provides, wherein, some described solar panels 21 are arranged in matrix, the horizontal of described matrix is even number, vertically be two rows, and be hinged between laterally adjacent per two described solar panels 21, a ranking vertically being hinged on the described carrier 10 wherein in two described solar panels 21 of horizontal centre, simultaneously, two described solar panels 21 that vertically are hinged on the described carrier 10 also are hinged with vertical two adjacent described solar panels 21, be provided with longitudinal folding control device 40 between the described solar panel 21 that vertically is hinged, on vertical two limits of described solar panel 21 and be positioned at all to be arranged with on the limit of the horizontal outer of matrix and snap in guide groove 22, the described guide groove 22 that snaps in can be gone into to the unidirectional limit of another adjacent solar panel 21 along the checkpost of described solar panel 21, and described angle regulator 30 is arranged between described carrier 10 and two the described solar panels 21 in the middle of laterally.
As Fig. 6, shown in 7, the utility model provides the third preferred embodiment of described battery panel components 20, wherein, some described solar panels 21 are arranged in matrix, the horizontal of described matrix is even number, vertically be three rows, and be hinged between laterally adjacent per two described solar panels 21, being positioned at two middle described solar panels 21 of matrix vertically is hinged on the described carrier 10, simultaneously, two described solar panels 21 that are hinged on the described carrier 10 also are hinged with vertical adjacent described solar panel 21, be provided with longitudinal folding control device 40 between the described solar panel 21 that vertically is hinged, on vertical two limits of described solar panel 21 and be positioned at all to be arranged with on the limit of the horizontal outer of matrix and snap in guide groove 22, the described guide groove 22 that snaps in can be gone into to the unidirectional limit of another adjacent solar panel 21 along the checkpost of described solar panel 21, and described angle regulator 30 is arranged between described carrier 10 and two the described solar panels 21 in the middle of laterally.
The utility model in the specific implementation, adjust on the same plane by the described solar panel 21 that described longitudinal folding control device 40 will be hinged longitudinally, again at grade with some described solar panel 21 horizontal spreadings that laterally are hinged, the described guide groove 22 that snaps in is gone into to the limit of another adjacent solar panel 21 along the checkpost of described solar panel 21, two adjacent described solar panels 21 are fixed at grade, by described angle regulator 30 regulate 20 of described solar cell panel assemblies of locking towards angle, during gathering, the described guide groove 22 that snaps in that is fastened on the limit of two described solar panels 21 is taken off, remove the positioning relation between two adjacent described solar panels 21, described solar panel 21 folding the folding to two that are positioned at horizontal centre described solar panels 21 that will laterally be hinged again, remove the location of the angle of 30 pairs of described solar cell panel assemblies 20 of described angle regulator at last, make its described carrier 10 that reclines, handle described longitudinal folding control device 40 again and make the folding described carrier 10 that reclines of vertically adjacent described solar panel hinge longitudinally, be convenient to the purpose of depositing and transporting thereby reach.
As shown in Figure 8, described angle regulator 30 is a connecting rod, axially evenly offer some adjustment holes 31 on the described connecting rod, one end of described connecting rod is hinged on the described solar cell panel assembly 20, described carrier 10 is provided with bolt, described adjustment hole on the other end of described connecting rod sheathed on the bolt on the described carrier 10, also be provided with hold-down nut on the described bolt.
The utility model in the specific implementation, by lifting or depress described solar cell panel assembly 20, adjust 20 of described solar modules towards angle, again corresponding adjustment hole on the described connecting rod is enclosed within on the described bolt, and the nut of screwing on fixes, thus to 20 of described solar modules towards angle lock.
As shown in Figure 9, described longitudinal folding control device 40 comprises adjusting screw(rod) 41 and adjusting bracket, the operating side of described adjusting screw(rod) 41 is provided with handle 411, described adjusting bracket comprises first support 42 and second support 43, described first support 42 and second support 43 are separately fixed on two vertically adjacent described solar panels 21, be hinged with location bearing 421 and swivel nut 431 respectively on described first support 42 and second support 43, the end that described handle 411 is set on the described adjusting screw(rod) 41 is plugged in the described location bearing 421, described adjusting screw(rod) 41 axial lock fix in the described location bearing 421, the other end of described adjusting screw(rod) 41 passes described swivel nut 431, and the threaded engagement in screw thread on the described adjusting screw(rod) 41 and the described swivel nut 431.
The utility model in the specific implementation, drive described adjusting screw(rod) 41 rotations by shaking described handle 411, thereby described swivel nut 431 drives the described solar panel 21 of described second support, 43 promotions around solar panel 21 rotations that vertically are hinged in the axial motion of the described adjusting screw(rod) 41 in the guiding lower edge of screw thread, thereby reaches the mutual purpose of launching or folding between the vertically adjacent described solar panel 21 of operation.
Comprehensive the above, the technical solution of the utility model can fully effectively be finished above-mentioned utility model purpose, and the structural principle of the present utility model and the principle of work and power are all verified in an embodiment fully, and can reach the effect and the purpose of expection, and embodiment of the present utility model also can carry out conversion according to these principles, therefore, the utility model comprise that all mention in the scope in claim all replace contents.Any equivalence of being done in the utility model claim changes, and all belongs within the claim of this case application.
Claims (6)
1. collapsible mobile solar energy photovoltaic plant, it comprises solar power system and carrier, described solar power system is arranged on the described carrier, described solar power system comprises solar cell panel assembly, controller and storage battery, it is characterized in that: described solar cell panel assembly is hinged on the described carrier, be provided with an angle regulator between described solar cell panel assembly and the described carrier, described carrier bottom is provided with roller, described solar cell panel assembly comprises plurality of solar battery panels, described plurality of solar battery panels is arranged and is spliced into an integral planar, and is hinged by hinge between two adjacent described solar panels.
2. a kind of collapsible mobile solar energy photovoltaic plant as claimed in claim 1, it is characterized in that: some described solar panels are transversely arranged, and the quantity of transversely arranged described solar panel is even number, be hinged between two adjacent described solar panels, be positioned at vertically being hinged on the described carrier of two described solar panels of horizontal centre, all be arranged with on two limits up and down of described solar panel and snap in guide groove, the described guide groove that snaps in can be gone into to the unidirectional limit of another adjacent solar panel along the checkpost of described solar panel, and described angle regulator is arranged between described carrier and two the described solar panels in the middle of laterally.
3. a kind of collapsible mobile solar energy photovoltaic plant as claimed in claim 1, it is characterized in that: some described solar panel arrangements become matrix, the horizontal of described matrix is even number, vertically be two rows, and be hinged between laterally adjacent per two described solar panels, a ranking vertically being hinged on the described carrier wherein in two described solar panels of horizontal centre, simultaneously, two described solar panels that vertically are hinged on the described carrier also are hinged with vertical two adjacent described solar panels, be provided with longitudinal folding control device between the described solar panel that vertically is hinged, on vertical two limits of described solar panel and be positioned at all to be arranged with on the limit of the horizontal outer of matrix and snap in guide groove, the described guide groove that snaps in can be gone into to the unidirectional limit of another adjacent solar panel along the checkpost of described solar panel, and described angle regulator is arranged between described carrier and two the described solar panels in the middle of laterally.
4. a kind of collapsible mobile solar energy photovoltaic plant as claimed in claim 1, it is characterized in that: some described solar panel arrangements become matrix, the horizontal of described matrix is even number, vertically be three rows, and be hinged between laterally adjacent per two described solar panels, being positioned at two middle described solar panels of matrix vertically is hinged on the described carrier, simultaneously, two described solar panels that are hinged on the described carrier also are hinged with vertical adjacent described solar panel, be provided with longitudinal folding control device between the described solar panel that vertically is hinged, on vertical two limits of described solar panel and be positioned at all to be arranged with on the limit of the horizontal outer of matrix and snap in guide groove, the described guide groove that snaps in can be gone into to the unidirectional limit of another adjacent solar panel along the checkpost of described solar panel, and described angle regulator is arranged between described carrier and two the described solar panels in the middle of laterally.
5. as the described a kind of collapsible mobile solar energy photovoltaic plant of any claim in the claim 1 or 2,3,4, it is characterized in that: described angle regulator is a connecting rod, axially evenly offer some adjustment holes on the described connecting rod, one end of described connecting rod is hinged on the described solar cell panel assembly, described carrier is provided with bolt, described adjustment hole on the other end of described connecting rod sheathed on the bolt on the described carrier, also be provided with hold-down nut on the described bolt.
6. as claim 3 or 4 described a kind of collapsible mobile solar energy photovoltaic plants, it is characterized in that: described longitudinal folding control device comprises adjusting screw(rod) and adjusting bracket, the operating side of described adjusting screw(rod) is provided with handle, described adjusting bracket comprises first support and second support, described first support and second support are separately fixed on two vertically adjacent described solar panels, be hinged with location bearing and swivel nut respectively on described first support and second support, the end that described handle is set on the described adjusting screw(rod) is plugged in the described location bearing, described adjusting screw(rod) axial lock fixes in the described location bearing, the other end of described adjusting screw(rod) passes described swivel nut, and the threaded engagement in screw thread on the described adjusting screw(rod) and the described swivel nut.
Priority Applications (1)
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CN2011201378885U CN202068349U (en) | 2011-05-04 | 2011-05-04 | Foldable moving type solar photovoltaic power station |
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CN2011201378885U CN202068349U (en) | 2011-05-04 | 2011-05-04 | Foldable moving type solar photovoltaic power station |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103245417A (en) * | 2013-04-02 | 2013-08-14 | 佛山市三水新明珠建陶工业有限公司 | Arranging and color matching board for exterior wall tile |
CN103715976A (en) * | 2012-09-29 | 2014-04-09 | 天津市润彤磬科技发展有限公司 | Multifunctional solar device |
CN105577088A (en) * | 2016-03-18 | 2016-05-11 | 徐志秀 | Flat single shaft transport folding photovoltaic bracket structure |
CN106788201A (en) * | 2016-12-02 | 2017-05-31 | 山东海德阳光太阳能有限公司 | A kind of foldable photovoltaic system |
-
2011
- 2011-05-04 CN CN2011201378885U patent/CN202068349U/en not_active Expired - Fee Related
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103715976A (en) * | 2012-09-29 | 2014-04-09 | 天津市润彤磬科技发展有限公司 | Multifunctional solar device |
CN103715976B (en) * | 2012-09-29 | 2016-01-20 | 天津市润彤磬科技发展有限公司 | A kind of multifunction solar energy device |
CN103245417A (en) * | 2013-04-02 | 2013-08-14 | 佛山市三水新明珠建陶工业有限公司 | Arranging and color matching board for exterior wall tile |
CN103245417B (en) * | 2013-04-02 | 2015-01-07 | 佛山市三水新明珠建陶工业有限公司 | Arranging and color matching board for exterior wall tile |
CN105577088A (en) * | 2016-03-18 | 2016-05-11 | 徐志秀 | Flat single shaft transport folding photovoltaic bracket structure |
CN106788201A (en) * | 2016-12-02 | 2017-05-31 | 山东海德阳光太阳能有限公司 | A kind of foldable photovoltaic system |
CN106788201B (en) * | 2016-12-02 | 2018-05-22 | 天津开合电力科技有限公司 | A kind of foldable photovoltaic system |
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