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WO2013168867A1 - Dispositif portable de production d'énergie solaire - Google Patents

Dispositif portable de production d'énergie solaire Download PDF

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Publication number
WO2013168867A1
WO2013168867A1 PCT/KR2012/010044 KR2012010044W WO2013168867A1 WO 2013168867 A1 WO2013168867 A1 WO 2013168867A1 KR 2012010044 W KR2012010044 W KR 2012010044W WO 2013168867 A1 WO2013168867 A1 WO 2013168867A1
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WO
WIPO (PCT)
Prior art keywords
solar panel
link
solar
accommodating part
housing
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Ceased
Application number
PCT/KR2012/010044
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English (en)
Korean (ko)
Inventor
주진성
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Individual
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Individual
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Filing date
Publication date
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Publication of WO2013168867A1 publication Critical patent/WO2013168867A1/fr
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

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    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02SGENERATION OF ELECTRIC POWER BY CONVERSION OF INFRARED RADIATION, VISIBLE LIGHT OR ULTRAVIOLET LIGHT, e.g. USING PHOTOVOLTAIC [PV] MODULES
    • H02S20/00Supporting structures for PV modules
    • H02S20/30Supporting structures being movable or adjustable, e.g. for angle adjustment
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02SGENERATION OF ELECTRIC POWER BY CONVERSION OF INFRARED RADIATION, VISIBLE LIGHT OR ULTRAVIOLET LIGHT, e.g. USING PHOTOVOLTAIC [PV] MODULES
    • H02S30/00Structural details of PV modules other than those related to light conversion
    • H02S30/20Collapsible or foldable PV modules
    • 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

Definitions

  • the present invention does not need to obliquely incline the solar cell unit by using a separate holder, etc., and also more easily reduces the possibility that the upper housing of the housing is easily rotated and closed by the external force including wind, etc.
  • the solar cell unit may be inclined diagonally to collect more solar light or to collect heat, and further, including a camping place.
  • the solar cell unit may not only move the storage unit accommodated therein more easily, but also easily operate home appliances including TVs through electricity generated by the solar cell unit outdoors, including a camping place.
  • the present invention relates to a portable solar power plant.
  • solar cells are devices that convert the light energy of the sun into electricity.
  • Si silicon is mainly used as a material of a solar cell, and it has a diode structure which has a PN junction.
  • the present invention was created in order to solve the above-mentioned problems, and it is not necessary to obliquely incline the solar cell unit by using a separate holder or the like, and the upper housing part of the housing part may be oriented by the external force including wind or the like.
  • the solar cell part is inclined diagonally to collect more solar light or collect heat.
  • the solar cell unit can be moved to the outdoor unit including the camping place and the like more easily, and the TV is generated through the electricity generated by the solar cell unit in the outdoor including the camping place. Hue that makes it easier to operate home appliances, including To provide a solar power generation equipment for that purpose.
  • the present invention for achieving the above object is an upper number of the lower housing portion, the upper side to move up and down in the other direction of the lower housing portion relative to the other side in the state that the other side is fixed to one side of the lower housing portion
  • the solar cell part when the upper accommodating part of the accommodating part accommodating the solar cell part is unfolded from the lower accommodating part, the solar cell part may be inclined at a predetermined angle toward the sun to collect solar light or solar heat to generate electricity. Therefore, there is no need to incline the solar cell unit using a separate cradle, etc.,
  • the length of the solar cell portion is extended to the state in which the upper accommodating part is separated from the lower accommodating part and is inclined at an obtuse angle with the lower accommodating part.
  • the solar cell unit is inclined diagonally to collect more solar light while preventing the possibility that the upper housing part is closed by being easily moved by the external force, such as wind, in the direction of the lower housing part.
  • the outdoor unit including the camping place and the like can easily move the storage unit housed therein, but also home appliances including a TV and the like through the electricity generated by the solar cell unit outdoors including the camping place and the like.
  • the effect is that the device can be operated more easily.
  • FIG. 1 is a side view schematically showing a portable solar power generator according to the first embodiment of the present invention
  • FIG. 2 is a side view schematically illustrating a process in which the upper housing part of FIG. 1 is closed by rotating in the direction of the lower housing part of FIG. 1.
  • FIG. 3 is a side view schematically showing a portable solar power generator according to a second embodiment of the present invention
  • FIG. 4 is a side view schematically illustrating a process in which the upper housing part of FIG. 3 is closed by rotating in the direction of the lower housing part of FIG. 3.
  • 5 and 6 are side views schematically showing the elastic member
  • FIG. 9 is a side view schematically showing a state in which the wheel unit is drawn out of the housing unit
  • FIG. 10 is a side view schematically showing a state in which the upper and lower widths of the lower housing part are larger than the upper and lower widths of the upper housing part;
  • FIG. 11 is a plan view schematically showing the shock absorbing portion
  • FIG. 13 is a cross-sectional view taken along the line AA of FIG. 12,
  • 15 is a plan view schematically showing another example of the spread holding member
  • 16 is a plan view schematically showing another example of the spread holding member
  • 17 is a cross-sectional view taken along the line BB of FIG. 16,
  • 19 is a plan view schematically showing another example of the spread holding member
  • 20 and 21 are side views schematically showing another example of the spread holding member
  • FIG. 22 is a cross-sectional view taken along the line CC of FIG. 20,
  • 25 is a cross-sectional view taken along the line D-D of FIG.
  • 26 and 27 are side views schematically showing still another example of the spreading holding member
  • FIG. 28 is a cross-sectional view taken along the line E-E of FIG. 26,
  • 29 and 30 are side views schematically showing still another example of the spreading holding member
  • FIG. 31 is a cross-sectional view taken along the line FF of FIG. 29,
  • 32 is a block diagram schematically illustrating a battery and an inverter.
  • FIG. 1 is a side view schematically showing a portable solar power generator according to a first embodiment of the present invention
  • FIG. 2 is closed by rotating the upper accommodating part 120 of FIG. 1 toward the lower accommodating part 110 of FIG. It is a side view schematically showing a process.
  • the portable solar power generator according to the first embodiment of the present invention includes a storage unit 10 and a solar cell unit 20 as shown in FIGS. 1 and 2.
  • the accommodating part 110 may include a lower accommodating part 110 and an upper accommodating part 120.
  • One side of the upper accommodating part 120 is based on the other side of the upper accommodating part 120 while the other side of the upper accommodating part 120 is fixed to one side of the lower accommodating part 110. As can be seen, the user can move up and down in the other direction of the lower accommodating part 110.
  • one side of the upper accommodating part 120 moves up and down in the other direction of the lower accommodating part 110 such that the upper accommodating part 120 is in contact with the lower accommodating part 110. To keep it closed
  • the locking member is composed of a male locking member provided on one side of the upper housing 120, and a female locking member provided on the other side of the lower housing 110 and detachably coupled to the male locking member. It may be further provided.
  • the solar cell unit 20 may collect electricity or collect solar heat to generate electricity.
  • the solar cell unit 20 may be formed in a flexible sheet form.
  • One end portion of the solar cell unit 20 having a flexible sheet form may be fixed in various ways such as bonding and fixing to an upper portion of the upper accommodating unit 120.
  • the other end of the solar cell unit 20 in the form of a flexible sheet may be fixed in various ways, such as bond adhesive fixing on the other side of the lower housing 110.
  • the flexible sheet-like solar cell unit 20 is large, the lower film having a solar cell on the upper surface at regular intervals;
  • the upper film is fused in a vacuum state by a heat fusion machine on the upper side of the lower film in contact with the solar cell; wherein the lower film and the upper film may be made of a transparent EVA (Ethylene Vinyl Acetate) material, etc.
  • EVA Ethylene Vinyl Acetate
  • the solar cell unit 20 having a flexible sheet form has the lower accommodating part 110 and the upper accommodating part when the upper accommodating part 120 is closed in contact with the lower accommodating part 110. It may be stored in a folded state in half in the storage space (s of FIG. 7) formed in the housing 10 made of 120.
  • FIG. 3 is a side view schematically illustrating a portable solar power generator according to a second embodiment of the present invention
  • FIG. 4 is closed by rotating the upper accommodating part 120 of FIG. 3 toward the lower accommodating part 110 of FIG. It is a side view schematically showing a process.
  • the portable solar power generator according to the second embodiment of the present invention includes the accommodating part 10 and the solar cell part 20 as shown in FIGS. 3 and 4 as in the first embodiment.
  • the solar cell unit 20 may be made of a collapsible form.
  • the solar cell unit 20 having a collapsible form has the lower accommodating part 110 and the upper accommodating part 120 when the upper accommodating part 120 is closed in contact with the lower accommodating part 110. It can be stored in a folded state in half in the storage space (s) formed in the interior of the receiving portion (10) consisting of.
  • the solar cell unit 20 is more easily prevented from being closed by the upper housing 120 being moved up and down in the direction of the lower housing 110 too easily by an external force including wind. ) Inclined obliquely to collect more solar light or to collect solar heat,
  • One side of the upper accommodating part 120 is moved up and down by the user in the upper direction of the other side of the lower accommodating part 110 so that the upper accommodating part 120 is shown in FIGS. 1 and 2.
  • the (110) state When unfolded from the (110) state,
  • the other side of the upper accommodating part 120 and one side of the lower accommodating part 110 form an obtuse angle ( ⁇ in FIGS. 1 and 2) and the upper accommodating part 120 is inclined in an oblique manner. It should be made of a length that can maintain.
  • the distance from one side of the solar cell unit 20 to the other side (l in FIG. 1). 3 ) Is the distance from one side to the other side of the upper housing 120 (l in FIG. 1) One ) And the distance from one side to the other side of the lower housing 110 (l in FIG. 1). 2 ) Can be less than the sum of (l) 3 ⁇ L One + l 2 )
  • the solar cell unit 20 of the second embodiment may be formed of one solar panel 210 and the other solar panel 220 as shown in FIGS. 3 and 4.
  • One end of the one side solar panel 210 may be axially fixed on one side of the upper receiving portion 120.
  • An upper end of one end of the other solar panel 220 may be axially fixed to an upper end of the other end of the one solar panel 210.
  • the other end of the other solar cell panel 220 may be axially fixed on the other side of the lower housing 110.
  • a space G may be formed between the other end of the one side solar panel 210 and one end of the other side solar panel 220 so that external air can pass therethrough.
  • the heat dissipation efficiency of the solar cell unit 20 including the one solar panel 210 and the other solar panel 220 may be further improved.
  • 5 and 6 are side views schematically showing the elastic member 80.
  • the elastic member 80 including a spring or the like is provided on the lower surface of the solar cell unit 20 so that the solar cell unit 20 can be unfolded more smoothly in a horizontal state. ) May be provided.
  • one end of the elastic member 80 may be integrally connected and fixed to one side of the lower surface of the solar cell unit 20 in the form of a flexible sheet.
  • the other end of the elastic member 80 may be integrally connected and fixed to the other side of the lower surface of the solar cell unit 20 in the form of a flexible sheet.
  • one end of the elastic member 80 may be integrally connected and fixed to the lower surface of the one side solar panel 210.
  • the other end of the elastic member 80 may be integrally connected and fixed to the lower surface of the other solar panel 220.
  • the elastic member 80 When the solar cell unit 20 is folded in half, the elastic member 80 is expanded, and when the solar cell unit 20 in half folded state is fully expanded in a horizontal state, the elastic member 80 is expanded. Due to the shrinking force of the solar cell unit 20 can be unfolded in a horizontal state more smoothly in a horizontal state.
  • FIG. 7 is a cross-sectional view schematically illustrating the wheel part 70
  • FIG. 8 is a plan view of FIG. 7
  • FIG. 9 is a side view schematically showing a state in which the wheel part 70 is drawn out of the housing part 10. .
  • wheels capable of drawing out from the inside of the accommodating part 10 to the outside of the accommodating part 10 and retracting into the accommodating part 10 from the outside of the accommodating part 10.
  • the unit 70 may be provided.
  • a lower through hole 110a is disposed at a front and rear direction of the lower accommodating part 110 at a front side of one side of the lower accommodating part 110 and a rear side of one side of the lower accommodating part 110. It can be formed as.
  • An upper through hole 120a may be formed at a predetermined interval in the front-rear direction of the upper accommodating part 120 at the front side of the other side of the upper accommodating part 120 and the rear side of the other accommodating part 120.
  • the wheel part 70 may include a lower wheel part 710 provided in the lower accommodating part 110 and an upper wheel part 720 provided in the upper accommodating part 120.
  • the lower wheel part 710 may be composed of a lower support shaft 711 and a lower wheel member 712.
  • the lower support shaft 711 may be provided at one side of the lower accommodating part 110 at a predetermined interval in the front-rear direction of the lower accommodating part 110.
  • a lower side of the lower support shaft 711 may be integrally connected to one side inner circumferential surface of the lower accommodating part 110 to be positioned in an upper direction of the lower through hole 110a.
  • the lower support shaft 711 may be curved in a direction toward the other inner circumferential surface of the upper accommodating part 120 on one side inner circumferential surface of the lower accommodating part 110, and an upper side of the lower support shaft 711 is on the upper through hole. It may penetrate the upper accommodating part 120 through 120a.
  • the lower wheel member 712 may be axially coupled to an upper side of the lower support shaft 711.
  • the lower wheel member 712 is drawn out to the outside of the accommodating part 10 when the upper accommodating part 120 and the lower accommodating part 110 are closed in contact with each other. You can make a cloud movement while in contact.
  • the lower wheel part 710 may be introduced into the accommodating part 10.
  • the upper wheel part 720 may be composed of an upper support shaft 721 and an upper wheel member 722.
  • the upper support shaft 721 may be provided on the other side of the upper accommodating part 120 at predetermined intervals in the front-rear direction of the upper accommodating part 120.
  • the upper side of the upper support shaft 721 may be integrally connected to the other inner peripheral surface of the upper housing portion 120 to be located in the upper direction of the upper through hole (120a).
  • the upper support shaft 721 may be curved in the direction of one side inner circumferential surface of the lower housing 110 in the other inner peripheral surface of the upper housing 120, the lower side of the upper support shaft 721 is the lower through hole It may penetrate the lower accommodating part 110 through 110a.
  • the upper wheel member 722 may be axially coupled to the lower side of the upper support shaft 721.
  • the upper wheel member 722 is drawn out to the outside of the accommodating part 10 when the upper accommodating part 120 and the lower accommodating part 110 are closed in contact with each other. You can make a cloud movement while in contact.
  • the upper wheel part 720 may be drawn into the accommodating part 10.
  • FIG. 10 is a side view schematically illustrating a state in which the upper and lower widths W 1 of the lower accommodating part 110 are larger than the upper and lower widths W 2 of the upper accommodating part 120.
  • the upper accommodating part 120 is separated from the lower accommodating part 110 to maintain a more stable unfolded state
  • the upper and lower widths W 1 of the lower accommodating part 110 may be larger than the upper and lower widths W 2 of the upper accommodating part 120.
  • FIG. 11 is a plan view schematically illustrating the shock absorbing unit 90.
  • Shock absorbing unit 90 for absorbing may be provided.
  • the shock absorbing unit 90 may be made of various materials such as rubber.
  • the shock absorbing unit 90 includes one side shock absorbing pad 910 provided on an upper surface of one side solar panel 210 of the solar cell unit 20;
  • the other side shock absorbing pad 920 is provided on the upper surface of the other solar panel 220 of the solar cell unit 20 in contact with the one side shock absorbing pad 910;
  • the one side shock absorbing pad 910 may be provided at each corner of the upper surface of the one side solar panel 210.
  • the one side shock absorbing pad 910 is one middle portion of the upper surface of the one side solar panel 210, the other middle portion of the upper surface of the one side solar panel 210, the one side of the solar panel 210 It may be provided in the middle portion of the upper side front side and the rear side middle portion of the upper side of the solar panel 210, respectively.
  • the other side shock absorbing pad 920 may be provided at each corner of the upper surface of the other side solar panel 220.
  • the other side shock absorbing pad 920 is one middle portion of the upper surface of the other solar panel 220, the other middle portion of the upper surface of the other solar panel 220, the other side of the solar panel 220 It may be provided in the middle portion of the front side of the upper surface and the rear side of the upper side of the other solar panel 220, respectively.
  • FIG. 12 is a cross-sectional view schematically showing an example of the spread holding member 30, and FIG. 13 is a cross-sectional view taken along the line AA of FIG.
  • the spreading holding member 30 is provided to maintain the unfolded state of the upper accommodating unit 120 at an obtuse angle ⁇ . Can be.
  • one side of the front inner circumferential surface of the lower accommodating part 110 and one side of the rear inner circumferential surface of the lower accommodating part 110 are moved back and forth in a predetermined depth to the outer direction of the lower accommodating part 110.
  • Two plurality of lower insertion grooves 111 recessed in the direction may be formed at predetermined intervals, respectively.
  • one upper insertion groove recessed in the front-rear direction at a predetermined depth in the outer direction of the upper accommodating part 120 on the other side of the front inner circumferential surface of the upper accommodating part 120 and the other side of the rear inner circumferential surface of the upper accommodating part 120. 121 may be formed respectively.
  • the spreading holding member 30 may be symmetrically provided with each other on the front inner circumferential surface of the housing 10 and the rear inner circumferential surface of the housing 10.
  • the spreading holding member 30 may include one inserting unit 301, the other inserting unit 302, and a connecting unit 303.
  • the one side insertion table 301 may be extended back and forth in a predetermined length in the rearward direction of the accommodation portion 10 from the front side of the housing portion 10 can be detachably inserted by the user in the upper insertion groove 121. have.
  • the other insertion stand 302 may be extended back and forth with a predetermined length in a rearward direction of the accommodating part 10 at the front side of the accommodating part 10 and may be inserted into any one of the plurality of lower inserting grooves 111. .
  • the connecting table 303 may be extended from the side of the accommodating part 10 to the other side of the accommodating part 10 by a predetermined length.
  • the connecting table 303 may be integrally formed between the front side of the one side insertion stand 301 and the front side of the other side insertion stand 302 or between the rear side of the one side insertion stand 301 and the rear side of the other side insertion stand 302. Is integrally formed in the one side insert 301 and the other insert 302 may be connected to each other.
  • the user separates the spreading holding member 30, which includes the one side insertion table 301, the other side insertion table 302, and the connection table 303 from the accommodating part 10, and then the one side insertion table 301. Can be inserted into any one of the plurality of lower insertion grooves 111, and the other insertion table 302 can be inserted into the other lower insertion groove 111.
  • FIG. 14 is a plan view schematically showing another example of the spreading holding member 30.
  • the upper accommodating unit 120 maintains the unfolded angle ⁇ .
  • the spreading holding member 30 may be provided to make it possible.
  • the spreading holding member 30 may be formed to include a pin member 310 and a rotating plate 320 as shown in FIG. 14.
  • the pin member 310 protrudes a predetermined length from the other front surface of the one solar panel 210 to the outside of the other front surface of the other solar panel 210 so as to be orthogonal to the one solar panel 210. Can be.
  • the pin member 310 is fixed to the outside of the other side rear surface of the one side solar panel 210 from the other side rear surface of the one side solar panel 210 so as to be orthogonal to the one side solar panel 210.
  • the length may protrude.
  • the other side of the rotating plate 320 may be axially fixed to one front surface of the other solar panel 220 and one rear surface of the other solar panel 220, respectively.
  • An insertion hole 321 may be formed at one side of the rotating plate 320.
  • the pin member 310 is inserted into the insertion hole 321 of the rotating plate 320 when one side of the rotating plate 320 moves left and right in the direction of the one solar panel 210 based on the other side of the rotating plate 320. ) Can be inserted.
  • 15 is a plan view schematically showing still another example of the spreading holding member 30.
  • the spread holding member 30 may include a left and right moving plate 330 and the handle shaft 340 as shown in FIG.
  • the one side solar panel is connected at one side of the one solar panel 210 to communicate with the outside of the one solar panel 210 inside the other front side of the solar panel 210.
  • One side guide groove 214 extending to the left and right in a predetermined length in the other direction of 210 may be formed.
  • One side guide slit 215 may be formed to extend left and right by a predetermined length in the other direction of the (210).
  • the inside of one side of the front side of the other solar panel 220 is constant in the other direction of the other side of the solar panel 220 from one side of the other solar panel 220 to communicate with the outside of the other solar panel 220.
  • the other side guide groove 224 may be formed to extend left and right in length.
  • the left and right moving plates 330 are moved left and right into the other guide groove 224 of the other solar panel 220 in one guide groove 214 of the solar panel 210 on the other side of the solar panel ( It may be inserted into the other guide groove 224 of 220.
  • the handle shaft 340 is extended back and forth with a predetermined length in the direction of the one side guide slit 215 on one side surface of the left and right moving plate 330 may be accommodated in the one side guide slit 215.
  • the user may manually move the left and right moving plate 330 manually and easily through the handle shaft 340.
  • FIG. 16 is a plan view schematically showing another example of the spread holding member 30, and FIG. 17 is a cross-sectional view taken along the line BB of FIG.
  • the spread holding member 30 may include one side protrusion 350, the other side protrusion 360, and a cover 361.
  • the one side projection 350 is the front of the other side of the one side solar panel 210 and the other side of the front side of the one side solar panel 210 and the other side of the rear side of the solar panel 210, respectively.
  • the rear surface of the panel 210 may protrude to a predetermined length in the front-rear direction toward the other outer direction.
  • the other side projection 360 is one side of the front side of the other solar panel 220 and one side of the rear side of the other solar panel 220, the outer side of the front side of the other solar panel 220 and the other side of the solar cell, respectively.
  • the rear surface of the panel 220 may protrude to a predetermined length in the front-rear direction toward the outside.
  • the cover 361 may be made of various materials such as a metallic material having elastic force or a synthetic resin material including plastic having elastic force.
  • the cover 361 is moved between the one side solar panel 210 and the other side solar panel 220 in the direction of the user by the user located in the state between the one side projection 350 and the other side projection (360)
  • the other side of one solar panel 210 and one side of the other solar panel 220 may be wrapped.
  • the cover 361 may include an upper plate 361a, a lower plate 361b, a front plate 361c, and a rear plate 361d.
  • the upper plate 361a may be extended back and forth with a predetermined length in the rear side of the solar cell unit 20 at the front side of the solar cell unit 20.
  • the lower plate 361b may be positioned in a lower direction of the upper plate 361a, and may be extended back and forth with a predetermined length in the rear side of the solar cell unit 20 from the front side of the solar cell unit 20. .
  • the front plate 361c may be integrally formed vertically between the front side of the upper plate 361a and the front side of the lower plate 361b.
  • the rear plate 361d may be integrally formed vertically between the rear side of the upper plate 361a and the rear side of the lower plate 361b.
  • the spread holding member 30 may include a rotation bar 362.
  • the rotation bar 362 may be provided on a lower surface of the one side solar panel 210 in a state parallel to the one side solar panel 210 and the other side solar panel 220.
  • the other side of the rotating bar 362 is horizontally moved toward the center of the lower surface of the other solar panel 220 in a state in contact with the lower surface of the one solar panel 210 by the user to the other solar panel It may be in contact with the central portion of the lower surface of 220.
  • 19 is a plan view schematically showing still another example of the spreading holding member 30.
  • the other side of the front side of the one side solar panel 210 and the other side of the back side of the one side solar panel 210 are respectively in a predetermined depth in the front and rear directions inside the one side solar panel 210.
  • Two plurality of one-sided insertion grooves 211 to be recessed may be formed at regular intervals.
  • One other insertion groove which is recessed to a predetermined depth in the front-rear direction of the other side of the solar panel 220 to the inside of the other side of the solar panel 220 on one side of the front side and the rear side of the other solar panel 220 ( 221 may be formed.
  • the spreading holding member 30 may include one side inserting plate 304, the other inserting table 305, and a connecting table 306.
  • the spreading holding member 30 may include a front side of the one side solar panel 210 and a front side of the other side solar panel 220 and a rear side of the one side solar panel 210 and the other side of the solar panel 220.
  • the rear side may be provided in a symmetrical state with each other.
  • the one side insert 304 is extended back and forth in a predetermined length in the rear direction of the other solar panel 220 from the front side of the one side solar panel 210 in any one of the plurality of one side insertion groove 211. Can be detachably inserted by the user.
  • the other insert 305 is extended from the front side of the other solar panel 220 to the rear side of the other solar panel 220 by a predetermined length and separated by the user in the other insertion groove 221. Can be inserted.
  • the connecting rod 306 may be extended left and right in a direction from the one side solar panel 210 toward the other side solar panel 220.
  • the connecting table 306 is integrally formed between the front side of the one side insert 304 and the front side of the other insert 305 or between the rear side of the one side insert 304 and the rear side of the other insert 305. Is integrally formed in the one side insert 304 and the other side insert 305 may be connected to each other.
  • the user may use the one side solar panel 210 and the other side solar panel 220 for the spreading holding member 30 including the one side insert 304, the other side insert 305, and the connection 306. After separating from the solar cell unit 20,
  • the one side insertion table 304 may be inserted into any one of the plurality of side insertion grooves 211, and the other insertion table 305 may be inserted into the other side insertion groove 211.
  • the user inserts the one side insert 304, the other insert 305, and the connecting table 306.
  • the outer diameter size of the connecting table 306 may be formed relatively larger than the outer diameter size of the one side insert 304 and the outer diameter size of the other insert (305).
  • FIG. 20 and 21 are side views schematically showing still another example of the spread holding member 30, and FIG. 22 is a cross-sectional view taken along the line CC of FIG.
  • the other side of the front side of the one side solar panel 210 and the other side of the back side of the one side solar panel 210 are located in the front-rear direction inward of the one side solar panel 210.
  • One side insertion groove 212 recessed to a predetermined depth may be formed.
  • the other side insertion groove 222 recessed to a predetermined depth in the front-rear direction of the other solar panel 220 on one side of the front side of the other solar panel 220 and the rear side of the other solar panel 220. ) May be formed.
  • the spreading holding member 30 may include the other link 370 and the one side link 380.
  • the spreading holding member 30 including the other link 370 and the one side link 380 may be made of various materials such as a metallic material having elastic force.
  • the other side of the other link 370 may be axially fixed to one side of the front side of the other solar panel 220 and the other side of the rear side of the solar panel 220.
  • the other side of the other link 370 may be formed with a plate-shaped other side insertion member 371 extending back and forth at a predetermined length in the direction of the other solar panel 220, respectively.
  • the other insertion member 371 may be inserted into the other insertion groove 222 when the one solar panel 210 and the other solar panel 220 are completely unfolded in a horizontal state.
  • the other side of the one side link 380 may be axially fixed to one side of the other side link 370.
  • One side of the one side link 380 may be axially fixed to the other side of the front side of the one side solar panel 210 and the other side of the rear side of the one side solar panel 210, respectively.
  • One side of the one-side link 380 may be formed with a plate-shaped one side insertion member 381 extending back and forth at a predetermined length in the direction of the one side solar panel 210, respectively.
  • the one side insertion member 381 may be inserted into the one side insertion groove 212 when the one side solar panel 210 and the other side solar panel 220 are completely unfolded in a horizontal state.
  • FIG. 23 and 24 are side views schematically showing still another example of the spreading holding member 30, and FIG. 25 is a cross-sectional view taken along the line D-D of FIG.
  • the spread holding member 30 is made to include the other link 370 and the one side link 380,
  • the other side of the front side of the one side solar panel 210 and the other side of the back side of the one side solar panel 210 protrude horizontally in a predetermined length in an outward direction of the one side solar panel 210.
  • the plate-shaped one side protruding plate 213 may be integrally formed at regular intervals in the vertical direction.
  • a plate-shaped other protruding plate horizontally protruded outwardly from the other solar panel 220 at a predetermined length on one side of the front side of the other solar panel 220 and the rear side of the other solar panel 220 ( 223 may be integrally formed at regular intervals in the vertical direction.
  • the plate-shaped one side insertion member 381 formed on one side of the one side link 380 may be inserted between the one side insertion plate 213.
  • FIG. 26 and 27 are side views schematically showing still another example of the spreading holding member 30, and FIG. 28 is a sectional view taken along the line E-E of FIG.
  • the spread holding member 30 is made to include the other side link 370 and the one side link 380, as shown in Figure 26 to 28,
  • a central portion of the one side link 380 may be axially fixed to the center of the other side link 370.
  • the other side of the center of the one side link 380 may be axially fixed to one side of the center of the other side link 370.
  • the other side insertion member 371 may be formed at one side of the other side link 370 to extend back and forth with a predetermined length in the direction of the side side link 380.
  • the other side of the one-side link 380 may be formed with the one side insertion member 381 extending back and forth with a predetermined length in the direction of the other side link 370.
  • the other side of the other side link 370 may be formed with the other side insertion groove 372 recessed back and forth to a predetermined depth to the inside of the other side link (370).
  • One side of the one-side link 380 may be formed with one side insertion groove 382, which is recessed back and forth to a predetermined depth inside the one-side link 380.
  • the one side insertion member 381 may be inserted into the other side insertion groove 372.
  • the other insertion member 371 may be inserted into the one insertion groove 382.
  • FIG. 29 and 30 are side views schematically showing still another example of the spreading holding member 30, and FIG. 31 is a sectional view taken along the line F-F in FIG.
  • the spread holding member 30 is made to include the other link 370 and the one side link 380,
  • the other side of the other link 370, the other protruding plate 373 which is horizontally protruded in a predetermined length in the direction of the one side link 380 may be formed at regular intervals in the vertical direction.
  • One side of the one side link 380 may be formed with one side protruding plate 383 protruding horizontally in a predetermined length in the direction of the other side link 370 at regular intervals in the vertical direction.
  • the other side insertion member 371 may be formed at one side of the other side link 370 to protrude horizontally with a predetermined length in the direction of the one side link 380.
  • the one side insertion member 381 may be formed at the other side of the one side link 380 to protrude horizontally at a predetermined length in the direction of the other side link 370.
  • the other insertion member 371 may be inserted between the one side protruding plate 383 and the one side insertion.
  • the member 381 may be inserted between the other protruding plate 373.
  • 32 is a block diagram schematically illustrating the battery 40 and the inverter 50.
  • the battery 40 and the inverter 50 may be further provided.
  • the battery 40 and the inverter 50 may be provided at predetermined intervals in the storage space s formed in the lower housing 110.
  • the battery 40 may store electricity generated by the solar cell unit 20.
  • the inverter 50 may convert electricity supplied from the battery 40 to home appliances including TVs into AC voltage suitable for operation of home appliances including TVs.
  • a plug connection part 60 to which a power plug (not shown) of a home appliance including a TV is connected may be provided at the middle of the other side of the lower housing part 110.
  • the electricity stored in the battery 40 may be changed into an alternating voltage by the inverter 50 and supplied to a home appliance including a TV. .
  • the present invention configured as described above is the solar cell unit when the upper receiving unit 120 of the receiving unit 10, the solar cell unit 20 is accommodated therein is unfolded separately from the lower receiving unit 110 Since the 20 is inclined at a predetermined angle toward the sun and collects sunlight or solar heat to generate electricity, there is no need to obliquely incline the solar cell unit 20 using a separate holder or the like,
  • the upper accommodating part 120 may be the lower number. Since the upper part 120 is too easily oriented by an external force, such as wind, because it is made of a length capable of maintaining an inclined state in a state in which the oblique angle ⁇ is formed with the payment part 110.
  • the solar cell unit 20 may be inclined diagonally to collect a greater amount of solar light or to collect solar heat while preventing the possibility of closing by rotating and moving.
  • the solar cell unit 20 can be more easily moved to the outdoor unit including the camping place, etc.
  • the solar cell unit 20 in the outdoor including the camping place, etc. There is an advantage that can easily operate a home appliance, including a TV through the generated electricity.
  • the solar cell part when the upper accommodating part of the accommodating part accommodating the solar cell part is unfolded from the lower accommodating part, the solar cell part may be inclined at a predetermined angle toward the sun to collect solar light or solar heat to generate electricity. Therefore, there is no need to incline the solar cell unit using a separate cradle, etc.,
  • the length of the solar cell portion is extended to the state in which the upper accommodating part is separated from the lower accommodating part and is inclined at an obtuse angle with the lower accommodating part.
  • the solar cell unit is inclined diagonally to collect more solar light while preventing the possibility that the upper housing part is closed by being easily moved by the external force, such as wind, in the direction of the lower housing part.
  • the outdoor unit including the camping place and the like can easily move the storage unit housed therein, but also home appliances including a TV and the like through the electricity generated by the solar cell unit outdoors including the camping place and the like.
  • the effect is that the device can be operated more easily.

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  • Photovoltaic Devices (AREA)
PCT/KR2012/010044 2012-05-09 2012-11-26 Dispositif portable de production d'énergie solaire Ceased WO2013168867A1 (fr)

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KR1020120049199A KR101175125B1 (ko) 2012-05-09 2012-05-09 휴대용 태양발전장치
KR10-2012-0049199 2012-05-09

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WO2016058364A1 (fr) * 2014-10-14 2016-04-21 广东太阳库新能源科技有限公司 Panneau de pliage à énergie solaire combiné librement portable

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KR200480123Y1 (ko) 2014-03-27 2016-04-19 (주)케이원글로벌모터스 회전식 태양전지모듈이 구비된 차량용 환풍기
KR101703541B1 (ko) * 2015-08-25 2017-02-10 (주)에이스쏠라 태양전지 모듈 설치 장치 및 이를 갖는 태양 발전 장치
KR102726452B1 (ko) * 2019-01-31 2024-11-05 스마트기술연구소(주) 태양전지모듈 세트

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US4384164A (en) * 1980-07-11 1983-05-17 Organisation Europeenne De Recherches Spatiales Systems for folding and stabilizing solar panels
JP3112906U (ja) * 2004-01-28 2005-09-02 キン クォン チャン 多機能携帯型太陽エネルギー充電器
JP2008243883A (ja) * 2007-03-26 2008-10-09 Vc Engineering:Kk 携帯式発電器
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US4384164A (en) * 1980-07-11 1983-05-17 Organisation Europeenne De Recherches Spatiales Systems for folding and stabilizing solar panels
JP3112906U (ja) * 2004-01-28 2005-09-02 キン クォン チャン 多機能携帯型太陽エネルギー充電器
JP2008243883A (ja) * 2007-03-26 2008-10-09 Vc Engineering:Kk 携帯式発電器
US20100156339A1 (en) * 2008-12-18 2010-06-24 Hoffman Roger L Portable solar battery charger

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Publication number Priority date Publication date Assignee Title
WO2016058364A1 (fr) * 2014-10-14 2016-04-21 广东太阳库新能源科技有限公司 Panneau de pliage à énergie solaire combiné librement portable

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