CN103938810A - Photovoltaic sun-shading system and manufacturing method thereof - Google Patents

Photovoltaic sun-shading system and manufacturing method thereof Download PDF

Info

Publication number
CN103938810A
CN103938810A CN201410108681.3A CN201410108681A CN103938810A CN 103938810 A CN103938810 A CN 103938810A CN 201410108681 A CN201410108681 A CN 201410108681A CN 103938810 A CN103938810 A CN 103938810A
Authority
CN
China
Prior art keywords
photovoltaic
sunbreaker
carbon fiber
coating
shading system
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.)
Granted
Application number
CN201410108681.3A
Other languages
Chinese (zh)
Other versions
CN103938810B (en
Inventor
李晓军
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Weidu Energy Technology Co ltd
Original Assignee
YANTAI SITANPU FINE CONSTRUCTION Co Ltd
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by YANTAI SITANPU FINE CONSTRUCTION Co Ltd filed Critical YANTAI SITANPU FINE CONSTRUCTION Co Ltd
Priority to CN201410108681.3A priority Critical patent/CN103938810B/en
Publication of CN103938810A publication Critical patent/CN103938810A/en
Application granted granted Critical
Publication of CN103938810B publication Critical patent/CN103938810B/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Classifications

    • 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]

Landscapes

  • Photovoltaic Devices (AREA)

Abstract

The invention discloses a photovoltaic sun-shading system which comprises a supporting frame and a sun-shading plate (1) fixed to the supporting frame. A photovoltaic layer (2) is fixed to the sun-shading plate (1), and the photovoltaic layer (2) comprises a flexible thin-film battery pack (3), a film layer (4) and a coating layer (5) sequentially from bottom to top. The sun-shading plate (1) is a carbon fiber plate. According to the photovoltaic sun-shielding system, the photovoltaic sun-shading plate is light, safe, resistant to fire, insulative and good in durability, the sun-shading plate is organically combined with a solar photovoltaic module, sun shading can be achieved, photovoltaic power generation can also be achieved, and the photovoltaic sun-shading system conforms to the idea of green buildings according to which energy is saved, emission is reduced and energy consumption is zero. According to the photovoltaic sun-shading system, solar batteries can be used for outputting electric energy, the function of a rain shelter and the function of sun shading are achieved, and meanwhile a new installation manner is provided for domestically using solar energy.

Description

A kind of photovoltaic sun shading system and preparation method thereof
Technical field
The present invention relates to building energy conservation and photoelectricity building field, be specifically related to a kind of photovoltaic sun shading system and preparation method thereof,
Background technology
At present, the power-saving technology relevant with building is mainly divided into the large class of passive type energy-conservation and active energy-conservation two.The former is as the external sunshade system relevant with building, although it is indoor effectively to stop that light enters, reduce outdoor sunlight at indoor formation photo-thermal effect, make indoor maintenance preference temperature, reduce room conditioning energy consumption, reach energy-saving effect, but belong to passive energy-conservation, as " a kind of column slip swing arm sunshade of exempting from installation " of " the electric telescopic sunshade " of China Patent No. 201110003373.0 and the patent No. 201210213173.2.Under the overall background of Green Architectural Development and BIPV (Building Integrated PV) development, Europe, the United States, Deng developed country have started solar-photovoltaic technology and architectural shading system to combine, the active of common realization building is energy-conservation, as foreign patent JP63067788 " Outdoor casting structure for solar cell system " discloses a kind of solar energy sunshade plate of fixing external, solar cell is installed on sunbreaker, for stationary structure, this structure can not make battery change with the variation at sunshine.China's photovoltaic sun technology is in the ascendant, belongs to the pioneering stage, and current most of technology also only limits to the sunshade of crystalsized silica glass solar energy photovoltaic panel.As " a kind of column slip swing arm sunshade of exempting from installation " this kind of system of " the electric telescopic sunshade " of China Patent No. 20111000 and the patent No. 201210213173.2 installed difficulty in using, cost is high, only limit to low-rise building and use, greatly limited the universal of photovoltaic sun technology and promoted.
Summary of the invention
The technical problem to be solved in the present invention is to provide a kind of light security, fire-proof insulation, good endurance, the photovoltaic sun shading system that sunbreaker and solar photovoltaic assembly are combined.
A kind of photovoltaic sun shading system, comprises bracing frame and the sunbreaker being fixed thereon, and on described sunbreaker, is fixed with photovoltaic layer, and described photovoltaic layer comprises flexible thin-film battery assembly, rete and dope layer from bottom to up successively, and described sunbreaker is carbon fiber board.
Photovoltaic sun shading system of the present invention, is wherein provided with sunbreaker at the left and right sides, front portion and the top of described system, and wherein, the described sunbreaker at top, for being obliquely installed, is fixed with described photovoltaic layer on its inclined plane.
Photovoltaic sun shading system of the present invention, wherein the described sunbreaker at top and the angle on ground are 30~60 °, are closely fixed with frame in the surrounding of described sunbreaker, described frame is made up of aluminium alloys or carbon fibre material.
Photovoltaic sun shading system of the present invention, wherein said photovoltaic layer is list structure, some described photovoltaic layers are arranged in parallel and are adhered on described sunbreaker, on described flexible thin-film battery assembly, be coated with described rete, on described rete, be coated with dope layer, the area of described photovoltaic layer is 60%~80% of whole sunbreaker area.
Photovoltaic sun shading system of the present invention, wherein said carbon fiber board is the unidirectional sheet material by carbon fiber reinforcement reinforcement, will after impregnated carbon fiber epoxy resin, in mould, solidify and continuous pultrusion; The surface density of described carbon fiber board is 2000g/m 2, resin content is 42%, fiber content is 1050g/m 2, fiber volume fraction>=65%, density is 100 ± 2mm, tensile strength is 2950N/mm 2, modulus of elasticity is 185000N/mm, and the thickness of carbon fiber board is 5~10mm, and the length and width of described carbon fiber board are 400 × 500mm, 500 × 500mm, 500 × 600mm or 1000 × 1200mm.
Photovoltaic sun shading system of the present invention, wherein said flexible thin-film battery assembly is the hull cell that adopts deposition of transparent conductive film to prepare in flexible flexible substrate, for non-crystalline silicon flexible solar hull cell, copper indium potassium selenium thin-film solar cells, cadmium telluride diaphragm solar battery, dye-sensitized cell or organic film battery; Described rete is fluorine-containing TPT polyester film or ethene-TFE copolymer film, and thickness is 250 microns; Described dope layer is applied and is formed by anti-fouling and self-cleaning coating, and described anti-fouling and self-cleaning coating is that particle diameter is nano level organosilicon-modified acrylic coating or nanoscale fluorocarbon coating, and thickness is 30~70 microns.
Photovoltaic sun shading system of the present invention, wherein said organosilicon-modified acrylic coating is made up of the material of following weight portion:
Deionized water: 500~560 parts;
Activity substance content is 42% organosilicon-acrylic resin emulsion: 30~60 parts;
Coalescents: 32~40 parts;
Antisepticize and mildew preventive: 8~10 parts;
Defoamer: 6~10 parts;
Ethylene glycol: 40~50 parts;
Plasticizing agent: 0.3~0.5 part;
PH adjusting agent: 8~10 parts;
Wherein, described coalescents is Lauryl Alcohol ester, and described Antisepticize and mildew preventive is that OBPA contains arsenic organic matter mould inhibitor, synthetic vegetable esters fluidizer, and described defoamer is PPG, described pH adjusting agent is methane-siliconic acid aqueous solutions of potassium;
Described nano-fluorine carbon coating is made up of the material of following weight portion:
Wherein, described titanium dioxide is the rutile type nano titanic oxide particle through silane coupler surface modification; Described curing compound is taking toluene diisocyanate as raw material, through partial monosomy polymerization, then carries out taking polyalcohol as sealer that capping makes; Described paint thinner is acetone or dimethylbenzene.
Photovoltaic sun shading system of the present invention, bonds by flame-proof type polyalcohol cementing agent between wherein said flexible thin-film battery assembly and sunbreaker fixing, and described flame-proof type polyalcohol cementing agent is prepared from by the raw material of following weight portion:
Polyacrylic acid lipid emulsion: 75~90 parts;
Crosslinking agent: 5~20 parts;
Organophosphor nitrogen based flame retardant: 1~5 part;
Solvent: 1~10 part;
Described polyacrylate emulsion is prepared from by acrylic ester monomer, and described acrylic ester monomer is ethyl acrylate, the mixture of one or more in butyl acrylate, acrylic acid-2-ethyl caproite, methyl methacrylate; Described crosslinking agent is isocyanates crosslinking agent, toluene di-isocyanate(TDI) or MDI; Described organophosphor nitrogen based flame retardant is tri-isopropyl benzene base phosphoric acid fat or dimethyl methyl phosphonate; Described solvent is toluene, dimethylbenzene, positive fourth fat or isopropyl alcohol.
A preparation method for photovoltaic sun shading system, comprises the steps:
The preparation of step 1, bracing frame: bracing frame is made up of carbon fiber or aluminum alloy materials is provided with the through hole that supplies screw and expansion bolt to pass on support frame as described above:
The preparation of step 2, sunbreaker: the sunbreaker that is first 5~10mm by thickness cuts into the width that width is more than or equal to window, the sheet material that length is 1~1.5m;
The preparation of step 3, photovoltaic layer: seal up TPT polyester rete or ethene-TFE copolymer rete in the surface coverage of described flexible thin-film battery assembly, and apply nanoscale organic silicon acrylic coating or the nanoscale fluorocarbon coating with anti-pollution function in the outside of described TPT polyester rete or ethene-TFE copolymer film;
Step 4, prepare flame-proof type polyalcohol cementing agent, flexible thin-film battery assembly is pasted to described carbon fiber sunbreaker external surface with described flame-proof type polyalcohol cementing agent;
Step 5, merging encapsulation: the order according to fexible film photovoltaic cell component, flame-proof type polyalcohol cementing agent, sunbreaker stacks gradually; through roll-in and autoclave processing; make each layer assembly and material close adhesion; obtain photovoltaic sheet material; finally the surrounding of described photovoltaic sheet material will be fixed on the frame that aluminium alloys or carbon fibre material are made again; play the protective effect to photovoltaic sheet material, obtain product.
The preparation method of photovoltaic sun shading system of the present invention, the preparation method of wherein said flame-proof type polyalcohol cementing agent comprises the steps:
A, in the mixer of temperature-adjustable, first add acrylics monomer, temperature is risen to 50~60 degree, keep temperature 5~7 hours, make acrylics emulsion;
B, maintenance 50~60 are spent temperature-resistant, add the solvent of 1/3 volume in the acrylics emulsion of making, and stir, and are processed into mother liquor first;
C, temperature be 40~50 degree conditions under, by residue 2/3 volume solvent evenly mix with organophosphor nitrogen based flame retardant, make mother liquor second;
D, temperature be 50~60 degree conditions under, described mother liquor first and described mother liquor second two components are evenly mixed, slowly add subsequently crosslinking agent and stir, finally make flame-proof type polyalcohol cementing agent;
The preparation method of described organosilicon-modified acrylic coating comprises the steps: load weighted fungusproof anti-corrosion agent and ethylene glycol, pH adjusting agent adds in organosilicon-acrylic resin emulsion, with the rotating speed premix of 800 revs/min, fully stir about 20~30min, disperse 10~15min with the rotating speeds of 1500 revs/min, in the process stirring, add the defoamer of 1/3 weight, fully disperse 15~20min with the rotating speed of 800 revs/min again, and add and coalescents, the deionized water that plasticizing agent mixes, add again the defoamer of 2/3 weight, be uniformly mixed, be mixed with organosilicon-modified acrylic coating, described nano-fluorine carbon preparation method for coating comprises the steps: proportionally to take nano titanium oxide, joins in coating dilution, disperses to mix, and mixing time is 1 hour, then add successively fluorocarbon resin and curing compound, stir, make nano-fluorine carbon coating.
Photovoltaic sun shading system difference from prior art of the present invention is: the invention provides a kind of photovoltaic sun shading system, it is included on the rectangular frame of the outside oblique support of construction window and lays the solar energy photovoltaic panel being composited by lightweight carbon fiber sheet and flexible thin-film battery; Sunbreaker light security, the fire-proof insulation with photovoltaic generation function in described photovoltaic sun shading system, good endurance, combines sunbreaker and solar photovoltaic assembly, both can sunshade, again can photovoltaic generation, meet the theory of the green building such as energy-saving and emission-reduction and zero energy consumption; Photovoltaic sun shading system of the present invention can utilize solar cell output electric energy, can play again rain and take and the effect of sunshade, also provides a kind of new mounting means for family is used solar energy simultaneously.
Bracing frame in solar protection devices of the present invention is carbon fibre material or aluminum alloy materials, and this bi-material is sturdy and durable, and external surface absorption coefficient is little, inner surface coefficient of radiation is little; The present invention has also adopted frame to protect sunshade photovoltaic panel; Carbon fiber sheet adopts high-quality carbon fiber raw material and good basic resin, have lightweight, pliability good, hot strength is high, modulus of elasticity is excellent, creep-resistant property, corrosion resistance, shock resistance, the good superperformance such as durability, corrosion resistance impact resistance, meanwhile, carbon fiber board also have well electric and heat conducting longitudinally low with there is the character such as negative coefficient of thermal expansion.
Below in conjunction with accompanying drawing, photovoltaic sun shading system of the present invention is described further.
Brief description of the drawings
Fig. 1 is the stereogram of photovoltaic sun shading system of the present invention under installment state;
Fig. 2 is the elevation of Fig. 1;
Fig. 3 is the sectional drawing of Fig. 2 along D-D direction;
Fig. 4 is the partial enlarged drawing of K part in Fig. 3.
Detailed description of the invention
Embodiment 1
As shown in Figure 1 to 4, a kind of photovoltaic sun shading system, comprises bracing frame and the sunbreaker 1 being fixed thereon, and is fixed with photovoltaic layer 2 on sunbreaker 1, and photovoltaic layer 2 comprises flexible thin-film battery assembly 3, rete 4 and dope layer 5 from bottom to up successively.
Preferably, sunbreaker 1 is carbon fiber board, is provided with sunbreaker 1 at the left and right sides, front portion and the top of system, and wherein, the sunbreaker 1 at top, for being obliquely installed, is fixed with photovoltaic layer 2 on its inclined plane.The sunbreaker 1 at top is 60 ° with the angle on ground, surrounding at sunbreaker 1 is closely fixed with frame, frame is made up of carbon fibre material, photovoltaic layer 2 is list structure, article three, photovoltaic layer 2 is arranged in parallel and is adhered on sunbreaker 1, and the size of photovoltaic layer 2 and use number specifically arrange according to field condition, are coated with rete 4 on flexible thin-film battery assembly 3, on rete 4, be coated with dope layer 5, the area of photovoltaic layer 2 is 80% of whole sunbreaker 1 area.Carbon fiber board is the unidirectional sheet material by carbon fiber reinforcement reinforcement, will after impregnated carbon fiber epoxy resin, in mould, solidify and continuous pultrusion; The surface density of carbon fiber board is 2000g/m 2, resin content is 42%, fiber content is 1050g/m 2, fiber volume fraction>=65%, density is 100 ± 2mm, tensile strength is 2950N/mm 2, modulus of elasticity is 185000N/mm, and the thickness of carbon fiber board is 5~10mm, and the length and width of carbon fiber board are 1000 × 1200mm.Flexible thin-film battery assembly 3 is the hull cells that adopt deposition of transparent conductive film to prepare as plastics in flexible flexible substrate, is non-crystalline silicon flexible solar hull cell; Rete 4 is fluorine-containing TPT polyester film, and thickness is 250 microns; Dope layer 5 is applied and is formed by anti-fouling and self-cleaning coating, and anti-fouling and self-cleaning coating is that particle diameter is nano level organosilicon-modified acrylic coating, and thickness is 30 microns.Between flexible thin-film battery assembly 3 and sunbreaker 1, bond by flame-proof type polyalcohol cementing agent fixing.
Organosilicon-modified acrylic coating is made up of the material of following weight portion:
Deionized water: 500 parts;
Activity substance content is 42% organosilicon-acrylic resin emulsion: 60 parts;
Coalescents: 32 parts;
Antisepticize and mildew preventive: 10 parts;
Defoamer: 6 parts;
Ethylene glycol: 50 parts;
Plasticizing agent: 0.3 part;
PH adjusting agent: 10 parts;
Wherein, coalescents is Lauryl Alcohol ester, and Antisepticize and mildew preventive is that OBPA contains arsenic organic matter mould inhibitor, synthetic vegetable esters fluidizer, and defoamer is PPG, pH adjusting agent is methane-siliconic acid aqueous solutions of potassium;
Flame-proof type polyalcohol cementing agent is prepared from by the raw material of following weight portion:
Polyacrylic acid lipid emulsion: 75 parts;
Crosslinking agent: 20 parts;
Organophosphor nitrogen based flame retardant: 1 part;
Solvent: 10 parts;
Polyacrylate emulsion is prepared from by acrylic ester monomer, and acrylic ester monomer such as is at the ethyl acrylate of quality and the mixture of butyl acrylate; Crosslinking agent is isocyanates crosslinking agent; Organophosphor nitrogen based flame retardant is tri-isopropyl benzene base phosphoric acid fat; Solvent is toluene.
Embodiment 2
With the difference of embodiment 1 be: dope layer 5 is nano-fluorine carbon coating, is made up of the material of following weight portion:
Flexible thin-film battery assembly 3 is dye-sensitized cell; The thickness of carbon fiber board is 9mm, and length and width are 500 × 500mm.
Embodiment 3
As shown in Figure 1 to 4, a kind of photovoltaic sun shading system, comprises bracing frame and the sunbreaker 1 being fixed thereon, and is fixed with photovoltaic layer 2 on sunbreaker 1, and photovoltaic layer 2 comprises flexible thin-film battery assembly 3, rete 4 and dope layer 5 from bottom to up successively.
Preferably, sunbreaker 1 is carbon fiber board, is provided with sunbreaker 1 at the left and right sides, front portion and the top of system, and wherein, the sunbreaker 1 at top, for being obliquely installed, is fixed with photovoltaic layer 2 on its inclined plane.The sunbreaker 1 at top is 45 ° with the angle on ground, is closely fixed with frame in the surrounding of sunbreaker 1, and frame is made up of aluminum alloy materials.Photovoltaic layer 2 is list structure, some (in the present embodiment being 4) photovoltaic layer 2 is arranged in parallel and is adhered on sunbreaker 1, on flexible thin-film battery assembly 3, be coated with rete 4, be coated with dope layer 5 on rete 4, the area of photovoltaic layer 2 is 60% of whole sunbreaker 1 area.Carbon fiber board is the unidirectional sheet material by carbon fiber reinforcement reinforcement, will after impregnated carbon fiber epoxy resin, in mould, solidify and continuous pultrusion; The surface density of carbon fiber board is 2000g/m 2, resin content is 42%, fiber content is 1050g/m 2, fiber volume fraction>=65%, density is 100 ± 2mm, tensile strength is 2950N/mm 2, modulus of elasticity is 185000N/mm, and the thickness of carbon fiber board is 5~10mm, and the length and width of carbon fiber board are 400 × 500mm.Flexible thin-film battery assembly 3 is the hull cells that adopt deposition of transparent conductive film to prepare in flexible flexible substrate, is copper indium potassium selenium thin-film solar cells; Rete 4 is ethene-TFE copolymer film, and thickness is 250 microns; Dope layer 5 is applied and is formed by anti-fouling and self-cleaning coating, and anti-fouling and self-cleaning coating is that particle diameter is nano level organosilicon-modified acrylic coating, and thickness is 70 microns.Between flexible thin-film battery assembly 3 and sunbreaker 1, bond by flame-proof type polyalcohol cementing agent fixing.
Organosilicon-modified acrylic coating is made up of the material of following weight portion:
Deionized water: 560 parts;
Activity substance content is 42% organosilicon-acrylic resin emulsion: 30 parts;
Coalescents: 40 parts;
Antisepticize and mildew preventive: 8 parts;
Defoamer: 10 parts;
Ethylene glycol: 40 parts;
Plasticizing agent: 0.5 part;
PH adjusting agent: 8 parts;
Wherein, coalescents is Lauryl Alcohol ester, and Antisepticize and mildew preventive is that OBPA contains arsenic organic matter mould inhibitor, synthetic vegetable esters fluidizer, and defoamer is PPG, pH adjusting agent is methane-siliconic acid aqueous solutions of potassium;
Flame-proof type polyalcohol cementing agent is prepared from by the raw material of following weight portion:
Polyacrylic acid lipid emulsion: 90 parts;
Crosslinking agent: 5 parts;
Organophosphor nitrogen based flame retardant: 5 parts;
Solvent: 1 part;
Polyacrylate emulsion is prepared from by acrylic ester monomer, and acrylic ester monomer is acrylic acid-2-ethyl caproite; Crosslinking agent is toluene di-isocyanate(TDI); Organophosphor nitrogen based flame retardant is dimethyl methyl phosphonate; Solvent is dimethylbenzene.
Embodiment 4
Be with the difference of embodiment 3, dope layer 5 is nano-fluorine carbon coating, is made up of the material of following weight portion:
Wherein, titanium dioxide is the rutile type nano titanic oxide particle through silane coupler surface modification; Curing compound is taking toluene diisocyanate as raw material, through partial monosomy polymerization, then carries out taking polyalcohol as sealer that capping makes; Paint thinner is dimethylbenzene.Flexible thin-film battery assembly 3 is the hull cells that adopt deposition of transparent conductive film to prepare in flexible flexible substrate, is organic film battery.
Embodiment 5
As shown in Figure 1 to 4, a kind of photovoltaic sun shading system, comprises bracing frame and the sunbreaker 1 being fixed thereon, and is fixed with photovoltaic layer 2 on sunbreaker 1, and photovoltaic layer 2 comprises flexible thin-film battery assembly 3, rete 4 and dope layer 5 from bottom to up successively.
Preferably, sunbreaker 1 is carbon fiber board, is provided with sunbreaker 1 at the left and right sides, front portion and the top of system, and wherein, the sunbreaker 1 at top, for being obliquely installed, is fixed with photovoltaic layer 2 on its inclined plane.The sunbreaker 1 at top is 30~60 ° with the angle on ground, is closely fixed with frame in the surrounding of sunbreaker 1, and frame is made up of aluminium alloys or carbon fibre material.Photovoltaic layer 2 is list structure, some (in the present embodiment being 5) photovoltaic layer 2 is arranged in parallel and is adhered on sunbreaker 1, on flexible thin-film battery assembly 3, be coated with rete 4, be coated with dope layer 5 on rete 4, the area of photovoltaic layer 2 is 70% of whole sunbreaker 1 area.Carbon fiber board is the unidirectional sheet material by carbon fiber reinforcement reinforcement, will after impregnated carbon fiber epoxy resin, in mould, solidify and continuous pultrusion; The surface density of carbon fiber board is 2000g/m 2, resin content is 42%, fiber content is 1050g/m 2, fiber volume fraction>=65%, density is 100 ± 2mm, tensile strength is 2950N/mm 2, modulus of elasticity is 185000N/mm, and the thickness of carbon fiber board is 5~10mm, and the length and width of carbon fiber board are 500 × 600mm.Flexible thin-film battery assembly 3 is the hull cells that adopt deposition of transparent conductive film to prepare in flexible flexible substrate, is cadmium telluride diaphragm solar battery; Rete 4 is fluorine-containing TPT polyester film, and thickness is 250 microns; Dope layer 5 is applied and is formed by anti-fouling and self-cleaning coating, and anti-fouling and self-cleaning coating is that particle diameter is nano level organosilicon-modified acrylic coating, and thickness is 50 microns.
Organosilicon-modified acrylic coating is made up of the material of following weight portion:
Deionized water: 520 parts;
Activity substance content is 42% organosilicon-acrylic resin emulsion: 50 parts;
Coalescents: 37 parts;
Antisepticize and mildew preventive: 9 parts;
Defoamer: 8 parts;
Ethylene glycol: 45 parts;
Plasticizing agent: 0.4 part;
PH adjusting agent: 9 parts;
Wherein, coalescents is Lauryl Alcohol ester, and Antisepticize and mildew preventive is that OBPA contains arsenic organic matter mould inhibitor, synthetic vegetable esters fluidizer, and defoamer is PPG, pH adjusting agent is methane-siliconic acid aqueous solutions of potassium;
Between flexible thin-film battery assembly 3 and sunbreaker 1, bond by flame-proof type polyalcohol cementing agent fixing, flame-proof type polyalcohol cementing agent is prepared from by the raw material of following weight portion:
Polyacrylic acid lipid emulsion: 80 parts;
Crosslinking agent: 15 parts;
Organophosphor nitrogen based flame retardant: 2 parts;
Solvent: 4 parts;
Polyacrylate emulsion is prepared from by acrylic ester monomer, and acrylic ester monomer is methyl methacrylate; Crosslinking agent is MDI; Organophosphor nitrogen based flame retardant is tri-isopropyl benzene base phosphoric acid fat; Solvent is positive fourth fat.
Embodiment 6
Be with the difference of embodiment 5, coating is nano-fluorine carbon coating, is made up of the material of following weight portion:
Wherein, titanium dioxide is the rutile type nano titanic oxide particle through silane coupler surface modification; Curing compound is taking toluene diisocyanate as raw material, through partial monosomy polymerization, then carries out taking polyalcohol as sealer that capping makes; Paint thinner is acetone.
Embodiment 7
A preparation method for photovoltaic sun shading system, comprises the steps:
The preparation of step 1, bracing frame: bracing frame is made up of carbon fiber or aluminum alloy materials is provided with the through hole that supplies screw and expansion bolt to pass on bracing frame:
The preparation of step 2, sunbreaker 1: the sunbreaker 1 that is first 5mm by thickness cuts into the width that width is more than or equal to window, the sheet material that length is 1m;
The preparation of step 3, photovoltaic layer 2: seal up rete 4 in the surface coverage of flexible thin-film battery assembly 3, rete 4 is TPT polyester film or ethene-TFE copolymer film, and applies nanoscale organic silicon acrylic coating or the nanoscale fluorocarbon coating with anti-pollution function in the outside of rete 4;
Step 4, bonding: prepare flame-proof type polyalcohol cementing agent, with flame-proof type polyalcohol cementing agent, flexible thin-film battery assembly 3 is pasted to the external surface of sunbreaker 1;
Step 5, merging encapsulation: the order according to fexible film photovoltaic cell component 3, flame-proof type polyalcohol cementing agent, sunbreaker 1 stacks gradually, through roll-in and autoclave processing, make each layer assembly and material close adhesion, obtain photovoltaic sheet material, last again by be fixed on the surrounding of photovoltaic sheet material with the frame that aluminium alloys or carbon fibre material are made, obtain product.
Preferably, the preparation method of flame-proof type polyalcohol cementing agent comprises the steps:
A, in the mixer of temperature-adjustable, first add acrylics monomer, temperature is risen to 50 degree, keep temperature 5 hours, make acrylics emulsion;
B, maintenance 50 are spent temperature-resistant, add the solvent of 1/3 volume in the acrylics emulsion of making, and stir, and are processed into mother liquor first;
C, be under the condition of 40 degree in temperature, the solvent of residue 2/3 volume is evenly mixed with organophosphor nitrogen based flame retardant, make mother liquor second;
D, be under the condition of 50 degree in temperature, mother liquor first and mother liquor second two components are evenly mixed, slowly add subsequently crosslinking agent and stir, finally make flame-proof type polyalcohol cementing agent.
The preparation method of organosilicon-modified acrylic coating comprises the steps: load weighted fungusproof anti-corrosion agent and ethylene glycol, pH adjusting agent adds in organosilicon-acrylic resin emulsion, with the rotating speed premix of 800 revs/min, fully stir about 20min, disperse 10min with the rotating speeds of 1500 revs/min, in the process stirring, add the defoamer of 1/3 weight, fully disperse 15min with the rotating speed of 800 revs/min again, and add and coalescents, the deionized water that plasticizing agent mixes, add again the defoamer of 2/3 weight, be uniformly mixed, be mixed with organosilicon-modified acrylic coating,
Nano-fluorine carbon preparation method for coating comprises the steps: proportionally to take nano titanium oxide, joins in coating dilution, disperses to mix, and mixing time is 1 hour; Then add successively fluorocarbon resin and curing compound, stir, make nano-fluorine carbon coating.
Embodiment 8
A preparation method for photovoltaic sun shading system, comprises the steps:
The preparation of step 1, bracing frame: bracing frame is made up of carbon fiber or aluminum alloy materials is provided with the through hole that supplies screw and expansion bolt to pass on bracing frame:
The preparation of step 2, sunbreaker 1: the sunbreaker 1 that is first 10mm by thickness cuts into the width that width is more than or equal to window, the sheet material that length is 1.5m;
The preparation of step 3, photovoltaic layer 2: seal up rete 4 in the surface coverage of flexible thin-film battery assembly 3, rete 4 is TPT polyester film or ethene-TFE copolymer film, and applies nanoscale organic silicon acrylic coating or the nanoscale fluorocarbon coating with anti-pollution function in the outside of rete 4;
Step 4, bonding: prepare flame-proof type polyalcohol cementing agent, with flame-proof type polyalcohol cementing agent, flexible thin-film battery assembly 3 is pasted to the external surface of sunbreaker 1;
Step 5, merging encapsulation: the order according to fexible film photovoltaic cell component 3, flame-proof type polyalcohol cementing agent, sunbreaker 1 stacks gradually, through roll-in and autoclave processing, make each layer assembly and material close adhesion, obtain photovoltaic sheet material, last again by be fixed on the surrounding of photovoltaic sheet material with the frame that aluminium alloys or carbon fibre material are made, obtain product.
Preferably, the preparation method of flame-proof type polyalcohol cementing agent comprises the steps:
A, in the mixer of temperature-adjustable, first add acrylics monomer, temperature is risen to 60 degree, keep temperature 7 hours, make acrylics emulsion;
B, maintenance 60 are spent temperature-resistant, add the solvent of 1/3 volume in the acrylics emulsion of making, and stir, and are processed into mother liquor first;
C, be under the condition of 50 degree in temperature, the solvent of residue 2/3 volume is evenly mixed with organophosphor nitrogen based flame retardant, make mother liquor second;
D, be under the condition of 60 degree in temperature, mother liquor first and mother liquor second two components are evenly mixed, slowly add subsequently crosslinking agent and stir, finally make flame-proof type polyalcohol cementing agent.
The preparation method of organosilicon-modified acrylic coating comprises the steps: load weighted fungusproof anti-corrosion agent and ethylene glycol, pH adjusting agent adds in organosilicon-acrylic resin emulsion, with the rotating speed premix of 800 revs/min, fully stir about 30min, disperse 15min with the rotating speeds of 1500 revs/min, in the process stirring, add the defoamer of 1/3 weight, fully disperse 20min with the rotating speed of 800 revs/min again, and add and coalescents, the deionized water that plasticizing agent mixes, add again the defoamer of 2/3 weight, be uniformly mixed, be mixed with organosilicon-modified acrylic coating,
Nano-fluorine carbon preparation method for coating comprises the steps: proportionally to take nano titanium oxide, joins in coating dilution, disperses to mix, and mixing time is 1 hour; Then add successively fluorocarbon resin and curing compound, stir, make nano-fluorine carbon coating.
Embodiment 9
Install and implement:
First with expansion bolt, the triangle support frame of being made up of aluminium alloys or carbon fibre material is fixedly mounted on to building middle and upper part, Exposure to Sunlight face-port family, and on external wall, holes and place cable duct; Subsequently, tilt rectangle sunbreaker 1 is installed at bracing frame, between support frame and sunbreaker 1, be screwed; Photovoltaic cell output lead on sunbreaker 1 and junction box are arranged in the wire slotted eye being positioned on sunbreaker 1 inner side external wall; Electric lead is connected through photovoltaic solar controller conduit and indoor, and controller for solar is connected with inverter with battery by wire; Controller for solar can provide direct current output, and inverter can change direct current into alternating current, then serves electrical network (grid-connected use) or directly offer building load electricity consumption through being arranged on building switchbox within doors.
Above-described embodiment is described the preferred embodiment of the present invention; not scope of the present invention is limited; design under the prerequisite of spirit not departing from the present invention; various distortion and improvement that those of ordinary skill in the art make technical scheme of the present invention, all should fall in the definite protection domain of the claims in the present invention book.

Claims (10)

1. a photovoltaic sun shading system, it is characterized in that: comprise bracing frame and the sunbreaker (1) being fixed thereon, on described sunbreaker (1), be fixed with photovoltaic layer (2), described photovoltaic layer (2) comprises flexible thin-film battery assembly (3), rete (4) and dope layer (5) from bottom to up successively, and described sunbreaker (1) is carbon fiber board.
2. photovoltaic sun shading system according to claim 1, it is characterized in that: be provided with sunbreaker (1) at the left and right sides, front portion and the top of described system, wherein, the described sunbreaker (1) at top, for being obliquely installed, is fixed with described photovoltaic layer (2) on its inclined plane.
3. photovoltaic sun shading system according to claim 2, it is characterized in that: the described sunbreaker (1) at top is 30~60 ° with the angle on ground, surrounding at described sunbreaker (1) is closely fixed with frame, and described frame is made up of aluminium alloys or carbon fibre material.
4. photovoltaic sun shading system according to claim 3, it is characterized in that: described photovoltaic layer (2) is list structure, some described photovoltaic layers (2) are arranged in parallel and are adhered on described sunbreaker (1), on described flexible thin-film battery assembly (3), be coated with described rete (4), on described rete (4), be coated with dope layer (5), the area of described photovoltaic layer (2) is 60%~80% of whole sunbreaker (1) area.
5. photovoltaic sun shading system according to claim 1, is characterized in that: described carbon fiber board is the unidirectional sheet material by carbon fiber reinforcement reinforcement, will after impregnated carbon fiber epoxy resin, in mould, solidify and continuous pultrusion; The surface density of described carbon fiber board is 2000g/m 2, resin content is 42%, fiber content is 1050g/m 2, fiber volume fraction>=65%, density is 100 ± 2mm, tensile strength is 2950N/mm 2, modulus of elasticity is 185000N/mm, and the thickness of carbon fiber board is 5~10mm, and the length and width of described carbon fiber board are 400 × 500mm, 500 × 500mm, 500 × 600mm or 1000 × 1200mm.
6. photovoltaic sun shading system according to claim 1, it is characterized in that: described flexible thin-film battery assembly (3) is the hull cell that adopts deposition of transparent conductive film to prepare in flexible flexible substrate, for non-crystalline silicon flexible solar hull cell, copper indium potassium selenium thin-film solar cells, cadmium telluride diaphragm solar battery, dye-sensitized cell or organic film battery; Described rete (4) is fluorine-containing TPT polyester film or ethene-TFE copolymer film, and thickness is 250 microns; Described dope layer (5) is applied and is formed by anti-fouling and self-cleaning coating, and described anti-fouling and self-cleaning coating is that particle diameter is nano level organosilicon-modified acrylic coating or nanoscale fluorocarbon coating, and thickness is 30~70 microns.
7. according to the photovoltaic sun shading system described in claim 4 or 5 or 6, it is characterized in that: described organosilicon-modified acrylic coating is made up of the material of following weight portion:
Deionized water: 500~560 parts;
Activity substance content is 42% organosilicon-acrylic resin emulsion: 30~60 parts;
Coalescents: 32~40 parts;
Antisepticize and mildew preventive: 8~10 parts;
Defoamer: 6~10 parts;
Ethylene glycol: 40~50 parts;
Plasticizing agent: 0.3~0.5 part;
PH adjusting agent: 8~10 parts;
Wherein, described coalescents is Lauryl Alcohol ester, and described Antisepticize and mildew preventive is that OBPA contains arsenic organic matter mould inhibitor, synthetic vegetable esters fluidizer, and described defoamer is PPG, described pH adjusting agent is methane-siliconic acid aqueous solutions of potassium;
Described nano-fluorine carbon coating is made up of the material of following weight portion:
Wherein, described titanium dioxide is the rutile type nano titanic oxide particle through silane coupler surface modification; Described curing compound is taking toluene diisocyanate as raw material, through partial monosomy polymerization, then carries out taking polyalcohol as sealer that capping makes; Described paint thinner is acetone or dimethylbenzene.
8. photovoltaic sun shading system according to claim 1, it is characterized in that: between described flexible thin-film battery assembly (3) and described sunbreaker (1), bond by flame-proof type polyalcohol cementing agent fixing, described flame-proof type polyalcohol cementing agent is prepared from by the raw material of following weight portion:
Polyacrylic acid lipid emulsion: 75~90 parts;
Crosslinking agent: 5~20 parts;
Organophosphor nitrogen based flame retardant: 1~5 part;
Solvent: 1~10 part;
Described polyacrylate emulsion is prepared from by acrylic ester monomer, and described acrylic ester monomer is ethyl acrylate, the mixture of one or more in butyl acrylate, acrylic acid-2-ethyl caproite, methyl methacrylate; Described crosslinking agent is isocyanates crosslinking agent, toluene di-isocyanate(TDI) or MDI; Described organophosphor nitrogen based flame retardant is tri-isopropyl benzene base phosphoric acid fat or dimethyl methyl phosphonate; Described solvent is toluene, dimethylbenzene, positive fourth fat or isopropyl alcohol.
9. the preparation method of the photovoltaic sun shading system described in any claim in claim 1-8, is characterized in that: comprise the steps:
The preparation of step 1, bracing frame: bracing frame is made up of carbon fiber or aluminum alloy materials is provided with the through hole that supplies screw and expansion bolt to pass on support frame as described above:
The preparation of step 2, sunbreaker (1): the carbon fiber board that is first 5~10mm by thickness cuts into the width that width is more than or equal to window, the sheet material that length is 1~1.5m;
The preparation of step 3, photovoltaic layer (2): seal up rete (4) in the surface coverage of described flexible thin-film battery assembly (3), described rete (4) is TPT polyester film or ethene-TFE copolymer film, and applies nanoscale organic silicon acrylic coating or the nanoscale fluorocarbon coating with anti-pollution function in the outside of described rete (4);
Step 4, bonding: prepare flame-proof type polyalcohol cementing agent, with described flame-proof type polyalcohol cementing agent, flexible thin-film battery assembly (3) is pasted to the external surface of described sunbreaker (1);
Step 5, merging encapsulation: the order according to fexible film photovoltaic cell component (3), flame-proof type polyalcohol cementing agent, carbon fiber board stacks gradually, through roll-in and autoclave processing, make each layer assembly and material close adhesion, obtain photovoltaic sheet material, last again by be fixed on the surrounding of described photovoltaic sheet material with the frame that aluminium alloys or carbon fibre material are made, obtain product.
10. the preparation method of photovoltaic sun shading system according to claim 9, is characterized in that: the preparation method of described flame-proof type polyalcohol cementing agent comprises the steps:
A, in the mixer of temperature-adjustable, first add acrylics monomer, temperature is risen to 50~60 degree, keep temperature 5~7 hours, make acrylics emulsion;
B, maintenance 50~60 are spent temperature-resistant, add the solvent of 1/3 volume in the acrylics emulsion of making, and stir, and are processed into mother liquor first;
C, temperature be 40~50 degree conditions under, by residue 2/3 volume solvent evenly mix with organophosphor nitrogen based flame retardant, make mother liquor second;
D, temperature be 50~60 degree conditions under, described mother liquor first and described mother liquor second two components are evenly mixed, slowly add subsequently crosslinking agent and stir, finally make flame-proof type polyalcohol cementing agent;
The preparation method of described organosilicon-modified acrylic coating comprises the steps: load weighted fungusproof anti-corrosion agent and ethylene glycol, pH adjusting agent adds in organosilicon-acrylic resin emulsion, with the rotating speed premix of 800 revs/min, fully stir about 20~30min, disperse 10~15min with the rotating speeds of 1500 revs/min, in the process stirring, add the defoamer of 1/3 weight, fully disperse 15~20min with the rotating speed of 800 revs/min again, and add and coalescents, the deionized water that plasticizing agent mixes, add again the defoamer of 2/3 weight, be uniformly mixed, be mixed with organosilicon-modified acrylic coating,
Described nano-fluorine carbon preparation method for coating comprises the steps: proportionally to take nano titanium oxide, joins in coating dilution, disperses to mix, and mixing time is 1 hour; Then add successively fluorocarbon resin and curing compound, stir, make nano-fluorine carbon coating.
CN201410108681.3A 2014-03-22 2014-03-22 A kind of photovoltaic sun shading system and preparation method thereof Active CN103938810B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201410108681.3A CN103938810B (en) 2014-03-22 2014-03-22 A kind of photovoltaic sun shading system and preparation method thereof

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201410108681.3A CN103938810B (en) 2014-03-22 2014-03-22 A kind of photovoltaic sun shading system and preparation method thereof

Publications (2)

Publication Number Publication Date
CN103938810A true CN103938810A (en) 2014-07-23
CN103938810B CN103938810B (en) 2017-03-15

Family

ID=51186661

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201410108681.3A Active CN103938810B (en) 2014-03-22 2014-03-22 A kind of photovoltaic sun shading system and preparation method thereof

Country Status (1)

Country Link
CN (1) CN103938810B (en)

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104356786A (en) * 2014-11-14 2015-02-18 无锡中洁能源技术有限公司 Solar cell back panel fluorine paint and preparation method thereof
WO2018059561A1 (en) * 2016-09-30 2018-04-05 Allnex Belgium S.A. Radiation curable compositions with anti-stain properties
CN109175383A (en) * 2018-08-28 2019-01-11 鑫威铝业(漳州)有限公司 A kind of solar battery aluminium alloy post preparation process
CN109220717A (en) * 2018-08-28 2019-01-18 中国农业科学院农田灌溉研究所 A method of can be carried out irrigation using the sun
WO2024042759A1 (en) * 2022-08-22 2024-02-29 積水化学工業株式会社 Laminated body and solar power generation system

Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5482569A (en) * 1993-07-28 1996-01-09 Fuji Electric Co., Ltd. Roof for generating electricity by solar light
CN201901985U (en) * 2010-08-25 2011-07-20 河南科达节能环保有限公司 Novel energy-saving building
CN202007489U (en) * 2011-03-31 2011-10-12 伊川县宇光新能源照明开发有限公司 Rainproof sun shade shed with solar cells
CN202214917U (en) * 2011-08-18 2012-05-09 沈阳远大铝业工程有限公司 Solar photovoltaic power generation external sun-shading device
CN103184800A (en) * 2011-12-29 2013-07-03 王广武 Building with triangular solar photovoltaic conversion structure
CN103422642A (en) * 2013-08-22 2013-12-04 烟台斯坦普精工建设有限公司 Flexible photovoltaic decorating wall material for outer wall and manufacturing method thereof
CN203821721U (en) * 2014-03-22 2014-09-10 烟台斯坦普精工建设有限公司 Photovoltaic sunshading system

Patent Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5482569A (en) * 1993-07-28 1996-01-09 Fuji Electric Co., Ltd. Roof for generating electricity by solar light
CN201901985U (en) * 2010-08-25 2011-07-20 河南科达节能环保有限公司 Novel energy-saving building
CN202007489U (en) * 2011-03-31 2011-10-12 伊川县宇光新能源照明开发有限公司 Rainproof sun shade shed with solar cells
CN202214917U (en) * 2011-08-18 2012-05-09 沈阳远大铝业工程有限公司 Solar photovoltaic power generation external sun-shading device
CN103184800A (en) * 2011-12-29 2013-07-03 王广武 Building with triangular solar photovoltaic conversion structure
CN103422642A (en) * 2013-08-22 2013-12-04 烟台斯坦普精工建设有限公司 Flexible photovoltaic decorating wall material for outer wall and manufacturing method thereof
CN203821721U (en) * 2014-03-22 2014-09-10 烟台斯坦普精工建设有限公司 Photovoltaic sunshading system

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104356786A (en) * 2014-11-14 2015-02-18 无锡中洁能源技术有限公司 Solar cell back panel fluorine paint and preparation method thereof
WO2018059561A1 (en) * 2016-09-30 2018-04-05 Allnex Belgium S.A. Radiation curable compositions with anti-stain properties
US11359110B2 (en) 2016-09-30 2022-06-14 Allnex Belgium S.A. Radiation curable compositions with anti-stain properties
CN109175383A (en) * 2018-08-28 2019-01-11 鑫威铝业(漳州)有限公司 A kind of solar battery aluminium alloy post preparation process
CN109220717A (en) * 2018-08-28 2019-01-18 中国农业科学院农田灌溉研究所 A method of can be carried out irrigation using the sun
CN109175383B (en) * 2018-08-28 2020-10-23 鑫威铝业(漳州)有限公司 Preparation process of solar cell aluminum alloy bracket
WO2024042759A1 (en) * 2022-08-22 2024-02-29 積水化学工業株式会社 Laminated body and solar power generation system

Also Published As

Publication number Publication date
CN103938810B (en) 2017-03-15

Similar Documents

Publication Publication Date Title
AU2017312823B2 (en) Packaging material for photovoltaic module and method for preparing packaging material
EP3591719A1 (en) Highly reflective gain type photovoltaic packaging adhesive film and usage
CN103938810A (en) Photovoltaic sun-shading system and manufacturing method thereof
CN103410289B (en) A kind of foam glass heat insulating photovoltaic decoration integrated board and preparation method thereof
CN203800062U (en) Light solar photovoltaic power generation system assembly
CN103233560B (en) A kind of photovoltaic devices of integrated building guardrail integral
CN103929120A (en) Building outer-wall photovoltaic power generation system and manufacturing method thereof
CN102373757A (en) Double-layer integrated unit type photovoltaic breathing curtain wall
CN203827248U (en) Photovoltaic power generation system for building exterior wall
CN203821721U (en) Photovoltaic sunshading system
CN103944497A (en) Balcony embedded photovoltaic power generation system and manufacturing method thereof
CN103422641A (en) Fire-proof thermal-insulation photovoltaic decoration composite board and preparation method thereof
CN201620531U (en) Building integrated photovoltaic solar wall board
CN103441172A (en) Black solar power generation building material for roof and solar power generation device for roof
CN203475749U (en) Foam glass heat-preservation photovoltaic and decoration integrated board
CN203514692U (en) Fireproof heat-preservation photovoltaic decorative composite board
CN201810173U (en) Solar air conditioning window
JP2013044187A (en) Building
CN202406650U (en) Solar photovoltaic greenhouse
CN203827252U (en) Balcony inlaid photovoltaic power generation system
Kaldani Building integrated photovoltaic systems
WO2019095826A1 (en) Self-heating rolled material
CN105162166A (en) High-rise residential building air-conditioner position photovoltaic louver grid-connected power generation system
CN203821723U (en) Photovoltaic sunshading rain awning system
CN215331028U (en) Power generation building material sunshade

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C10 Entry into substantive examination
SE01 Entry into force of request for substantive examination
C14 Grant of patent or utility model
GR01 Patent grant
TR01 Transfer of patent right

Effective date of registration: 20170830

Address after: 265500 No. 107 Jin Shan Road, Fushan District, Shandong, Yantai

Patentee after: BODISUN NEW ENERGY SCIENCE & TECHNOLOGY Co.,Ltd.

Address before: 264006 Yantai economic and Technological Development Zone, Shandong, China River Industrial Park, Yantai

Patentee before: YANTAI SITANPU FINE CONSTRUCTION Co.,Ltd.

TR01 Transfer of patent right
TR01 Transfer of patent right
TR01 Transfer of patent right

Effective date of registration: 20201130

Address after: 538100 Shima formation, Pingfeng village, Malu Town, Dongxing City, Fangchenggang City, Guangxi Zhuang Autonomous Region

Patentee after: Dongxing hongshigu food and Beverage Co.,Ltd.

Address before: 265500 Jinshan Road, fukushan District, Yantai, Shandong Province, No. 107

Patentee before: BODISUN NEW ENERGY SCIENCE & TECHNOLOGY Co.,Ltd.

TR01 Transfer of patent right
TR01 Transfer of patent right

Effective date of registration: 20211130

Address after: 264200 No. 369-11, Shuangdao Road, Weihai high district, Weihai City, Shandong Province

Patentee after: Weihai Regional Innovation Center Co.,Ltd.

Address before: 538100 Shima formation, Pingfeng village, Ma Lu Town, Dongxing City, Fangchenggang City, Guangxi Zhuang Autonomous Region

Patentee before: Dongxing hongshigu food and Beverage Co.,Ltd.

TR01 Transfer of patent right
TR01 Transfer of patent right

Effective date of registration: 20230131

Address after: No.102 Shenyang Road Weihai Shandong 264200

Patentee after: Weidu Energy Technology Co.,Ltd.

Address before: 264200 No. 369-11, Shuangdao Road, Weihai high district, Weihai City, Shandong Province

Patentee before: Weihai Regional Innovation Center Co.,Ltd.