CN203514692U - Fireproof heat-preservation photovoltaic decorative composite board - Google Patents
Fireproof heat-preservation photovoltaic decorative composite board Download PDFInfo
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- CN203514692U CN203514692U CN201320513572.0U CN201320513572U CN203514692U CN 203514692 U CN203514692 U CN 203514692U CN 201320513572 U CN201320513572 U CN 201320513572U CN 203514692 U CN203514692 U CN 203514692U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B10/00—Integration of renewable energy sources in buildings
- Y02B10/10—Photovoltaic [PV]
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B10/00—Integration of renewable energy sources in buildings
- Y02B10/20—Solar thermal
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- Laminated Bodies (AREA)
Abstract
The utility model discloses a fireproof heat-preservation photovoltaic decorative composite board. The composite board is of a layered structure, and comprises a heat-preservation layer, a reinforced layer and a photovoltaic decorative layer from inside to outside in sequence. The heat-preservation layer is a rock wool board with the thickness of 30-100mm, and is sealed and wrapped by waterproof rolls. The photovoltaic decorative layer comprises a flexible thin-film cell pack, a film layer and a coating layer from inside to outside in sequence. The rock wool is used as a heat-preservation board and as a bottom board, waterproof and reinforced processing is carried out on the rock wool through the waterproof rolls and inorganic boards, flexible thin-film solar photovoltaic cell packs of amorphous silicon are used as the photovoltaic decorative layer, and the prepared fireproof heat-preservation photovoltaic decorative composite board has the advantages of high temperature and fire resistance, assemblage construction and compound photovoltaic heat preservation and decoration.
Description
Technical field
The utility model relates to building energy conservation and photoelectricity building field, is specifically related to a kind of fireproof heat insulating photovoltaic decoration composite plate.
Background technology
Energy-conserving and environment-protective, low-carbon economy, realizing Green Sustainable, is the only selection that the mankind defeat energy resource shortage, ecological deterioration and climate warming.Building has accounted for social total energy consumption nearly 50% from building to the energy consumption producing in the Life cycle of runing.Building energy conservation has become the key that fundamentally realizes whole society's energy-saving and emission-reduction, Green Development.Development through decades, the building energy conservation of the developed countries such as America and Europe is from single external wall outer insulation, develop into peripheral structure thermal insulation is combined with the comprehensive utilization of regenerative resource, by the system integration and the integrated application of passive and active power-saving technology and renewable energy technologies, when reducing building energy consumption to greatest extent, make full use of solar energy and provide continuable clean energy resource to building.
Solar photovoltaic building is integrated has proposed a 21 century " building produces the new ideas of the energy ".By the peripheral structure surface at building, lay Photovoltaic array and produce electric power, for architectural resource system power supply, realize the integrated of building and photovoltaic generation, making building is that the producer of electric power is again the user of electric power, switching political loyalty can be self energy supply, and it will become focus and the direction of following Green Architectural Development.At present, the countries in the world that comprise the developed countries such as Europe, the United States, Japan are all in the research of actively developing photovoltaic and building and combining, particularly using photovoltaic building materials and BIPV (Building Integrated PV) technology (BIPV) as research emphasis.But up to now, BIPV (Building Integrated PV) project is truly number few, it is most of for crystal silicon cell plate is attached to the placed type photovoltaic system on roofing by various forms of support systems, this system exist affect building integral attractive in appearance, increase the defects such as built-loading, destruction roof waterproof and fire prevention system, particularly poor stability.How to develop photovoltaic building materials, photovoltaic product is become there is heat-insulation and heat-preservation, water proof wind proof, safe and reliable, long-lived building materials component and building inalienable part, become the key of photoelectricity architectural development.
Now, the installation of photovoltaic cell component focuses mostly at building roof, and outside vertical surface of building does not but very effectively utilize.Appearance along with the good amorphous silicon film battery of the low light level, amorphous silicon film battery plate has been made into photovoltaic glass, for building glass curtain wall system, but due to taking place frequently of glass self-explosion and fall event in building glass curtain wall project, the potential safety hazard of curtain wall has become the focus that the whole society pays close attention to.Shanghai City will take the lead in having put into effect < < Shanghai City building glass curtain wall management method > > the end of the year 2011, forbid more than two layers adopting curtain wall in the newly-built, renovating and enlarging engineering of house, hospital, school and facade rebuilding engineering.This behave is indicating the increase along with domestic construction height, the population density, the potential safety hazard that particularly building glass curtain wall self exists, and its application can be subject to increasing restriction.Solar-energy photo-voltaic cell and heat-insulating decorative composite board are combined as a whole, form and integrate the multi-functional photovoltaic curtain wall systems such as photovoltaic generation, thermal insulation, fire-proof and water-proof and architectural decoration, will greatly expand photovoltaic in architectural range of application.China Patent No. is to disclose a kind of solar photovoltaic assembly with heat-insulating property in the utility model patent manual of CN201444481U; China Patent No. is to disclose a kind of solar electrical energy generation exterior insulation compound plate of outer wall in the utility model patent manual of CN201521070U.China Patent No. is to disclose respectively a kind of power generation and heat insulation integrated building element in CN101781920A and the China Patent No. utility model patent manual that is CN201391052Y.The solar cell that above patent adopts is solar battery glass plate, warming plate is the flammable or difficult combustion organic foam plastics such as extruded polystyrene or blown polyurethane materials, does not meet country and must adopt A level not fire the requirement of heat insulating material to external wall of high-rise building.
Under existing external thermal insulation system system, to have security performance high in exploitation, possesses photovoltaic generation, thermal insulation and decorate properties simultaneously, can batch production, standardized production, quality controllable fire-type decorative heat preservation composite board be significant.
Utility model content
The technical problems to be solved in the utility model is to provide a kind of fire-type photovoltaic heat-insulating decorative composite board, and described composite plate has advantages of high temperature fire prevention, construction assemblingization, photovoltaic insulation and decoration Composite.
The utility model fireproof heat insulating photovoltaic decoration composite plate, described composite plate is layer structure, comprises successively from the inside to the outside insulation layer, enhancement Layer and photovoltaic decorative layer, described insulation layer is rock cotton board.
Fireproof heat insulating photovoltaic decoration composite plate described in the utility model, wherein said rock cotton board thickness is 30~100mm, by waterproof roll sealed envelope.
Fireproof heat insulating photovoltaic decoration composite plate described in the utility model, the rock wool fibers orientation of wherein said rock cotton board, perpendicular to the horizontal plane of described rock cotton board, makes each interlayer pull strength>=0.2MPa, described rock wool fibers density>=250g/m
3, unit weight>=200kg/m
3, compressive strength>=0.1MPa, hydrophobic rate>=98%.
Fireproof heat insulating photovoltaic decoration composite plate described in the utility model, wherein said photovoltaic decorative layer comprises flexible thin-film battery assembly, rete and dope layer from the inside to the outside successively.
Fireproof heat insulating photovoltaic decoration composite plate described in the utility model, wherein said flexible thin-film battery assembly is the hull cell that adopts deposition of transparent conductive film to prepare in the flexible flexible substrate such as plastics, described flexible thin-film solar cell comprises: non-crystalline silicon flexible solar hull cell, copper indium potassium selenium film too can battery (CIGS), cadmium telluride diaphragm solar battery (CdTe), DSSC (DSC) or organic thin film solar cell, described rete is fluorine-containing TPT polyester film or ethene-TFE copolymer (ETFE) film, thickness is 250um, the main waterproof that rises, the effect of isolation.Described dope layer is that nano level anti-fouling and self-cleaning coating coating forms by particle diameter, preferred described dope layer is nanoscale organosilicon modified crylic acid resin coating or nanoscale fluorocarbon resin coating, thickness is 30~70um, mainly play self-cleaning, anti-pollution, this coating can effectively avoid the pollutants such as dust, haze to reduce the photoelectric transformation efficiency of solar cell.
Fireproof heat insulating photovoltaic decoration composite plate described in the utility model, wherein said enhancement Layer is calcium silicate board or cement pressure plate, and thickness is 3~5mm, and its modulus of elasticity is consistent with described insulation layer.Described calcium silicate board be take high-quality high-mark cement as matrix material, and be equipped with natural fiber and strengthen, through special techniques such as vanguard technology moulding, pressurization, high-temperature steam curings, process and make, a kind of novel building and industrial sheet material with premium properties, its product fire prevention, protection against the tide, sound insulation, Anti-moth-eating, durability is strong; Described cement pressure plate claims again cement fibre pressure plate, that to take natural fiber and cement be raw material, a kind of building panel forming through slurrying, moulding, cutting, pressurization, maintenance, there is the advantages such as lightweight, high-strength, waterproof, anticorrosion, fire prevention, be widely used in side fascia, curtain wall liner plate, composite wall faceplate in civilian and industrial construction; Described calcium silicate board and described cement pressure plate rely on its good physical and mechanical property and durability, can effectively protect insulation layer not to be subject to the destruction of long-term adverse circumstances; Select calcium silicate board and the cement pressure plate consistent with described insulation layer modulus of elasticity, can prevent the interlayer crack that described insulation layer and described enhancement Layer produce because of differential deformation.
Fireproof heat insulating photovoltaic decoration composite plate described in the utility model, wherein said waterproof roll is polymer cement mortar macromolecular compounded waterproof material, by tire base and polymer cement mortar, be composited, thickness is 1.5~2.5mm, and described tire base is the composite felt of polyester-cotton blend nonwoven and glass fiber reticular cloth.Described polymer cement mortar is that the copolymer that is polymerized by cement, aggregate and multiple single aggressiveness that can be dispersed in water stirs and forms, and can form unique composite mesh structure that has certain toughness, and described warming plate is played to protection and waterproof dual-use function.
Fireproof heat insulating photovoltaic decoration composite plate described in the utility model, together with wherein said insulation layer passes through polymer cement mortar adhesives with enhancement Layer, described enhancement Layer and photovoltaic decorative layer are bonded together by fire-type polymeric binder (west card one pack system high modulus polyurethane sealant).Described polymer cement mortar adhesive is to be stirred and formed by cement, aggregate and the organic polymer that can be dispersed in water, and polymer film forming under ambient conditions covers on cement granules, and it is strong bonding that cement body and aggregate are formed.Derivatized polymers has the ability that stops microcrack to occur and expand, and polymer cement mortar cementing agent is that the compatibility of the inorganic material such as inorganic material cementing agent and heat insulating material waterproofing course and calcium silicate board is good, and bonding firmly.Described fire-type polymeric binder-west card one pack system high modulus polyurethane sealant is a kind of similar ointment, once the moisture in ingress of air will be solidified into a kind of material of tough and tensile rubber-like solid, this cementing agent bonding force is strong, hot strength is large, there is again weatherability, vibration resistance simultaneously, with moistureproof, anti-foul smell with adapt to the feature that cold and hot variation is large, can realize the effective adhesive that has between flexible thin-film battery assembly plastic supporting base and warming plate enhancement Layer.
In described rock cotton board, fiber takes vertical vertical setting of types to place, make each interlayer pull strength >=0.2MPa, machine direction is perpendicular to the rock wool of warming plate horizontal plane, in the situation that density is lower, there is higher tensile strength, make system have higher security performance and system application under construction highly gets a promotion, be provided with electric energy draw junction box at warming plate inwall, junction box is connected with non-crystalline silicon flexible thin-film solar cell component layer circuit.
The utility model fireproof heat insulating photovoltaic decoration composite plate difference from prior art be the utility model adopted through by waterproof roll and inorganic plate, undertaken rock wool that waterproof and enhancing processed as warming plate as base plate, using the flexible thin-film solar photovoltaic cell components such as non-crystalline silicon as photovoltaic decorative layer, the photovoltaic heat-insulating decorative composite board of the fire-proof function of making had both met the active demand of a large amount of utilities buildings to high-grade outer wall fireproof heat-preservation material, again for important technical foundation has been laid in the application of photovoltaic curtain wall system and popularization.In the utility model, through the rock cotton board by waterproof roll encapsulation process, can prevent from moisture, moisture and go mouldy entering rock cotton board inside the pollution of the rock wool bits that produce in the time of preventing again rock cotton board processing cutting to the injury of human body and environment; Rock wool fibers direction in described rock cotton board, perpendicular to the horizontal plane of warming plate, in the situation that density is lower, has higher tensile strength, makes security performance and system application under construction lifting highly that system is higher.
The photovoltaic heat-insulating decorative composite board with fire-proof function described in the utility model had both been avoided the inflammable non-resistant defect of organic insulation material, given full play to again the thin light weights of flexible thin-film solar photovoltaic cell component body such as non-crystalline silicon, pliability good, the low light level, scattered light, diffused light are all had to the very strong advantages such as absorptive capacity, this utility model provides a science and practicable system scheme in architectural comprehensive utilization for external wall outer insulation and photovoltaic generating system.In described composite plate, the tensile strength at photovoltaic decorative layer, enhancement layer, each interface of insulation layer Ji Yu body of wall basic unit is high, total system safety factor is large; By handle, build peripheral systems and protect and photovoltaic technology integrated fusion, make the photovoltaic building materials component that possesses various functions and specification, significantly reduced photoelectricity building construction cost; And there is high temperature of fire fire prevention, construction assemblingization, photovoltaic insulation and decoration Composite.
Below in conjunction with accompanying drawing, fireproof heat insulating photovoltaic decoration composite plate of the present utility model is described further.
Accompanying drawing explanation
Fig. 1 is the structural representation of the utility model fireproof heat insulating photovoltaic decoration composite plate;
Fig. 2 is the partial enlarged drawing at the M place of Fig. 1.
The specific embodiment
Embodiment 1
A fireproof heat insulating photovoltaic decoration composite plate, is layer structure as depicted in figs. 1 and 2, comprises successively from the inside to the outside insulation layer 2, enhancement Layer 3 and photovoltaic decorative layer 9, and described insulation layer 2 is rock cotton board, and thickness is 30mm, by waterproof roll 1 sealed envelope; The rock wool fibers orientation of described rock cotton board, perpendicular to the horizontal plane of described rock cotton board, makes each interlayer pull strength>=0.2MPa, described rock wool fibers density>=250 gram/m
3, unit weight>=200kg/m
3, compressive strength>=0.1MPa, hydrophobic rate>=98%; Described waterproof roll 1 is polymer cement mortar macromolecular compounded waterproof material, by tire base and polymer cement mortar, is composited, and thickness is 1.5mm, and described tire base is the composite felt of polyester-cotton blend nonwoven and glass fiber reticular cloth.
Described photovoltaic decorative layer 9 comprises flexible thin-film battery assembly 5, rete 8 and dope layer 7 from the inside to the outside successively; Described flexible thin-film battery assembly 5 is the hull cells that adopt deposition of transparent conductive film to prepare in the flexible flexible substrate such as plastics, 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 8 is fluorine-containing TPT polyester film or ethene-TFE copolymer (ETFE) film, and thickness is 250um; Described dope layer 7 is that nano level anti-fouling and self-cleaning coating coating forms by particle diameter; Described anti-fouling and self-cleaning coating is nanoscale organosilicon-modified acrylic coating or nanoscale fluorocarbon coating, and thickness is 30um.Described enhancement Layer 3 is cement pressure plate, and thickness is 3mm, and its modulus of elasticity is consistent with described insulation layer 2; Described insulation layer 2 and enhancement Layer 3 are bonded together by polymer cement mortar adhesive 4, and described enhancement Layer 3 and photovoltaic decorative layer 9 are bonded together by fire-type polymeric binder 6.
A fireproof heat insulating photovoltaic decoration composite plate, wherein said insulation layer 2 thickness are 100mm, and described waterproof roll 1 thickness is 2.5mm, and described flexible thin-film battery assembly 5 is copper indium potassium selenium thin-film solar cells; Described rete 8 thickness are 250um; Described dope layer 7 thickness are 70um, and described enhancement Layer 3 is calcium silicate board, and thickness is 5mm, and other are with embodiment 1.
A fireproof heat insulating photovoltaic decoration composite plate, wherein said insulation layer 2 thickness are 60mm, and described waterproof roll 1 thickness is 2mm, and described flexible thin-film battery assembly 5 is cadmium telluride diaphragm solar battery; Described rete 8 thickness are 250um; Described dope layer 7 thickness are 50um, and described enhancement Layer 3 is cement pressure plate, and thickness is 3mm, and other are with embodiment 1.
A method of preparing fireproof heat insulating photovoltaic decoration composite plate described in the utility model, comprises the steps:
(1) preparation of insulation layer 2: use waterproof roll 1 by described rock cotton board sealed envelope, the thickness of described insulation layer 2 is 30~100mm, rock wool fibers in described rock cotton board is processed through hydrophobic, and the orientation of described rock wool fibers is perpendicular to the horizontal plane of described rock cotton board;
The preparation method of described waterproof roll 1 is: flexible polymer cement mortar is evenly coated to the both sides of described tire base by machine-processed scraper plate, formed the waterproof roll 1 of wide 1.2 meters, the waterproof roll of making 1 is dried and maintenance;
The method of described rock wool fibers being carried out to hydrophobic processing is: in rock wool fibers manufacturing process, at rock wool fibers surface spraying organosilicon moisture repellent;
The oven dry of described waterproof roll 1 and maintenance process are: the blowing hot wind device auto-drying that the waterproof roll 1 of making adopts in production line, reach polymer mortar initial set, waterproof roll 1 after rolling, under the interior temperature of 5~38 ℃, natural drying maintenance is standby after 28 days;
(2) preparation of enhancement Layer 3: select calcium silicate board with microporous or the cement pressure plate of 3~5mm, carry out waterproof and resistance to deformation and process;
The waterproof of described enhancement Layer 3 and resistance to deformation processing method are: at the external coating acid-organosilicon crylic acid water-repellent paint of described enhancement Layer 3; Described calcium silicate board is to take cement as matrix material, is equipped with natural fiber and strengthens, and through moulding, pressurization, high-temperature steam curing, processes and makes; Described cement pressure plate is that to take natural fiber and cement be raw material, through slurrying, moulding, cutting, pressurization, maintenance, forms;
(3) preparation of photovoltaic decorative layer 9: seal up TPT polyester film or ethene-TFE copolymer (ETFE) rete 8 in the surface coverage of described flexible thin-film battery assembly 5, and apply nanoscale organic silicon acrylic coating or the nanoscale fluorocarbon resin coating 7 with anti-pollution function in the outside of described TPT polyester film or ethene-TFE copolymer (ETFE) rete 8; The production method of described flexible thin-film battery assembly 5 comprises: hull cell volume to volume is produced, cell piece is assembled, photovoltaic component encapsulating;
(4) adopt polymer cement mortar cementing agent 4 bondings through described insulation layer 2 and the described enhancement Layer 3 of waterproof roll 1 sealed envelope; Described polymer cement mortar adhesive 4 is to be stirred and formed by cement, aggregate and the organic polymer that is dispersed in water;
(5) adopt west card one pack system high modulus polyurethane sealant bond described enhancement Layer 3 and photovoltaic decorative layer 9;
(6) merge encapsulation: the order according to fexible film photovoltaic cell component 5, west card one pack system high modulus polyurethane sealant, calcium silicate board or water pressure plate, polymer cement mortar cementing agent and rock-wool heat insulation plate stacks gradually, through roll-in and autoclave, process, make each layer assembly close adhesion, obtain product.
Fireproof heat insulating photovoltaic decoration composite plate is installed on the lighting surface of skin by the bonding mode combining with anchoring.Solar panel on every decoration composite plate has independently both positive and negative polarity ampere wires to draw, and electric lead and junction box are arranged in and are positioned at the wire slotted eye that prolongs composite plate length direction sidewall.During installation, electric lead in every composite plate is carried out to circuit by junction box and connect combination (connection of serial or parallel connection circuit), then utilize the structural joint between every decoration composite plate that electric lead guiding is connected to inverter, change direct current into alternating current, through being arranged on building switchbox within doors, serving electrical network (grid-connected use) or directly offer building load electricity consumption.With fluid sealant, the structural joint between composite plate is carried out to waterproof sealing insulation and process, electric lead wherein and junction box are carried out to the protection of waterproof, antifreeze, anti-high temperature.
Above-described embodiment is described preferred embodiment of the present utility model; not scope of the present utility model is limited; do not departing under the prerequisite of the utility model design spirit; various distortion and improvement that those of ordinary skills make the technical solution of the utility model, all should fall in the definite protection domain of the utility model claims.
Claims (8)
1. a fireproof heat insulating photovoltaic decoration composite plate, is characterized in that: described composite plate is layer structure, and comprise successively from the inside to the outside insulation layer, enhancement Layer and photovoltaic decorative layer, described insulation layer is rock cotton board.
2. fireproof heat insulating photovoltaic decoration composite plate according to claim 1, is characterized in that: described rock cotton board thickness is 30~100mm, by waterproof roll sealed envelope.
3. fireproof heat insulating photovoltaic decoration composite plate according to claim 1 and 2, it is characterized in that: the rock wool fibers orientation of described rock cotton board is perpendicular to the horizontal plane of described rock cotton board, make each interlayer pull strength>=0.2MPa, described rock wool fibers density>=250g/m
3, unit weight>=200kg/m
3, compressive strength>=0.1MPa, hydrophobic rate>=98%.
4. fireproof heat insulating photovoltaic decoration composite plate according to claim 3, is characterized in that: described photovoltaic decorative layer comprises flexible thin-film battery assembly, rete and dope layer from the inside to the outside successively.
5. fireproof heat insulating photovoltaic decoration composite plate according to claim 4, it is characterized in that: described flexible thin-film battery assembly is the hull cell that adopts deposition of transparent conductive film to prepare in the flexible flexible substrate such as plastics, is 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 250um; Described dope layer is that nano level anti-fouling and self-cleaning coating coating forms by particle diameter.
6. fireproof heat insulating photovoltaic decoration composite plate according to claim 5, is characterized in that: described enhancement Layer is cement pressure plate or calcium silicate board, and thickness is 3~5mm, and its modulus of elasticity is consistent with described insulation layer; Described anti-fouling and self-cleaning coating is nanoscale organosilicon-modified acrylic coating or nanoscale fluorocarbon coating, and thickness is 30~70um.
7. fireproof heat insulating photovoltaic decoration composite plate according to claim 2, it is characterized in that: described waterproof roll is polymer cement mortar macromolecular compounded waterproof material, by tire base and polymer cement mortar, be composited, thickness is 1.5~2.5mm, and described tire base is the composite felt of polyester-cotton blend nonwoven and glass fiber reticular cloth.
8. fireproof heat insulating photovoltaic decoration composite plate according to claim 7, it is characterized in that: together with described insulation layer passes through polymer cement mortar adhesives with enhancement Layer, described enhancement Layer and photovoltaic decorative layer are bonded together by fire-type polymeric binder, and described fire-type cementing agent is west card one pack system high modulus polyurethane sealant.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201320513572.0U CN203514692U (en) | 2013-08-22 | 2013-08-22 | Fireproof heat-preservation photovoltaic decorative composite board |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201320513572.0U CN203514692U (en) | 2013-08-22 | 2013-08-22 | Fireproof heat-preservation photovoltaic decorative composite board |
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| Publication Number | Publication Date |
|---|---|
| CN203514692U true CN203514692U (en) | 2014-04-02 |
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| Application Number | Title | Priority Date | Filing Date |
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| CN201320513572.0U Withdrawn - After Issue CN203514692U (en) | 2013-08-22 | 2013-08-22 | Fireproof heat-preservation photovoltaic decorative composite board |
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| CN (1) | CN203514692U (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103422641A (en) * | 2013-08-22 | 2013-12-04 | 烟台斯坦普精工建设有限公司 | Fire-proof thermal-insulation photovoltaic decoration composite board and preparation method thereof |
| CN109024957A (en) * | 2018-09-25 | 2018-12-18 | 陈银宝 | A kind of multi-functional A grades of fireproof heat insulating coating systems and its production method |
-
2013
- 2013-08-22 CN CN201320513572.0U patent/CN203514692U/en not_active Withdrawn - After Issue
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103422641A (en) * | 2013-08-22 | 2013-12-04 | 烟台斯坦普精工建设有限公司 | Fire-proof thermal-insulation photovoltaic decoration composite board and preparation method thereof |
| CN103422641B (en) * | 2013-08-22 | 2016-05-04 | 烟台斯坦普精工建设有限公司 | A kind of fireproof heat insulating photovoltaic decoration composite plate and preparation method thereof |
| CN109024957A (en) * | 2018-09-25 | 2018-12-18 | 陈银宝 | A kind of multi-functional A grades of fireproof heat insulating coating systems and its production method |
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Granted publication date: 20140402 Effective date of abandoning: 20160504 |
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