CN108625737A - Aerogel composite glass and preparation method thereof built in a kind of - Google Patents

Aerogel composite glass and preparation method thereof built in a kind of Download PDF

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Publication number
CN108625737A
CN108625737A CN201710162203.4A CN201710162203A CN108625737A CN 108625737 A CN108625737 A CN 108625737A CN 201710162203 A CN201710162203 A CN 201710162203A CN 108625737 A CN108625737 A CN 108625737A
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China
Prior art keywords
glass
aeroge
supporter
sealing
built
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CN201710162203.4A
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Chinese (zh)
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CN108625737B (en
Inventor
卢梦言
卢军
卢孟磊
张丁日
卢斌
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Changsha Xingna Aerogel Co Ltd
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Changsha Xingna Aerogel Co Ltd
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Priority to CN201710162203.4A priority Critical patent/CN108625737B/en
Publication of CN108625737A publication Critical patent/CN108625737A/en
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Publication of CN108625737B publication Critical patent/CN108625737B/en
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    • EFIXED CONSTRUCTIONS
    • E06DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
    • E06BFIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
    • E06B3/00Window sashes, door leaves, or like elements for closing wall or like openings; Layout of fixed or moving closures, e.g. windows in wall or like openings; Features of rigidly-mounted outer frames relating to the mounting of wing frames
    • E06B3/66Units comprising two or more parallel glass or like panes permanently secured together
    • E06B3/6612Evacuated glazing units
    • CCHEMISTRY; METALLURGY
    • C03GLASS; MINERAL OR SLAG WOOL
    • C03CCHEMICAL COMPOSITION OF GLASSES, GLAZES OR VITREOUS ENAMELS; SURFACE TREATMENT OF GLASS; SURFACE TREATMENT OF FIBRES OR FILAMENTS MADE FROM GLASS, MINERALS OR SLAGS; JOINING GLASS TO GLASS OR OTHER MATERIALS
    • C03C27/00Joining pieces of glass to pieces of other inorganic material; Joining glass to glass other than by fusing
    • C03C27/06Joining glass to glass by processes other than fusing
    • C03C27/08Joining glass to glass by processes other than fusing with the aid of intervening metal
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04BGENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
    • E04B2/00Walls, e.g. partitions, for buildings; Wall construction with regard to insulation; Connections specially adapted to walls
    • E04B2/88Curtain walls
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04DROOF COVERINGS; SKY-LIGHTS; GUTTERS; ROOF-WORKING TOOLS
    • E04D3/00Roof covering by making use of flat or curved slabs or stiff sheets
    • E04D3/02Roof covering by making use of flat or curved slabs or stiff sheets of plane slabs, slates, or sheets, or in which the cross-section is unimportant
    • E04D3/06Roof covering by making use of flat or curved slabs or stiff sheets of plane slabs, slates, or sheets, or in which the cross-section is unimportant of glass or other translucent material; Fixing means therefor
    • EFIXED CONSTRUCTIONS
    • E06DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
    • E06BFIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
    • E06B3/00Window sashes, door leaves, or like elements for closing wall or like openings; Layout of fixed or moving closures, e.g. windows in wall or like openings; Features of rigidly-mounted outer frames relating to the mounting of wing frames
    • E06B3/66Units comprising two or more parallel glass or like panes permanently secured together
    • E06B3/67Units comprising two or more parallel glass or like panes permanently secured together characterised by additional arrangements or devices for heat or sound insulation or for controlled passage of light
    • E06B3/6715Units comprising two or more parallel glass or like panes permanently secured together characterised by additional arrangements or devices for heat or sound insulation or for controlled passage of light specially adapted for increased thermal insulation or for controlled passage of light
    • EFIXED CONSTRUCTIONS
    • E06DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
    • E06BFIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
    • E06B3/00Window sashes, door leaves, or like elements for closing wall or like openings; Layout of fixed or moving closures, e.g. windows in wall or like openings; Features of rigidly-mounted outer frames relating to the mounting of wing frames
    • E06B3/66Units comprising two or more parallel glass or like panes permanently secured together
    • E06B3/673Assembling the units
    • 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
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A30/00Adapting or protecting infrastructure or their operation
    • Y02A30/24Structural elements or technologies for improving thermal insulation
    • Y02A30/249Glazing, e.g. vacuum glazing
    • 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
    • Y02B80/00Architectural or constructional elements improving the thermal performance of buildings
    • Y02B80/22Glazing, e.g. vaccum glazing

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  • Engineering & Computer Science (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Chemical & Material Sciences (AREA)
  • Architecture (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • General Chemical & Material Sciences (AREA)
  • Geochemistry & Mineralogy (AREA)
  • Materials Engineering (AREA)
  • Organic Chemistry (AREA)
  • Physics & Mathematics (AREA)
  • Ceramic Engineering (AREA)
  • Electromagnetism (AREA)
  • Joining Of Glass To Other Materials (AREA)

Abstract

The present invention proposes a kind of built-in aerogel composite glass, including the vacuum suction device being arranged on glass seal and the glass seal, the glass seal by between two sheet glass, two sheet glass spaced support and glass cavity in the aeroge supporter that is arranged form, connected by low-temperature sealing material at the U-shaped sealing-in formed between two sheet glass and the spaced support.Its manufacturing method includes laying supporter step, sealing-in step, vacuum step.Built-in aerogel composite glass disclosed by the invention has preferable thermal insulation and translucency, is suitable for the fields such as green building and door and window, cladding glass and the lighting roof of super low energy consumption building and nearly zero energy consumption building.

Description

Aerogel composite glass and preparation method thereof built in a kind of
Technical field
The present invention relates to glass making techniques field, more particularly to a kind of built-in aerogel composite glass and its preparation side Method.
Background technology
It is used for the glass of building in the prior art, is primarily used to closing, daylighting, heat preservation.But in the winter of cold district The heat insulation effect in season, glass is unsatisfactory, and in the summer of hot-summer and cold-winter area or hot summer and warm winter region, the heat insulation of glass Also undesirable.With China's rapid development of economy, people's demands for quality of life are getting higher and higher, building doors and windows, glass curtain Wall area is increasing, and the heat exchange by door and window, glass curtain wall is caused to be got in the proportion built in being exchanged with outside heat Come bigger.In order to reduce the heat exchange by glass door and window, curtain wall, recent domestic develops many heat-insulation and heat-preservation glass Glass, by there are mainly three types of structures point:(1)The hollow glass being made of two or more layers simple glass;(2)By being coated with low-radiation film The hollow glass that glass is constituted;(3)The vacuum glass that negative pressure forms is pumped by set-point supporter among double glazing.Hollow glass Glass heat transfer coefficient is big, and airtight quality is decided by its service life;Low radiation coated glass can to greatest extent prevent too in summer Sunlight is got in, and is stopped to greatest extent from outdoor far infrared radiation, but the winter warmed oneself in needs, the outer heat of air lock Transmitance that is obviously outdated, and influencing visible light can be got in.Vacuum glass with its excellent heat-insulating property and The characteristics such as thin, light are one of ideal energy-saving glass.But it because of the reason of its vacuum cavity inside set point supporter, is easy Lead to stress raisers, until shock resistance is made to decline, there are security risks, and put supporter and constitute heat bridge, also restrict The further decreasing of vacuum glass heat transfer coefficient, is unable to reach theoretical boundary.In addition, improve vacuum layer thickness be conducive into One step reduces the Limiting Level of heat transfer coefficient, but is limited by existing vacuum glass sealing technology, and cavity sealing-in thickness is difficult to dash forward Broken 1mm.It would therefore be highly desirable to develop energy-saving effect can compare favourably with vacuum glass, the higher energy-saving glass of safety.
Invention content
The technical problem to be solved by the present invention is to:A kind of energy-saving effect is provided can compare favourably with vacuum glass, safety more High built-in aerogel composite glass and preparation method thereof, the built-in aerogel composite glass which produces not only have There are preferable heat preservation and insulation and translucency, but also there is excellent security performance, green building can be widely used in With the fields such as door and window, cladding glass and the lighting roof of super low energy consumption green building and nearly zero energy consumption green building.
The present invention solution be:(1)Using preset interval supporter low Temperature Soldering Technique.The study found that existing true Empty glass chamber sealing-in thickness is difficult to break through 1mm, is mainly restricted by gap capillary force, capillary force, which cannot be satisfied, makes fusing Seal, sealing materials be constrained in two blocks of glass composition gap in, satisfied sealing-in quality can not be obtained, product qualification rate is low.In order to The sealing-in for realizing wide arc gap vacuum glass, glass is positioned over by placing spaced support in weld seam in advance, then by seal, sealing materials Between glass and spaced support, the sealing-in sealing problem of wide arc gap vacuum glass is solved with this.In addition, by the way that interval support is arranged Body, moreover it is possible to the mechanical property of vacuum glass is improved by complex intensifying.(2)Body technique is supported using transparent thermal insulation face.With itself That is, supporter of the transparency aerogel with superinsulation heat-insulating property as vacuum glass will instead of traditional point supporter Traditional point support is converted into face support, eliminates the stress raisers problem generated by supporter from the root cause, to Significantly improve the security performance of intracavitary negative pressure glass.In addition, replacing traditional support with the aeroge supporter of ultra-low thermal conductivity Body can also reduce the heat bridge effect caused by the higher traditional support body of thermal coefficient, further decrease the heat transfer of vacuum glass Figure limit.(3)Using the synergistic effect technology of aeroge and negative pressure.Aeroge thermal coefficient under normal pressure 0.010 ~ Within the scope of 0.015W/m k.The study found that synergistic effect is generated by the nano-scale for implementing negative pressure technique and aeroge, it can be complete The convection current heat transfer of gas in full barrier intracavitary aeroge hole, aeroge thermal coefficient can be made to be reduced to 0.004 W/m k hereinafter, Aeroge thickness is less than 5mm, can reach vacuum glass heat-insulating level(Heat transfer coefficient is about 0.5W/m2·k), solve energy saving glass The lightening problem of glass.
What the solution of the present invention was realized in:A kind of preparation method of built-in aerogel composite glass, including with Lower step:
(1)Supporter is laid, aeroge supporter is laid on glass, spaced support is layed in glass edge, Another sheet glass is positioned on aeroge supporter and spaced support again;
(2)Sealing-in, the low-temperature sealing material of fusing is filled continuously with formed between two sheet glass and spaced support it is U-shaped Gap location, soldering and sealing obtain the glass seal of interior aerogel-congtg supporter;
(3)It vacuumizes, by vacuum suction device, glass seal is evacuated.
In this way, through the above steps, one kind can be obtained and taken out as shell, at least one vacuum by least two blocks of glass The aerogel composite glass of aeroge supporter is provided in the sealing cavity and cavity of device of air.This built-in aeroge support The energy-saving effect of the aerogel composite glass of body can compare favourably with vacuum glass, since the transparency aerogel being provided with is with excellent Different heat preservation and insulation, in addition in cavity vacuum belt come there are few gas molecule convection current thermal phenomenons, therefore, so as to get it is built-in Aerogel composite glass has very excellent heat preservation and insulation.And the connection of built-in aeroge supporter and glass will show There is the point support of vacuum glass to replace with face support, safety higher, further, since aeroge has preferable resistance to compression compression deformation Characteristic, can effectively support because in cavity vacuum due to the action of compressive stress that generates, while avoiding stress concentration phenomenon, be a kind of Safety-type super energy-saving glass.Therefore, the built-in aerogel composite glass which produces not only have preferably every Hot heat-insulating property also has excellent security performance, and also solves aeroge supporter and supported more than existing vacuum glass The problems such as reinforcing edge sealing is carried out using low-temperature sealing material when body thickness.
Another technical solution of the present invention is on above-mentioned basis, is carried out before the glass cavity body making step The pretreatment on surface and wettability treatment at glass sealing, specially:Surface at glass sealing first is cleaned with acid or alkaline solution, Surface is coated with one layer of wetting agent at glass sealing again;The wetting agent is dodecyl sodium sulfate, lauryl sulfate, dialkyl group Sulfosuccinate, castor oil hydrosulphate, Fixanol chloride, alkylphenol polyvinylether, polyoxyethylene alkyl ether, It is one or more in polyoxyethylene glycol Arrcostab, acetylene ethylene glycol.In this way, usually acid solution is H2SO4And HNO3's Mixed solution etc., alkaline solution NaOH, Na2CO3Deng surface first passes through the clear of acid solution or alkaline solution at 1 sealing-in of glass It washes, to achieve the purpose that remove degreasing and impurity, convenient for preferably carrying out wettability treatment in next step;Then again after the pre-treatment At glass sealing surface be coated with one layer of wetting agent, reduce by 1 sealing-in of glass at surface tension, with reach increase glass surface with it is low The purpose of interface bond strength between intermediate temperature sealing material further ensures the leakproofness at glass sealing.
Another technical solution of the present invention is that on above-mentioned basis, the shape of the aeroge supporter is tablet One or more in shape, graininess, cylinder, obform body.Wherein, obform body is cylinder and flat integrated molding Structure.In this way, when aeroge supporter is graininess, cavity is filled up to play a supporting role through closely knit processing, works as aeroge When supporter is other shapes, aeroge supporter is covered with or array distribution is in glass cavity, and thickness and cavity are high Degree is suitable to play a supporting role, and thus has superinsulation heat insulating ability with itself in built-in aerogel composite glass inner cavity Energy, large-sized transparency aerogel do supporter, realize the various ways such as face support, block support, column supports, diversification supports, On the one hand the heat bridge phenomenon caused by the higher conventional point supporter of heat transfer coefficient is avoided, further improves built-in aeroge On the other hand the heat preservation and insulation of compound glass thoroughly eliminates the condition for generating stress concentration from the root cause, to aobvious Write the security performance for improving built-in aerogel composite glass.
Another technical solution of the present invention is that on above-mentioned basis, the aeroge support body material further includes surface layer Low-density and the highdensity aeroge supporter of core or aeroge compound support.In this way, the thermal coefficient of usual aeroge Not less than 0.010W/m k, in order to keep the heat transfer coefficient k values that its heat transfer coefficient reaches vacuum glass horizontal(K values about 0.5W/m2· k), the thickness of traditional aeroge at least needs 15mm, cooperates with negative pressure technique using aeroge, passes through and implement negative pressure technique and aeroge Nano-scale generate synergistic effect, completely obstruct intracavitary aeroge hole in gas convection current heat transfer, make aeroge heat conduction system Number is down to 0.004 W/m k hereinafter, to greatly reduce aeroge thickness, and optimization thickness is in 1mm ~ 5mm.When aeroge supports When body is surface layer low-density and core high density, it can be obtained that internal intensity is higher and the flexible aeroge supporter in surface layer, Glass can be met in use since environment temperature causes the subtle expansion or shrinkage of glass cavity, avoid aeroge The overstress of supporter is concentrated;When aeroge supporter is aeroge compound support, not only have aeroge supporter There is good heat preservation and insulation, and also enhances the compression strength of aeroge supporter.
The present invention another technical solution be it is above-mentioned basis on, the gas in the aeroge support body material Gel compound support further includes one kind or two in aeroge/glass compound support and aeroge/resin compounded supporter Kind.In this way, using aeroge and glass or resin compounded technology, by it is light, itself there is excellent heat preservation and insulation, sound insulation Anti-acoustic capability, energy absorption characteristics transparency aerogel as function constituent element, make Binder Phase with glass or resin, the aeroge produced With glass or the compound support of resin, the excellent mechanical performances of the excellent specific property and glass or resin of aeroge, a side are had both Face both has good heat preservation and insulation, on the other hand can get good security performance and sound insulation and noise reducing performance again, in addition Also there is good mechanical property.
The present invention another technical solution be it is above-mentioned basis on, the gas in the aeroge support body material The preparation method of the aeroge/glass compound support in gel compound support is:
(1)Glass powder is uniformly mixed by batch mixing with aeroge;
(2)Fusing, by step(1)Glass powder in obtained mixture is heated to melting, and obtains the hybrid glass of semisolid Melt;
(3)Molding, by step(2)Obtained hybrid glass melt is cast in mold, cooled and solidified.
In addition, step(3)Annealing steps can also be carried out later.
In this way, through the above steps, a kind of tool that the glass by aeroge and the bonding aeroge is mutually constituted can be obtained There is aeroge/glass compound support of heat preservation and insulation.
The present invention another technical solution be it is above-mentioned basis on, the airsetting in the aeroge supporter The preparation method of glue/resin compounded supporter is:
(1)Aeroge is uniformly mixed by batch mixing with toner;
(2)Stone, in one layer of die substrate upper berth step(1)Obtained mixture;
(3)Fusing, with laser by step in a manner of step-scan(2)Toner in obtained mixture quickly heats up to Fusing;
(4)Alternately stone and fusing, alternately repeat step in previous sedimentary(2)And step(3), solidification.
In this way, heated by above-mentioned batch mixing, stone, laser and etc., one kind can be obtained described in aeroge and bonding The aeroge with heat preservation and insulation/resin compounded supporter that the resin of aeroge is mutually constituted.
Another technical solution of the present invention is on above-mentioned basis, is gone back between the sealing-in step and vacuum step Including sealing step, specially:Glass seal edge is sealed with fluid sealant.In this way, double sealing is formed, into One step ensure that the tightness of glass seal.
Another technical solution of the present invention is that on above-mentioned basis, the fluid sealant is that silicone sealant and polysulfide are close One kind in sealing.In this way, since the bonding force of silicone sealant and polysulfide sealant is strong, tensile strength is big, while having again Excellent weatherability, vibration resistance etc., especially suitable between glass or between glass and metal structure or unstructuredness bonding Assembly.
Another technical solution of the present invention is that on above-mentioned basis, the sealing-in step carries out in vacuum environment When, it can also can again carry out vacuum step without subsequent vacuum step, in order to reach better effect.
The present invention another technical solution be it is above-mentioned basis on, the contact surface of the aeroge supporter and glass Between be provided with transparent adhesive.In this way, aeroge supporter can be connect admittedly with interior surfaces of glass using transparent adhesive It is fixed, to play better supporting role.
The present invention another technical solution be it is above-mentioned basis on, the low-temperature sealing material be cryogenic glass powder or Low-temperature metal edging material.In this way, steel can be caused to avoid since sealing temperature is excessively high by carrying out sealing-in using low-temperature sealing material Change the annealing phenomena of glass or semi-tempered glass so that the physical property of tempered glass or semi-tempered glass reduces;Pass through low temperature Glass powder or low-temperature metal edging material are sealed, and are realized the soldering and sealing of glass and interval body, are met the requirement of condition of high vacuum degree, from And effectively extend the service life of built-in aerogel composite glass.
Another technical solution of the present invention is that on above-mentioned basis, the low temperature in the low-temperature sealing material is golden Category edging material is one kind in indium, indium alloy, tin, tin alloy.In this way, the low-temperature metals such as indium, indium alloy, tin, tin alloy Fusing point is usually no more than the annealing temperature of glass.
Another technical solution of the present invention is that on above-mentioned basis, metal is arranged in the low-temperature sealing material internal It is one or more in item, metal mesh or wire.In this way, by the way that metal strip, metal mesh or metal are arranged inside sealing-in side Silk, on the one hand, the fusing point of the metal strip, metal mesh or wire is higher than low-temperature sealing material, is carried out by treating seal glass Heating, metal strip, metal mesh or wire temperature rise and melt low-temperature sealing material, and then realize sealing-in to glass; On the other hand, metal strip, metal mesh or wire are as the solid reinforced phase in low-temperature sealing material, between two pieces of glass plates It plays a supporting role.
Another technical solution of the present invention is that on above-mentioned basis, the spaced support supports for ceramic space It is one or more in body, metal spaced support and composite material spaced support.In addition, spaced support can also be disconnected Heat type spaced support, wherein ceramic space supporter includes mainly glass partition supporter, traditional ceramics spaced support Include mainly aluminium spaced support, aluminium alloy spaced support, stainless steel spaced support etc. Deng, metal spaced support, it is multiple Condensation material spaced support is mainly multiple including plastic-steel spaced support, plastic-aluminum spaced support, composite rubber strip, glass fiber reinforcement Close spaced support etc..In this way, since aeroge support body thickness is thick compared with traditional support body, if direct using low-temperature sealing material Sealing-in is carried out to two sheet glass 1, since the extension of low-temperature sealing material is excessive, sealing-in edge is caused gap or gaps and omissions phenomenon occur, Therefore the leakproofness for influencing vacuum glass is sealed between two sheet glass after preset interval supporter again, on the one hand can be with It solves the problems, such as the sealing-in caused by the extension excessively of low-temperature sealing material, on the other hand can also play the role of main support, subtract The stress concentrations of few aeroge supporter, further improve bending resistance, the compression strength of negative pressure glass.
Another technical solution of the present invention is on above-mentioned basis, the mode of heating of the sealing-in be laser heating, One kind in electron beam heating, microwave heating.In this way, laser heating may be used during sealing-in, electron beam heats, microwave adds The modes such as heat directly quickly heat low-temperature sealing material, the continuous sealing-in in fusing;Laser heating, electricity can also be used Metal strip, metal mesh or the wire that low-temperature sealing material internal is arranged in the modes such as beamlet heating, microwave heating are directly quick Low-temperature sealing material is heated and melted, realizes the continuous sealing-in of glass.
Another technical solution of the present invention is on above-mentioned basis, is carried out before the glass cavity body making step The pretreatment on surface and wettability treatment at glass sealing are provided with transparent between the aeroge supporter and the contact surface of glass Adhesive, in this way, while increasing the interface bond strength between glass surface and low-temperature sealing material, and increase aeroge branch Support body is connected and fixed with interior surfaces of glass, to reach better effect.
Another technical solution of the present invention, a kind of built-in aerogel composite glass, including the glass seal and institute The vacuum suction device being arranged on glass seal is stated, the glass seal is by the interval between two sheet glass, two sheet glass The aeroge supporter composition being arranged in supporter and glass cavity, forms between two sheet glass and the spaced support It is connected by low-temperature sealing material at U-shaped sealing-in.
Another technical solution of the present invention is on above-mentioned basis, is located at glass front in the vacuum suction device On one jiao or one jiao of spaced support end on.In this way, vacuum suction device is generally disposed in glass front, it can also It is positioned on one jiao of spaced support end, to reach the mechanical property and glass appearance that do not influence spaced support Purpose.
Another technical solution of the present invention is on above-mentioned basis, passes through between the aeroge supporter and glass Transparent adhesive connection.
Description of the drawings
The attached drawing for constituting the part of the present invention is used to provide further understanding of the present invention, schematic reality of the invention Example and its explanation are applied for explaining the present invention, is not constituted improper limitations of the present invention.
Fig. 1-Fig. 6 be the present embodiments relate to built-in aerogel composite glass sectional view.
Wherein:
1- glass;2- aeroge supporters;21- adhesives;3- spaced supports;4- low-temperature sealing materials;41- metal strips; 42- metal meshes;43- wires;5- vacuum suction devices;6- fluid sealants.
Specific implementation mode
Present invention will now be described in detail with reference to the accompanying drawings., and the description of this part is only exemplary and explanatory, is not answered There is any restriction effect to protection scope of the present invention.In addition, description of the those skilled in the art according to this document, it can be right Feature in this document in embodiment and in different embodiments carries out the corresponding combination.
The embodiment of the present invention is as follows, and a kind of preparation method of built-in aerogel composite glass includes the following steps:
(1)Aeroge supporter 2 is laid on the center surface of glass 1, spaced support 3 is layed in the surrounding of glass 1 On edge, then another sheet glass 1 is placed in parallel on aeroge supporter 2 and spaced support 3;
(2)It will be filled continuously with the U formed between two sheet glass 1 and spaced support 3 after the heating fusing of low-temperature sealing material 4 At type sealing-in, two sheet glass 1 is made to be fully sealed with spaced support 3, obtains the glass seal of interior aerogel-congtg supporter 2;
(3)It is evacuated by vacuum suction device 5, is then sealed with plug.
In this way, through the above steps, one kind can be obtained by least two blocks of glass 1 as shell, at least one vacuum The aerogel composite glass of aeroge supporter 2 is provided in the sealing cavity and cavity of air extractor 5, as shown in Figure 1.It is this The energy-saving effect of the aerogel composite glass of built-in aeroge supporter 2 can compare favourably with vacuum glass, due to what is be provided with Transparency aerogel has excellent heat preservation and insulation, in addition in cavity vacuum belt come there are few gas molecule convection current thermal phenomenon, Therefore, so as to get built-in aerogel composite glass have very excellent heat preservation and insulation.And built-in aeroge support The point support of existing vacuum glass is replaced with face support, safety higher, further, since aeroge by body 2 and the connection of glass 1 With preferable incompressible deformation characteristic, can effectively support because in cavity vacuum due to the action of compressive stress that generates, keep away simultaneously Exempt from stress concentration phenomenon, is a kind of safety-type super energy-saving glass.Therefore, the built-in aeroge which produces is compound Glass not only has preferable heat preservation and insulation, also has excellent security performance, and also solve aeroge supporter The problems such as reinforcing edge sealing is carried out using low-temperature sealing material when supporting body thickness more than existing vacuum glass.
On the basis of the above embodiments, in another embodiment of the present invention, further include before the lay supporter step The pretreatment on surface and wettability treatment at 1 sealing-in of glass, specially:First table at 1 sealing-in of glass is cleaned with acid or alkaline solution Face, then surface is coated with one layer of wetting agent at 1 sealing-in of glass;The wetting agent is dodecyl sodium sulfate, lauryl sulfate, two Alkyl sulfo succinate, castor oil hydrosulphate, Fixanol chloride, alkylphenol polyvinylether, polyoxyethylene alkane It is one or more in base ether, polyoxyethylene glycol Arrcostab, acetylene ethylene glycol.In this way, usually acid solution is H2SO4With HNO3Mixed solution etc., alkaline solution NaOH, Na2CO3Deng, at 1 sealing-in of glass surface first pass through acid solution or alkalinity it is molten The cleaning of liquid, to achieve the purpose that remove degreasing and impurity, convenient for preferably carrying out wettability treatment in next step;Then locating in advance again Surface is coated with one layer of wetting agent at 1 sealing-in of glass after reason, reduces the surface tension at 1 sealing-in of glass, increases glass 1 to reach The purpose of interface bond strength between surface and low-temperature sealing material 4 further ensures the leakproofness at 1 sealing-in of glass.
On the basis of the above embodiments, in another embodiment of the present invention, the shape of the aeroge supporter 2 is tablet One or more in shape, graininess, cylinder, obform body.Wherein, obform body is cylinder and flat integrated molding Structure.In this way, when aeroge supporter 2 is graininess, through closely knit processing Tian Full cavitys to play a supporting role, work as aeroge When supporter 2 is other shapes, aeroge supporter 2 is covered with or array distribution is in glass cavity, and thickness and cavity Height suitable for play a supporting role, thus in aeroge energy-saving glass inner cavity with itself have superinsulation heat-insulating property, Large-sized transparency aerogel does supporter, realizes the various ways such as face support, block support, column support, diversification support, a side Face avoids the heat bridge phenomenon caused by the higher conventional point supporter of heat transfer coefficient, further improves aerogel composite glass Heat preservation and insulation, the condition for generating stress concentration is on the other hand thoroughly eliminated from the root cause, in significantly improving Set the security performance of aerogel composite glass.
On the basis of the above embodiments, in another embodiment of the present invention, 2 material of aeroge supporter further includes table Layer low-density and the highdensity aeroge supporter of core or aeroge compound support.In this way, the heat conduction system of usual aeroge Number is not less than 0.010W/m k, in order to keep the heat transfer coefficient k values that its heat transfer coefficient reaches vacuum glass horizontal(K values about 0.5W/ m2·k), the thickness of traditional aeroge at least needs 15mm, cooperates with negative pressure technique using aeroge, passes through and implement negative pressure technique and gas The nano-scale of gel generates synergistic effect, obstructs the convection current heat transfer of gas in intracavitary aeroge hole completely, aeroge is made to lead Hot coefficient is down to 0.004 W/m k hereinafter, to greatly reduce aeroge thickness, and optimization thickness is in 1mm ~ 5mm.Work as aeroge When supporter is surface layer low-density and core high density, it can be obtained that internal intensity is higher and the flexible aeroge support in surface layer Body can meet glass in use since environment temperature causes the subtle expansion or shrinkage of glass cavity, avoid gas The overstress of gel support body is concentrated;When aeroge supporter is aeroge compound support, not only aeroge is made to support Body has good heat preservation and insulation, and also enhances the compression strength of aeroge supporter.
On the basis of the above embodiments, described in 2 material of aeroge supporter in another embodiment of the present invention Aeroge compound support 2 includes one kind or two in aeroge/glass compound support and aeroge/resin compounded supporter Kind.In this way, using aeroge and glass or resin compounded technology, by it is light, itself there is excellent heat preservation and insulation, sound insulation Anti-acoustic capability, energy absorption characteristics transparency aerogel as function constituent element, make Binder Phase with glass or resin, the aeroge produced With glass or the compound support of resin, the excellent mechanical performances of the excellent specific property and glass or resin of aeroge, a side are had both Face both has good heat preservation and insulation, on the other hand can get good security performance and sound insulation and noise reducing performance again, in addition Also there is good mechanical property.
On the basis of the above embodiments, described in 2 material of aeroge supporter in another embodiment of the present invention The preparation method of the aeroge/glass compound support in aeroge compound support is:
(1)Glass powder is uniformly mixed by batch mixing with aeroge;
(2)Fusing, by step(1)Glass powder in obtained mixture is heated to melting, and obtains the hybrid glass of semisolid Melt;
(3)Molding, by step(2)Obtained hybrid glass melt is cast in mold, cooled and solidified.
In this way, through the above steps, can be obtained a kind of having heat-insulation and heat-preservation by aeroge with what glassy bond was mutually constituted Aeroge/glass compound support of energy.Wherein, the step in the preparation method(2)Can be stone, i.e., by the step (1)Obtained mixture is placed in mold;Then step(3)For melt, i.e., the glass powder in mixture is heated to melting, Obtain the hybrid glass melt of semisolid, cooled and solidified;Further include clear after the fusing step and before the forming step Clear technique;The volume ratio of the aeroge and glassy bond phase is 0.1-9:1;The aeroge has inner hydrophobic, surface parent Water characteristic;The shape of the aeroge is one kind in bulk, graininess, powder.
On the basis of the above embodiments, described in 2 material of aeroge supporter in another embodiment of the present invention The preparation method of the aeroge/resin compounded supporter 2 in aeroge compound support is:
(1)Aeroge is uniformly mixed by batch mixing with toner;
(2)Stone, in one layer of die substrate upper berth step(1)Obtained mixture;
(3)Fusing, with laser by step in a manner of step-scan(2)Toner in obtained mixture quickly heats up to Fusing;
(4)Alternately stone and fusing, alternately repeat step in previous sedimentary(2)And step(3), solidification.
In this way, heated by above-mentioned batch mixing, stone, laser and etc., it can be obtained a kind of by aeroge and resin-bonded The aeroge with the heat preservation and insulation/resin compounded supporter mutually constituted.Wherein, the alternately stone is with fusing step It is carried out before the resin solidification in melting step;The alternately stone and fusing step are after the resin solidification in melting step It carries out;The volume ratio of the aeroge and toner is 0.1-9:1;The aeroge has inner hydrophobic, surface hydrophilic special Property;The shape of the aeroge is one kind in bulk, graininess, powder;The resin is thermosetting resin or thermoplastic resin Fat.
On the basis of the above embodiments, in another embodiment of the present invention, between the sealing-in step and vacuum step Further include sealing step, specially:Glass seal edge is sealed with fluid sealant 6.In this way, it is close to form two pass Envelope, further ensures the tightness of glass seal.
On the basis of the above embodiments, in another embodiment of the present invention, the fluid sealant 6 is silicone sealant and polysulfide One kind in fluid sealant.In this way, since the bonding force of silicone sealant and polysulfide sealant is strong, tensile strength is big, while having again Have excellent weatherability, vibration resistance etc., especially suitable between glass or between glass and metal structure or unstructuredness it is viscous It attaches together and matches.
On the basis of the above embodiments, in another embodiment of the present invention, the sealing-in step carries out in vacuum environment When, it can also can again carry out vacuum step without subsequent vacuum step, in order to reach better effect.
On the basis of the above embodiments, further include sealing step in another embodiment of the present invention, after the sealing-in step Suddenly, specially:Glass seal edge is sealed with fluid sealant 6, the fluid sealant is silicone sealant and polysulfide One kind in fluid sealant;The sealing-in step and the sealing step carry out in vacuum environment, can be without subsequent pumping Vacuum step can also carry out vacuum step again in order to reach better effect.
On the basis of the above embodiments, in another embodiment of the present invention, the aeroge supporter 2 connects with glass 1 Transparent adhesive 21 is provided between contacting surface.In this way, can will be in aeroge supporter 2 and glass 1 using transparent adhesive 21 Surface is connected and fixed, to play better supporting role.
On the basis of the above embodiments, in another embodiment of the present invention, the low-temperature sealing material 4 is cryogenic glass powder Or low-temperature metal edging material.It can cause to avoid since sealing temperature is excessively high in this way, carrying out sealing-in using low-temperature sealing material 4 The annealing phenomena of tempered glass or semi-tempered glass so that the physical property of tempered glass or semi-tempered glass reduces;By low Warm glass powder or low-temperature metal edging material are sealed, and are realized the soldering and sealing of glass 1 and spaced support 3, are met condition of high vacuum degree Requirement, to effectively extend the service life of built-in aerogel composite glass.
On the basis of the above embodiments, in another embodiment of the present invention, the low temperature in the low-temperature sealing material 4 Metal sealed edges material is one kind in indium, indium alloy, tin, tin alloy.In this way, the low-temperature metals such as indium, indium alloy, tin, tin alloy Fusing point be usually no more than the annealing temperature of glass 1.
On the basis of the above embodiments, in another embodiment of the present invention, metal is arranged in 4 inside of the low-temperature sealing material It is one or more in item 41, metal mesh 42 or wire 43.In this way, by the way that metal strip 41, metal are arranged inside sealing-in side Net 42 or wire 43, on the one hand, the fusing point of the metal strip 41, metal mesh 42 or wire 43 is higher than low-temperature sealing material, leads to Cross and treat seal glass and heated, metal strip 41, metal mesh 42 or wire 43 temperature rise and melt low-temperature sealing material Material 4, and then realize the sealing-in to glass;On the other hand, metal strip 41, metal mesh 42 or wire 43 are used as low-temperature sealing material Solid reinforced phase in 4, plays a supporting role between two pieces of glass plates 1.
On the basis of the above embodiments, in another embodiment of the present invention, the spaced support 3 supports for ceramic space It is one or more in body, metal spaced support and composite material spaced support.In addition, spaced support can also be disconnected Heat type spaced support, wherein ceramic space supporter includes mainly glass partition supporter, traditional ceramics spaced support Include mainly aluminium spaced support, aluminium alloy spaced support, stainless steel spaced support etc. Deng, metal spaced support, it is multiple Condensation material spaced support is mainly multiple including plastic-steel spaced support, plastic-aluminum spaced support, composite rubber strip, glass fiber reinforcement Close spaced support etc..In this way, since 2 thickness of aeroge supporter is thick compared with traditional support body, if straight using low-temperature sealing material 4 It connects and sealing-in is carried out to two sheet glass 1, since low-temperature sealing material 4 extends excessively, cause sealing-in edge gap or gaps and omissions occur and show As influencing the leakproofness of vacuum glass, therefore, being sealed again after preset interval supporter 3 between two sheet glass 1, a side Face can solve the problems, such as sealing-in caused by being extended excessively due to low-temperature sealing material 4, on the other hand can also play main support Effect reduces the stress concentrations of aeroge supporter 2, further improves bending resistance, the compression strength of negative pressure glass.
On the basis of the above embodiments, in another embodiment of the present invention, the mode of heating of the sealing-in be laser heating, One kind in electron beam heating, microwave heating.In this way, laser heating may be used during sealing-in, electron beam heats, microwave adds The modes such as heat directly quickly heat low-temperature sealing material 4, the continuous sealing-in in fusing;Laser can also be used to heat, Metal strip 41, metal mesh 42 or the wire 43 that 4 inside of low-temperature sealing material is arranged in the modes such as electron beam heating, microwave heating Low-temperature sealing material 4 is quickly directly heated and melted, realizes the continuous sealing-in of glass.
Another embodiment of the present invention, a kind of built-in aerogel composite glass, including the glass seal and the glass The vacuum suction device 5 being arranged on glass seal, the glass seal is by the septal branch between two sheet glass 1, two sheet glass 1 The aeroge supporter 2 being arranged in support body 3 and glass cavity forms, and is formed between two sheet glass 1 and the spaced support 3 U-shaped sealing-in at pass through low-temperature sealing material 4 connect.
On the basis of the above embodiments, in another embodiment of the present invention, it is being located at glass just in the vacuum suction device 5 On one jiao of one jiao on face or spaced support end.In this way, vacuum suction device is generally disposed in glass front, also may be used To be positioned on one jiao of spaced support end, to reach the mechanical property and glass appearance that do not influence spaced support Purpose.
On the basis of the above embodiments, in another embodiment of the present invention, lead between the aeroge supporter and glass Cross transparent adhesive connection.
On the basis of the above embodiments, in another embodiment of the present invention, built-in aerogel composite glass uses following step It is rapid to prepare:
(1)Surface carries out pretreatment and wettability treatment at the sealing-in at 1 edge of glass, i.e., is first cleaned with acid solution, then It is coated with one layer of lubricant;
(2)Tabular aeroge supporter 2 is laid on 1 center surface of glass, ceramic space supporter 3 is layed in glass On 1 edge, then another sheet glass 1 is placed in parallel on tabular aeroge supporter 2 and spaced support 3, wherein Tabular aeroge supporter 2 is surface layer low-density and the highdensity aeroge supporter of core 2;
(3)It is formed being filled continuously with after the heating fusing of cryogenic glass powder 4 between two sheet glass 1 and ceramic space supporter 3 U-shaped sealing-in at, so that two sheet glass 1 is fully sealed with ceramic space supporter 3, obtain the glass of interior aerogel-congtg supporter 2 Seal;
(4)Glass seal edge is sealed with fluid sealant;
(5)Glass seal is vacuumized, is evacuated by vacuum suction device 5, so that it is generated certain negative pressure, then uses Plug seals.
The cross-sectional view of the structure of the built-in aerogel composite glass obtained through the above steps is as shown in Figure 1.
On the basis of the above embodiments, in another embodiment of the present invention, built-in aerogel composite glass uses following step It is rapid to prepare:
(1)Aeroge/glass compound support is made, preparation method is as follows:(a)Glass powder is uniformly mixed with aeroge It closes;(b)Glass powder in mixture is heated to melting, obtains the mixed molten liquid of semisolid;(c)The mixed molten liquid that will be obtained It pours into the mold of cylinder, cooled and solidified;(d)Annealing, obtains aeroge/glass compound support of cylinder;
(2)Surface carries out pretreatment and wettability treatment at the sealing-in at 1 edge of glass, i.e., is first cleaned with alkaline solution, then It is coated with one layer of lubricant;
(3)Transparent adhesive 21 is first laid on to the bottom and top of aeroge/glass base supporter 2 of several cylinders respectively Portion by its array arrangement and is anchored on 1 surface of glass, then composite material spaced support 3 is layed in the surrounding of glass 1 On edge, then another sheet glass 1 is placed in parallel in the aeroge of several cylinders/between glass base supporter 2 and composite material Every on supporter 3;
(4)In vacuum environment, it will be filled continuously between two sheet glass 1 and composite material after the heating fusing of low-temperature metal indium 4 At the U-shaped sealing-in formed between supporter 3, two sheet glass 1 is made to be fully sealed with composite material spaced support 3, obtained interior Set aerogel composite glass.
The cross-sectional view of the structure of the built-in aerogel composite glass obtained through the above steps is as shown in Figure 2.
On the basis of the above embodiments, in another embodiment of the present invention, built-in aerogel composite glass uses following step It is rapid to prepare:
(1)Aeroge/resin compounded supporter is made, preparation method is as follows:(a)Aeroge is mixed with toner It is even;(b)In one layer of die substrate upper berth mixture;(c)With laser by the tree in the mixture completed in a manner of step-scan Cosmetics end quickly heats up to fusing;(d)According to the shape of the obform body aeroge supporter inputted, submitted in previous sedimentary For repeating step(b)And step(c), cure aeroge/resin compounded supporter to get obform body;
(2)Surface carries out pretreatment and wettability treatment at the sealing-in at 1 edge of glass, i.e., is first cleaned with acid solution, then It is coated with one layer of lubricant lauryl sulfate;
(3)Transparent adhesive 21 is first laid on to the bottom and top of aeroge/resin base supporter 2 of obform body respectively, it will It is anchored on the center surface of glass 1, is then layed in metal spaced support 3 on the edge of glass 1, will be another Sheet glass 1 is placed in parallel on aeroge/glass base supporter 2 and metal spaced support 3 of obform body;
(4)In vacuum environment, the low-temperature metal indium alloy 4 of the internal metal strip of embedment in advance is heated to melting by laser Afterwards, it is filled continuously at the U-shaped sealing-in formed between two sheet glass 1 and metal spaced support 3, makes two sheet glass 1 It is fully sealed with metal spaced support 3, obtains the glass seal of interior aerogel-congtg supporter 2;
(4)Glass seal edge is sealed with silicone sealant;
(5)Glass seal is vacuumized, is evacuated by vacuum suction device 5, so that it is generated certain negative pressure, then uses Plug seals.
The cross-sectional view of the structure of the built-in aerogel composite glass obtained through the above steps is as shown in Figure 3.
On the basis of the above embodiments, in another embodiment of the present invention, built-in aerogel composite glass uses following step It is rapid to prepare:
(1)Surface carries out pretreatment and wettability treatment at the sealing-in at 1 edge of glass, i.e., is first cleaned with alkaline solution, then It is coated with one layer of lubricant Fixanol chloride;
(2)First granular aeroge supporter 2 is laid on the center surface of glass 1, then by composite material septal branch Support body 3 is layed on the edge of glass 1, and another sheet glass 1 is placed in parallel between aeroge supporter 2 and composite material Every on supporter 3;
(3)After the cryogenic glass powder 4 of the internal metal mesh of embedment in advance is heated to fusing by electron beam, it is filled continuously with At the U-shaped sealing-in formed between two sheet glass 1 and composite material spaced support 3, make two sheet glass 1 and composite material interval Supporter 3 is fully sealed, and obtains the glass seal of interior aerogel-congtg supporter 2;
(4)Glass seal edge is sealed with polysulfide sealant;
(5)Glass seal is vacuumized, is evacuated by vacuum suction device 5, so that it is generated certain negative pressure, then uses Plug seals.
The cross-sectional view of the structure of the built-in aerogel composite glass obtained through the above steps is as shown in Figure 4.
On the basis of the above embodiments, in another embodiment of the present invention, built-in aerogel composite glass uses following step It is rapid to prepare:
(1)Surface carries out pretreatment and wettability treatment at the sealing-in at 1 edge of glass, i.e., is first cleaned with acid solution, then It is coated with one layer of lubricant polyoxyethylene glycol Arrcostab;
(2)Transparent adhesive 21 is first laid on to the bottom and top of the aeroge supporter 2 of several cylinders respectively, by its battle array Row are arranged and are anchored on the center surface of glass 1, are then layed in ceramic space supporter 3 on the edge of glass 1, Another sheet glass 1 is placed in parallel on aeroge supporter 2 and ceramic space supporter 3, the aeroge support of middle column body Body 2 is surface layer low-density and the highdensity aeroge supporter of core 2;
(3)In vacuum environment, the low-temperature metal tin alloy 4 that inside is embedded to several wires disposed in parallel in advance passes through Microwave heating is filled continuously with the U-shaped sealing-in formed between two sheet glass 1 and ceramic space supporter 3 to after melting Place, makes two sheet glass 1 be fully sealed with ceramic space supporter 3, obtains the glass seal of interior aerogel-congtg supporter 2.
The cross-sectional view of the structure of the built-in aerogel composite glass obtained through the above steps is as shown in Figure 5.
Another embodiment of the present invention, a kind of built-in aerogel composite glass, including the glass seal and the glass The vacuum suction device 5 being arranged on glass seal, the glass seal is by the interval body between two sheet glass 1, two sheet glass 1 3 and glass cavity in be arranged aeroge supporter 2 form, the U-shaped envelope formed between two sheet glass 1 and spaced support 3 Place is met to connect by low-temperature sealing material 4;Wherein vacuum suction device 5 is located at one jiao on 1 front of glass or spaced support 3 On one jiao of end, as shown in figures 1 to 6.
The above is only a preferred embodiment of the present invention, it is noted that for the ordinary skill people of the art For member, various improvements and modifications may be made without departing from the principle of the present invention, these improvements and modifications are also answered It is considered as protection scope of the present invention.

Claims (12)

1. a kind of preparation method of built-in aerogel composite glass, which is characterized in that include the following steps:
(1)Supporter is laid, aeroge supporter is laid on glass, spaced support is layed in the surrounding of glass Edge, then another sheet glass is positioned on aeroge supporter and spaced support;
(2)Sealing-in, the low-temperature sealing material of fusing is filled continuously with formed between two sheet glass and spaced support it is U-shaped At sealing-in, soldering and sealing obtains the glass seal of interior aerogel-congtg supporter;
(3)It vacuumizes, by vacuum suction device, glass seal is evacuated.
2. a kind of preparation method of built-in aerogel composite glass according to claim 1, which is characterized in that the step (1)Further include the pretreatment on surface and wettability treatment at glass sealing before, specially:First glass is cleaned with acid or alkaline solution Surface at glass sealing-in, then surface is coated with one layer of wetting agent at glass sealing, the wetting agent is dodecyl sodium sulfate, sulfuric acid Lauryl, castor oil hydrosulphate, Fixanol chloride, alkylphenol polyvinylether, gathers at dialkyl sulfosuccinates It is one or more in ethylene oxide alkyl ether, polyoxyethylene glycol Arrcostab, acetylene ethylene glycol.
3. a kind of preparation method of built-in aerogel composite glass according to claim 1, which is characterized in that the airsetting The shape of glue supporter is the one or more in tabular, graininess, cylinder, obform body.
4. a kind of preparation method of built-in aerogel composite glass according to claim 1, which is characterized in that the airsetting Glue support body material further includes surface layer low-density and the highdensity aeroge supporter of core or aeroge compound support, described Aeroge compound support includes one kind or two in aeroge/glass compound support and aeroge/resin compounded supporter Kind.
5. a kind of preparation method of built-in aerogel composite glass according to claim 4, which is characterized in that the airsetting The preparation method of glue/glass compound support is:
(1)Glass powder is uniformly mixed by batch mixing with aeroge;
(2)Fusing, by step(1)Glass powder in obtained mixture is heated to melting, and obtains the hybrid glass of semisolid Melt;
(3)Molding, by step(2)Obtained hybrid glass melt is cast in mold, cooled and solidified.
6. a kind of preparation method of built-in aerogel composite glass according to claim 4, which is characterized in that the airsetting The preparation method of glue/resin compounded supporter is:
(1)Aeroge is uniformly mixed by batch mixing with toner;
(2)Stone, in one layer of die substrate upper berth step(1)Obtained mixture;
(3)Fusing, with laser by step in a manner of step-scan(2)Toner in obtained mixture quickly heats up to Fusing;
(4)Alternately stone and fusing, alternately repeat step in previous sedimentary(2)And step(3), solidification.
7. a kind of preparation method of built-in aerogel composite glass according to claim 1, which is characterized in that the step (2)And step(3)Between further include sealing step, specially:Glass seal edge is sealed with fluid sealant, institute It is one kind in silicone sealant and polysulfide sealant to state fluid sealant.
8. a kind of preparation method of built-in aerogel composite glass according to claim 1, which is characterized in that the step (2)It is carried out in vacuum environment, then without step(3)Vacuum step or carry out step(3)Vacuum step.
9. a kind of preparation method of built-in aerogel composite glass according to claim 1, which is characterized in that the airsetting Transparent adhesive is provided between glue supporter and the contact surface of glass.
10. a kind of preparation method of built-in aerogel composite glass according to claim 1, which is characterized in that described low Intermediate temperature sealing material be cryogenic glass powder or low-temperature metal edging material, the low-temperature metal edging material be indium, indium alloy, tin, One kind in tin alloy;The spaced support is ceramic space supporter, metal spaced support and composite material septal branch One kind in support body;The mode of heating of the sealing-in is one kind in laser heating, electron beam heating, microwave heating.
11. a kind of preparation method of built-in aerogel composite glass according to claim 1, which is characterized in that described low Intermediate temperature sealing material internal is arranged one or more in metal strip, metal mesh or wire.
12. a kind of built-in aerogel composite glass that the preparation method according to aforementioned any claim obtains, feature It is, including the vacuum suction device being arranged on the glass seal and the glass seal, the glass seal By between two sheet glass, two sheet glass spaced support and glass cavity in the aeroge supporter that is arranged form, the two panels It is connected by low-temperature sealing material at the U-shaped sealing-in formed between glass and the spaced support, the vacuum suction device On one jiao of one jiao in glass front or spaced support end.
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