CN106285336A - The recycling structure of building glass - Google Patents

Abstract

The present invention relates to the recycling structure of a kind of building glass, it includes building glass, the recycling structure of this building glass also includes glass unit and connecting element, this connecting element at least includes the bonding part with adhesive function, and this connecting element to be connected to the thickness between this building glass and this glass unit be 0.01mm-4mm.The present invention has the advantage that can reduce cost, increase the service life, reduce transformation difficulty.

Description

The recycling structure of building glass

Technical field

The present invention relates to a kind of building glass, a kind of available recycling structure with existing building glass.

Background technology

Country is more and more higher to the requirement that building glass is energy-conservation, but energy-saving effect serious degradations such as the door glass that the building such as old-fashioned house, office block, commercial mansion is used, cladding glass, ambetti or do not possess power saving function.

Prior art:

(1) the original windowpane of integral replacing, changes energy-conservation coated glass window, medi-empty glass window, doubling glass window；

(2) sticking on flexible membrane for building on original glass, flexible membrane is broadly divided into heat insulation safety diaphragm (such as thermal reflecting coating) and energy-saving film (such as low-radiation film)；

(3) transformation synthesis double glazing on existing building glass；

But, prior art has some shortcomings.

Wherein, using prior art (), its shortcoming is: cost is the highest, and construction difficulty, the waste to material, cost and manpower is very big.

Using prior art (two), its shortcoming is:

(1), the most aging, scuffing and breakage, definition reduction；

(2) functional layer, being attached to flexible parent metal is easy to fall off；

(3), flexible parent metal be macromolecular material, functional layer mainly includes metal material and oxide thereof, functional layer is attached to flexible parent metal technical difficulty big, and cost is high；

(4), the weatherability of flexible membrane bad, useful life is relatively short, it is desirable to keeping good effects to need to change in time flexible lamina, replacement frequency is of a relatively high.

Using prior art (three), its shortcoming is:

(1), insulation and the sound insulation function of double glazing is to realize by air layer thickness, therefore it is transformed into double glazing and must be introduced into septal branch support part, septal branch support part refers to, the support component of insulation and sound insulation function is realized for obtaining certain thickness air layer, the heat transfer coefficient U value of glass pane be can effectively reduce, metal or nonmetal backing material common are.Metal supports is usually aluminum spacer bar, and nonmetal backing material is usually super spacing strip, and super spacing strip is that instead of the aluminum spacer bar of ordinary insulating glass and uses.The thickness of general spacer bar is 5 millimeters of (mm)-20mm, so can form the air layer of corresponding thickness, spacer bar one end and existing building glass gluing, the other end and glass gluing to be closed, the most improved double glazing integral thickness is typically greater than 10mm, some meetings reach 20mm, such transformation is not suitable for existing major part sliding window (structure refers to Figure 25 and Figure 26), because the sliding window that existing door and window is before particularly 2000, the general all ＜ 6mm of the glass partition thickness of two sliding windows, if using double glazing that thickness will be caused to exceed another sheet window frame, transformation cannot be realized；

(2), forming the thickness of glass to be closed of medi-empty glass window typically at more than 5mm, therefore the medi-empty glass window weight after synthesis is much larger than former glass pane weight, greatly may damage original door and window supporter, and this will have a strong impact on building bearing problem；The original sheet glass thickness of hollow to be closed is thick, to being sealing adhesive bar adhesion strength and weight capacity requires the highest, it is generally required to additional support members, and safety coefficient is relatively low；

(3), needing specialty team to install or change, difficulty of construction is big, and the cost of labor needed for replacing is high.

Summary of the invention

In view of above-mentioned condition, it is necessary to provide a kind of reduce cost, increase the service life, reduce transformation difficulty, the recycling structure of the wider array of novel building glass of the product suitability.

A kind of recycling structure of building glass, it includes building glass, the recycling structure of this building glass also includes glass unit and connecting element, this connecting element at least includes the bonding part with adhesive function, and this connecting element to be connected to the thickness between this building glass and this glass unit be 0.01mm-4mm.

The thickness of this glass unit is 0.05mm ~ 5mm.

The thickness of this glass unit is 0.3mm ~ 4mm.

Be formed with functional layer on this glass unit, this functional layer be positioned at the inner side of described glass unit, outside or inside and outside.

This functional layer includes the combination of one or more in solar control film layer, low-radiation film layer and conductive film layer.

Also including enhancement layer on this glass unit, this enhancement layer is positioned at the one or both sides of this glass unit.

This enhancement layer is silica gel, polyethylene terephthalate, polyester material, acrylic material, polypropylene material, polyacrylic acid material, epoxy resin, phenolic resin material, unsaturated polyester material, one or a combination set of elastomeric material thing.

The thickness of this bonding part is 0.01mm-4mm.

The thickness of this bonding part is 0.1mm-2mm.

This bond site towards the surrounding on the surface of this building glass, thus forms " mouth " character form structure in this glass unit, and the width of this bonding part is 0.1mm-30mm, or this bonding part area to account for this glass unit area be no more than 5%.

This bonding part is butyl rubber, structure glue, glass cement, without shadow glue, acrylic glue, one or a combination set of silica gel thing.

This connecting element also includes a function part, and this function part is connected with this bonding part, is positioned at inside this bonding part and/or outside.

This function part is molecular sieve.

The vertical cross section of this bonding part is for " L " type and is formed with opening, and this functional part is in this opening or is positioned at mouth periphery.

The vertical cross section of this bonding part is for " U " type and is formed with opening, and this functional part is in this opening or is positioned at mouth periphery.

This function part is formed by particulate matter, and it is scattered in this bonding part.

This building glass, glass unit surround receiving chamber by the bonding of this connecting element.

This receiving intracavity is provided with the combination of one or more in air, noble gas, explosion-proof lamp or acoustic damping materials.

This explosion-proof lamp and/or acoustic damping materials are silica gel, polyethylene terephthalate, polyester material, acrylic material, polypropylene material, polyacrylic acid material, epoxy resin, phenolic resin material, unsaturated polyester material, one or a combination set of elastomeric material thing.

This connecting element is planar structure, and this bonding part area accounts for the 80%-100% of this glass unit area.

This connecting element is matrix structure, and this bonding part area accounts for the 10%-90% of this glass unit area.

This connecting element has framework, the first bonding part, the second bonding part and function part, this first bonding part, this second bonding part and this functional part are in this framework, this framework is positioned at the edge of this building glass and this thin glass, and this first bonding part is bonding with this thin glass, this second bonding part is bonding with this building glass, and this function part is near this first bonding part.

The thickness of this first bonding part or this second bonding part is 0.01-10mm, and the thickness of this function part is 0.01mm-10mm.

At this glass elements away from being additionally provided with protective element on the surface of this building glass.

This glass unit is formed by glass assembly, and this glass assembly is laminated glass.

It is provided with functional layer on this glass assembly.

The connecting element of the recycling structure of this building glass also includes film, this film is between this glass unit and this building glass, this bond site is in the both sides of this film, and the material of this film is one or a combination set of polyethylene terephthalate, acrylic, silica gel thing.

The recycling structure of this building glass also comprises fluid sealant, and this fluid sealant is coated in the outer rim of this glass unit or this connecting element.

The material of this fluid sealant is silicone adhesive, without one or a combination set of shadow glue, glass cement and structure glue thing.

Glass unit is directly bonded on building glass by the recycling structure of above-mentioned building glass by having the bonding part of adhesive function, inertial thinking and design that transformation existing building glass is double glazing are broken, add new departure of transformation existing building glass, effectively reduce the thickness of windowpane after transformation, drastically increase the product suitability, this structure is simplified, design ingenious, mounting structure is simple, therefore can avoid changing existing building glass to material, cost and the waste of manpower, avoid using flexible membrane, and avoid existing building glass is closed the defect that medi-empty glass window exists；And then cost can be advantageously reduced, increase the service life and reduce transformation difficulty.

Accompanying drawing explanation

Fig. 1 is the recycling structure schematic side view of the building glass of first embodiment of the invention.

Fig. 2 is the schematic side view of the glass unit of the recycling structure of building glass shown in Fig. 1.

Fig. 3 is the schematic side view of the glass unit of the recycling structure of the building glass of second embodiment of the invention.

Fig. 4 is the schematic side view of the glass unit of the recycling structure of the building glass of third embodiment of the invention.

Fig. 5 is the schematic side view of the glass unit of the recycling structure of the building glass of fourth embodiment of the invention.

Fig. 6 is the schematic side view of the connecting element of the recycling structure of building glass shown in 1.

Fig. 7 is the generalized section that the connecting element shown in Fig. 6 is cut open along AA-AA '.

Fig. 8 is the generalized section of the connecting element of the recycling structure of the building glass of fifth embodiment of the invention.

Fig. 9 is the generalized section of the connecting element of the recycling structure of the building glass of sixth embodiment of the invention.

Figure 10 is the schematic side view of the connecting element of the recycling structure of the building glass of seventh embodiment of the invention.

Figure 11 is the generalized section that the connecting element shown in Figure 10 is cut open along BB-BB '.

Figure 12 is the recycling structure schematic side view of the building glass of eighth embodiment of the invention.

Figure 13 is the recycling structure schematic side view of the building glass of ninth embodiment of the invention.

Figure 14 is the schematic side view of the glass assembly of the recycling structure of the building glass of tenth embodiment of the invention.

Figure 15 is the schematic side view of the glass assembly of the recycling structure of the building glass of eleventh embodiment of the invention.

Figure 16 is the schematic side view of the glass assembly of the recycling structure of the building glass of twelveth embodiment of the invention.

Figure 17 is the schematic side view of the glass assembly of the recycling structure of the building glass of thriteenth embodiment of the invention.

Figure 18 is the schematic side view of the glass assembly of the recycling structure of the building glass of fourteenth embodiment of the invention.

Figure 19 is the schematic side view of the glass assembly of the recycling structure of the building glass of fifteenth embodiment of the invention.

Figure 20 is the schematic side view of the glass assembly of the recycling structure of the building glass of sixteenth embodiment of the invention.

Figure 21 is the schematic side view of the glass assembly of the recycling structure of the building glass of seventeenth embodiment of the invention.

Figure 22 is the schematic side view of the recycling structure of the building glass of eighteenth embodiment of the invention.

Figure 23 is the schematic side view of the recycling structure of the building glass of nineteenth embodiment of the invention.

Figure 24 is the schematic side view of the recycling structure of the building glass of twentieth embodiment of the invention.

Figure 25 is the generalized section of the recycling structure of the building glass of 21st embodiment of the invention.

Figure 26 is the structural representation of a kind of existing door and window.

Figure 27 is the generalized section that existing door and window shown in Figure 26 is cut open along CC-CC '.

Detailed description of the invention

Below in conjunction with drawings and Examples, the recycling structure of the building glass of the present invention is described in further detail.

Referring to Fig. 1, the recycling structure 100 of the building glass of first embodiment of the invention, it includes glass unit 11, building glass 12 and connecting element 13.This connecting element 13 at least includes the bonding part 132 with adhesive function, and connecting element 13 to be bonded in the thickness between glass unit 11 and building glass 12 be 0.01mm-4mm, preferably 0.01mm-3mm.

Wherein, glass unit 11 can be made up of monolithic glass, and its thickness can be 0.05mm ~ 5mm, and preferred thickness is 0.3mm ~ 4mm.The thickness of glass substrate 111 used by glass unit 11 can be 0.05mm ~ 5mm, and preferred thickness is 0.3mm ~ 4mm.When the thickness of substrate 111 is more than 0.3mm, the intensity of substrate 111 is higher, the most broken, and production difficulty is less；When the thickness of substrate 111 is less than 4mm, fiber-loss is little, glass weight is less, cost of transportation is relatively low, and during fitting with building glass, to the heavy burden load of articulamentum in the reasonable scope, the binding part material being suitable for using is more, it is furthermore preferred that the thickness of substrate 111 can be 0.5mm-3.0mm, for example, 1.3mm, 1.6mm, 1.9mm, 2mm, 2.6mm.The glass types that substrate 111 uses can include high lead glass, middle lead glass, soda-lime glass, and above-mentioned glass can select chemical tempering or physical toughened as required.

Glass unit 11 may also include functional layer 112.In the present embodiment, glass unit 11 comprises substrate 111 and the functional layer 112 being formed on substrate 111.Functional layer 112 can have sunlight control or the function such as Low emissivity or conduction.Such as, low radiation functions layer can be without silver structure or money base structure.Wherein, transparent conducting coating, barrier layer, protective layer and dielectric layer can be included without silver structure function layer.This transparent conducting coating can be tin indium oxide (ITO)；This barrier layer can be nichrome and oxide thereof or nitride, titanium and oxide thereof, zinc oxide or allumen oxide；This protective layer can be SiAlN or SiN；This dielectric layer can be TiO₂Or ZnSnO, SiO₂Or SiNO.Money base structure function layer can include Ag containing layer, barrier layer, protective layer and dielectric layer.This Ag containing layer can be silver.The structure of money base structure function layer can be single silver structure, double silver structures or three silver medal structures.Wherein, single silver structure function layer can be included as barrier layer, Ag containing layer, barrier layer, dielectric layer and protective layer.Double silver structure function layers can comprise barrier layer, Ag containing layer, barrier layer, dielectric layer, barrier layer, Ag containing layer, barrier layer and protective layer.Three silver medal structure function layers can comprise barrier layer, Ag containing layer, barrier layer, dielectric layer, barrier layer, Ag containing layer, barrier layer, dielectric layer, barrier layer, Ag containing layer, barrier layer and protective layer.The thickness of functional layer 112 can be 10 nanometers (nm)-800nm.Preferably, functional layer 112 thickness is 100nm-500nm.Especially, the substrate 111 of the glass unit 11 of the embodiment of the present invention also can carry out tempering process.Specifically, first substrate 111 can be carried out tempering process, substrate 111 superficial growth functional layer 112 the most after tempering；Also tempering process can be carried out to growing the substrate 111 having functional layer 112 more first in substrate 111 superficial growth functional layer 112.

Referring to Fig. 3-5, in embodiments of the invention two to four, glass unit 11 can also have other structures.As it is shown on figure 3, glass unit 11a comprises substrate 111a and is sequentially formed at functional layer 112a on substrate 111a and enhancement layer 113a.As shown in Figure 4, glass unit 11b comprises substrate 111b and is respectively formed at functional layer 112b on substrate 111b opposite sides face and enhancement layer 113b.As it is shown in figure 5, glass unit 11c comprises substrate 111c, functional layer 112c being formed in substrate 111c two opposite side surfaces and is respectively formed at the enhancement layer 113c on two functional layer 112c surfaces.Wherein, above-mentioned enhancement layer 113a, enhancement layer 113b and enhancement layer 113c can be to include one or a combination set of explosion-proof layer and noise reduction layer.Enhancement layer 113 can be silica gel, polyethylene terephthalate, polyester material, acrylic material, polypropylene material, polyacrylic acid material, epoxy resin, phenolic resin material, unsaturated polyester material, one or a combination set of elastomeric material thing.

The most referring also to Fig. 1, Fig. 6 and Fig. 7, connecting element at least includes bonding part 132, and the thickness of bonding part 132 can be 0.01mm-4mm；Preferably, the thickness of bonding part 132 is 0.05mm-2.5mm；It is highly preferred that the thickness of bonding part 132 is 0.1mm-2mm.Bonding part 132 is macromolecular material, and such as butyl rubber, structure glue, glass cement, without shadow glue, acrylic glue, silica gel.Connecting element 13 may also include the function part 131 being connected with bonding part 132.Wherein, function part 131 can be molecular sieve.The thickness of function part 131 can be 0.01mm-3mm；Preferably, the thickness of function part is 0.03mm-2mm.The middle part of connecting element 13 is surrounded by through hole 130, function part 131 is positioned at the inner side of through hole 130, bonding part 132 is positioned at the glass unit 11 surrounding towards the surface of building glass 12, thus form " mouth " character form structure, in this case, the width of bonding part 132 can be 0.1mm-30mm, or bonding part 132 area to account for glass unit 11 area be no more than 5%, preferably no greater than 3.5%.Function part 131 is positioned at the surrounding of bonding part 132, it is also possible to be positioned at the outer surrounding of bonding part 132, it is also possible to be positioned at the inside and outside surrounding of bonding part 132 simultaneously.Glass unit 11, building glass 12 surround the receiving chamber 14 of sealing by connecting element 13 bonding.Accommodating chamber 14 can be annular seal space, its thickness and the consistency of thickness of bonding part 132.Accommodate chamber 14 and can house air also or other gases, such as noble gas；Accommodating chamber 14 can also be a subnormal ambient；Accommodate chamber 14 and can also house implant wherein, implant can be explosion-proof lamp and/or acoustic damping materials, such as silica gel, polyethylene terephthalate, polyester material, acrylic material, polypropylene material, polyacrylic acid material, epoxy resin, phenolic resin material, unsaturated polyester material, one or a combination set of elastomeric material thing.The thickness accommodating chamber 14 is 0.01mm-4mm, preferably 0.01mm-3mm, so that house air also or during other gases when accommodating chamber 14, can form micro-hollow structure.

Referring to Fig. 8-13, in embodiments of the invention five to nine, connecting element can also have other structures.As shown in Figure 8, the vertical cross section of the bonding part 132a of connecting element 13a is for " L " type and is formed with opening, and function part 131a is positioned at this opening.As it is shown in figure 9, the vertical cross section of the bonding part 132b of connecting element 13b for " U " type and is formed with opening, function part 131b is positioned at this opening.As shown in Figure 10 Yu Figure 11, the function part 131c of connecting element 13c is formed by particulate matter, and it is scattered in this bonding part 132c.As shown in figure 12, connecting element 13d is planar structure, i.e. connecting element 13 coats building glass 12 or the 80%-100% of glass unit 11 area, preferably 90%-95%.As shown in figure 13, connecting element 13e is matrix structure, wherein can form many little cavitys, the most i.e. connecting element 13 area and account for building glass 12 or the 10%-90% of glass unit 11 area, preferably 40%-80%.

Referring to Figure 14-21, in embodiments of the invention ten to ten seven, glass unit can also be formed for glass assembly 21.Glass assembly 21 is laminated glass, the structure of laminated glass is generally two panels or divided glass, between pressed from both sides the compound glass product of one or more layers organic polymer intermediate coat, the material of conventional organic polymer intermediate coat is one or a combination set of PVB, SGP, EVA, PU thing, and the thickness of glass substrate 111 used is as described above.

As shown in figure 14, glass assembly 21 can include the first original sheet glass 211, interlayer 212 and the second original sheet glass 213, and interlayer 212 is between the first original sheet glass 211 and the second original sheet glass 213.First original sheet glass 211 can be used for towards building glass.Wherein, the thickness of the first original sheet glass 211 and the second original sheet glass 213 can be 0.3mm ~ 4mm respectively；Preferably, the thickness of the first original sheet glass 211 and the second original sheet glass 213 can be 0.5mm ~ 2mm, such as 1.3mm, 1.6mm, 1.9mm respectively.First original sheet glass 211 and the second original sheet glass 213 also can be respectively safety glass, and the i.e. first original sheet glass 211 and the second original sheet glass 213 process also by tempering and formed.The material of interlayer 212 is one or a combination set of PVB, SGP and EVA thing, and its thickness can be 0.1mm-2mm, such as 0.38mm, 0.76mm, 1.52mm.Can be glued together with the second original sheet glass 213 by the first original sheet glass 211 by interlayer 212.

Especially, in the present embodiment, glass assembly 21 also comprises functional layer 214, and functional layer 214 is formed at the outer surface of the second original sheet glass 213, and the material of functional layer 214, composition or structure can be same or similar with functional layer 112, do not repeat them here.

As shown in figure 15, glass assembly 21a is similar to glass assembly 21, and glass assembly 21a includes the first original sheet glass 211a, interlayer 212a, the second original sheet glass 213a and functional layer 214a；Wherein, functional layer 214a is positioned at the first original sheet glass 211a outer surface.

As shown in figure 16, glass assembly 21b is similar to glass assembly 21, and glass assembly 21b includes the first original sheet glass 211b, interlayer 212b, the second original sheet glass 213b and functional layer 214b；Wherein, functional layer 214b is between interlayer 212b and the second original sheet glass 213b.

As shown in figure 17, glass assembly 21c is similar to glass assembly 21, and glass assembly 21c includes the first original sheet glass 211c, interlayer 212c, the second original sheet glass 213c and functional layer 214c；Wherein, functional layer 214c is between the first original sheet glass 211c and interlayer 212c.

As shown in figure 18, glass assembly 21d is similar to glass assembly 21, and glass assembly 21d includes the first original sheet glass 211d, interlayer 212d, the second original sheet glass 213d and functional layer 214d；Wherein, glass assembly 21d also includes enhancement layer 215d.Interlayer 212d, the second original sheet glass 213d, functional layer 214d and enhancement layer 215d are sequentially formed on the first original sheet glass 211d.Here enhancement layer and hereafter is same or similar with enhancement layer 113 above, does not repeats them here.

As shown in figure 19, glass assembly 21e is similar to glass assembly 21d, and glass assembly 21e includes the first original sheet glass 211e, interlayer 212e, the second original sheet glass 213e, functional layer 214e and enhancement layer 215e.First original sheet glass 211e, interlayer 212e, the second original sheet glass 213e and functional layer 214e are sequentially located on enhancement layer 215e.

As shown in figure 20, glass assembly 21f is similar to glass assembly 21d, and glass assembly 21f includes the first original sheet glass 211f, interlayer 212f, the second original sheet glass 213f, functional layer 214f and enhancement layer 215f.First original sheet glass 211f, interlayer 212f, the second original sheet glass 213f, functional layer 214f and enhancement layer 215f are sequentially located on another enhancement layer 215f.

As shown in figure 21, glass assembly 21g is similar to glass assembly 21d, and glass assembly 21g includes the first original sheet glass 211g, interlayer 212g, the second original sheet glass 213g, functional layer 214g and enhancement layer 215g.Functional layer 214g, the first original sheet glass 211g, interlayer 212g, the second original sheet glass 213g, another functional layer 214g and enhancement layer 215g are sequentially located on another enhancement layer 215g.

Referring to Figure 22, show the recycling structure 300 of the building glass of eighteenth embodiment of the invention, the recycling structure 300 of building glass is similar to the recycling structure 100 of building glass, and it includes glass unit 31, building glass 32 and connecting element 33；Glass unit 31, building glass 32 surround the receiving chamber 34 of sealing by connecting element 33 bonding.Especially, in the present embodiment, connecting element 33 has framework the 330, first bonding part the 332, second bonding part 333 and function part 331.First bonding part the 332, second bonding part 333 and function part 331 are positioned in this framework 330.Framework 330 is positioned at the edge of building glass 32 and glass unit 31, the cross section of its vertical direction is similar to stairstepping, function part 331 is positioned on the step surface adjacent with glass unit 31 with the first bonding part 332, and the second bonding part 333 is positioned on the step surface adjacent with building glass 32.First bonding part 332 is bonding with glass unit 31, and this second bonding part 333 is bonding with building glass 32, and function part 331 is near the second bonding part 333.Framework 330 material can be metal material, preferably aluminum products, it is also possible to is macromolecular material, ceramic material, composite.

In installation process, first glass unit 31, building glass 32 can be cleaned dried；Then, by the first bonding part 332, framework 330 is bonded with glass unit 31；By the second bonding part 333, the glass unit 31 in framework 330 is bonded with building glass 32；Glue between glass unit 31, building glass 32 and connecting element 33.

Referring to Figure 23, show the recycling structure 500 of the building glass of nineteenth embodiment of the invention, the recycling structure 500 of building glass is similar to the recycling structure 100 of building glass, and it includes glass unit 51, building glass 52 and connecting element 53.Especially, in the present embodiment, the recycling structure 500 of building glass is additionally provided with protective element 55.Protective element 55 is positioned on the surface of glass unit 51, and away from building glass 52.Protective element 55 encloses the outer surrounding being located at glass unit 51 back to the surface of building glass 52, for improving glass unit 51, building glass 52 and the bond strength of connecting element 53.Further, described protective element 55 can also reduce the light aging impact on bonding part 53, increases aesthetics simultaneously.

In installation process, first glass unit 51, building glass 52 can be cleaned dried；Then, connecting element 53 is fixed on building glass 52 or glass unit 51；By connecting element 53, building glass 52 is bonded with glass unit 51；Then, glue between glass unit 51, building glass 52 and connecting element 53；Then, protective element 55 is fixed on glass unit 51.

Referring to Figure 24, show the recycling structure 600 of the building glass of twentieth embodiment of the invention, the recycling structure 600 of building glass is similar to the recycling structure 100 of building glass, and it includes glass unit 61, building glass 62 and connecting element 63.Especially, in the present embodiment, the recycling structure 600 of building glass is additionally provided with film 66.Film 66 is formed between connecting element 63 and building glass 62, its toughness that can be used for strengthening building glass 62, and can be used for further noise reduction and improve safety.Film 66 can use to be had some strength, is able to support oneself and does not bends and material that transparency is high, such as silica gel, polyethylene terephthalate, polyester material, acrylic material, polypropylene material, polyacrylic acid material, epoxy resin, phenolic resin material, unsaturated polyester material, one or a combination set of elastomeric material thing.The thickness of film 66 can be 0.1mm ~ 1.5mm.

Refer to Figure 25, it show the recycling structure 700 of the building glass of 21st embodiment of the invention, the recycling structure 700 of building glass is similar to the recycling structure 100 of building glass, it includes that glass assembly 71, building glass 72 and connecting element 73, glass assembly 71, building glass 72 surround the receiving chamber 74 of sealing by connecting element 73 bonding.Especially, in the present embodiment, the connecting element 73 of the recycling structure of building glass includes function part 731 and bonding part 732, the inner side that function part 731 is positioned at, and bonding part 732 is positioned at outside.Function part 731 comprises butyl rubber and the mixture 7311 of molecular sieve and supporter 7313, and supporter 7313 is waveform bending structure.Bonding part 732 can be formed by weather-resistant glue.The height (thickness) accommodating chamber 74 can be 3mm, forms micro-hollow structure.Glass assembly 71 can include the first original sheet glass 711, interlayer 712 and the second original sheet glass 713, and interlayer 712 is between the first original sheet glass 711 and the second original sheet glass 713.The thickness of the first original sheet glass 711 and the second original sheet glass 713 can be 1.2mm, and interlayer 712 can be formed by the polyvinyl butyral resin (PVB) that 0.38mm is thick.

Glass unit is directly bonded on building glass by the recycling structure of the building glass of the present invention by connecting element, smart structural design, mounting structure is simple, therefore can avoid changing the waste to material, cost and manpower of the existing building glass, avoid using flexible membrane, and avoid existing building glass is closed the step of hollow；And then cost can be advantageously reduced, increase the service life and reduce transformation difficulty.

Additionally, the recycling structure of the building glass of the embodiment of the present invention also can comprise fluid sealant, this fluid sealant is coated in the outer rim of this glass unit or this connecting element, and it can be used for filling produced gap in installation process.The material of this fluid sealant can be silicone adhesive, without one or a combination set of shadow glue, glass cement and structure glue thing, and different additives or pigment can added at this fluid sealant, thus reaching the functions such as waterproof, fungi-proofing or UV resistance or there is different colors.

The above, it it is only presently preferred embodiments of the present invention, not the present invention is made any pro forma restriction, although the present invention is disclosed above with preferred embodiment, but it is not limited to the present invention, any those skilled in the art, in the range of without departing from technical solution of the present invention, when the technology contents of available the disclosure above makes a little change or is modified to the Equivalent embodiments of equivalent variations, in every case it is without departing from technical solution of the present invention content, any simple modification above example made according to the technical spirit of the present invention, equivalent variations and modification, all still fall within the range of technical solution of the present invention.

Claims (29)

1. the recycling structure of a building glass, it includes building glass, it is characterized in that: the recycling structure of this building glass also includes glass unit and connecting element, this connecting element at least includes the bonding part with adhesive function, and this connecting element to be connected to the thickness between this building glass and this glass unit be 0.01mm-4mm.

The recycling structure of building glass the most according to claim 1, is characterized in that: the thickness of this glass unit is 0.05mm ~ 5mm.

The recycling structure of building glass the most according to claim 2, is characterized in that: the thickness of this glass unit is 0.3mm ~ 4mm.

The recycling structure of building glass the most according to claim 1, is characterized in that: be formed with functional layer on this glass unit, this functional layer be positioned at the inner side of described glass unit, outside or inside and outside.

The recycling structure of building glass the most according to claim 4, is characterized in that: this functional layer includes the combination of one or more in solar control film layer, low-radiation film layer and conductive film layer.

The recycling structure of building glass the most according to claim 4, is characterized in that: also include on this glass unit that enhancement layer, this enhancement layer are positioned at the one or both sides of this glass unit.

The recycling structure of building glass the most according to claim 6, it is characterized in that: this enhancement layer is silica gel, polyethylene terephthalate, polyester material, acrylic material, polypropylene material, polyacrylic acid material, epoxy resin, phenolic resin material, unsaturated polyester material, one or a combination set of elastomeric material thing.

The recycling structure of building glass the most according to claim 1, is characterized in that: the thickness of this bonding part is 0.01mm-4mm.

The recycling structure of building glass the most according to claim 8, is characterized in that: the thickness of this bonding part is 0.1mm-2mm.

The recycling structure of building glass the most according to claim 1, it is characterized in that: this bond site in this glass unit towards the surrounding on the surface of this building glass, thus form " mouth " character form structure, the width of this bonding part is 0.1mm-30mm, or this bonding part area to account for this glass unit area be no more than 5%.

The recycling structure of 11. building glasses according to claim 1, is characterized in that: this bonding part is butyl rubber, structure glue, glass cement, without shadow glue, acrylic glue, one or a combination set of silica gel thing.

The recycling structure of 12. building glasses according to claim 1, is characterized in that: this connecting element also includes a function part, and this function part is connected with this bonding part, is positioned at inside this bonding part and/or outside.

The recycling structure of 13. building glasses according to claim 12, is characterized in that: this function part is molecular sieve.

The recycling structure of 14. building glasses according to claim 11, is characterized in that: the vertical cross section of this bonding part is for " L " type and is formed with opening, and this functional part is in this opening or is positioned at mouth periphery.

The recycling structure of 15. building glasses according to claim 11, is characterized in that: the vertical cross section of this bonding part is for " U " type and is formed with opening, and this functional part is in this opening or is positioned at mouth periphery.

The recycling structure of 16. building glasses according to claim 11, is characterized in that: this function part is formed by particulate matter, and it is scattered in this bonding part.

The recycling structure of 17. building glasses according to claim 1, is characterized in that: this building glass, glass unit surround receiving chamber by the bonding of this connecting element.

The recycling structure of 18. building glasses according to claim 17, is characterized in that: this receiving intracavity is provided with the combination of one or more in air, noble gas, explosion-proof lamp or acoustic damping materials.

The recycling structure of 19. building glasses according to claim 18, it is characterized in that: this explosion-proof lamp and/or acoustic damping materials are silica gel, polyethylene terephthalate, polyester material, acrylic material, polypropylene material, polyacrylic acid material, epoxy resin, phenolic resin material, unsaturated polyester material, one or a combination set of elastomeric material thing.

The recycling structure of 20. building glasses according to claim 1, is characterized in that: this connecting element is planar structure, and this bonding part area accounts for the 80%-100% of this glass unit area.

The recycling structure of 21. building glasses according to claim 1, is characterized in that: this connecting element is matrix structure, and this bonding part area accounts for the 10%-90% of this glass unit area.

The recycling structure of 22. building glasses according to claim 1, it is characterized in that: this connecting element has framework, the first bonding part, the second bonding part and function part, this first bonding part, this second bonding part and this functional part are in this framework, this framework is positioned at the edge of this building glass and this thin glass, and this first bonding part is bonding with this thin glass, this second bonding part is bonding with this building glass, and this function part is near this first bonding part.

The recycling structure of 23. building glasses according to claim 22, is characterized in that: the thickness of this first bonding part or this second bonding part is 0.01-10mm, and the thickness of this function part is 0.01mm-10mm.

The recycling structure of 24. building glasses according to claim 1, is characterized in that: at this glass elements away from being additionally provided with protective element on the surface of this building glass.

The recycling structure of 25. building glasses according to claim 1, is characterized in that: this glass unit is formed by glass assembly, and this glass assembly is laminated glass.

The recycling structure of 26. building glasses according to claim 25, is characterized in that: be provided with functional layer on this glass assembly.

The recycling structure of 27. building glasses according to claim 1, it is characterized in that: the connecting element of the recycling structure of this building glass also includes film, this film is between this glass unit and this building glass, this bond site is in the both sides of this film, and the material of this film is one or a combination set of polyethylene terephthalate, acrylic, silica gel thing.

The recycling structure of 28. building glasses according to claim 1, is characterized in that: the recycling structure of this building glass also comprises fluid sealant, and this fluid sealant is coated in the outer rim of this glass unit or this connecting element.

The recycling structure of 29. building glasses according to claim 28, is characterized in that: the material of this fluid sealant is silicone adhesive, without one or a combination set of shadow glue, glass cement and structure glue thing.