CN102007347A

CN102007347A - Solar energy reflector

Info

Publication number: CN102007347A
Application number: CN2009801136754A
Authority: CN
Inventors: L·梵泰隆; O·博斯纳德
Original assignee: AGC Glass Europe SA
Current assignee: AGC Glass Europe SA
Priority date: 2008-04-18
Filing date: 2009-04-17
Publication date: 2011-04-06
Anticipated expiration: 2029-04-17
Also published as: AU2009253324A1; EP2268981A2; IL208736A0; CN102007347B; WO2009144095A3; WO2009144095A2; US20110220098A1; AU2009253324B2

Abstract

Solar energy reflectors (1) according to the present invention comprise a mirror (5) laminated to a support (6) by means of a bonding material (9) comprising a foam tape.

Description

The solar energy reflection body

Technical field

The present invention relates to solar energy reflection body and manufacture method thereof.

Reflector of the present invention can be used in solar energy or the heating facility, for example concentration solar generating equipment.Such facility uses solar energy at first to produce heat, and described heat can be subsequently converted to electricity or be used for steam and produce.Wherein can use the concentration solar generating equipment of reflector of the present invention to comprise for example parabola slot type generating equipment, concentrated tower generating equipment (being also referred to as settled date mirror generating equipment), disc type heat collector and Fresnel (Fresnel) reflection generating equipment.Solar energy reflection body of the present invention can be used in this class facility of plane mirror or curved surface mirror.

Background technology

The solar energy reflection body can be made by the lamilated body that formation comprises the thin mirror that is attached to support chip, and described support chip has the surface size substantially the same with this mirror.If mirror approaches, then can obtain its maximum reflectivity, therefore when passing the base material of mirror, solar energy less absorbed.But thin mirror may be bad aspect mechanical resistance, therefore may need they are laminated on support base material such as the sheet metal.This mirror and support base material then form single laminate structures.In addition alternatively, the solar energy reactor can use mirror as follows to make, and described mirror is adapted to not to be used supporting pieces and for this mirror provides enough mechanical resistances, for example have the mirror of bigger thickness.Bracing or strutting arrangement can be connected on the mirror to be used for fixing solar power-generating facility and/or can to help to keep the curve form of mirror.

Known by means of epoxy resin, mirror layer is incorporated on their supporter based on organosilyl adhesive, polyurethane binder, hotmelt, acrylic resin based adhesive or polyvinyl chloride binder course.Usually find for bond material, advantageously to comprise acrylic resin.In some cases, epoxy resin, organic siliconresin and polyurethane resin can discharge chemical substance, the skin of paint of described chemical substance erodable mirror and finally corrode silver layer; When taking place when crosslinked, epoxy resin can produce tensile stress between the skin of paint of mirror and silver layer, and this can cause separating in mirror structure; Hotmelt can lose its flexible at least a portion when being exposed to higher temperature, this can cause separating of mirror and support chip; When sheet metal expanded in the temperature difference that stands to operate, some were based on organosilyl material (for example structuring organosilicon) rigidity too, and this can cause that the paint of mirror and silver layer are drawn out; Organosilicon can produce planar disfigurement during laminated; Polyurethane resin may be not enough to the opposing ultraviolet ray.Acrylic resin may demonstrate advantage aspect chemically neutral, ultraviolet repellence and flexible and the elasticity.Perhaps alternatively, bond material can comprise EVA (ethylene vinyl acetate) or other polymer film based on acetate, PVB (polyvinyl butyral resin), TPU (thermoplastic polyurethane) or based on the film of ionomer.These materials can demonstrate favorable properties aspect chemically neutral, ultraviolet repellence and flexible and the elasticity.Other known bond material can comprise acrylic psa, and this can be used as transfering belt (transfer tape) and provides, and wherein adhesive is present between two supportive releasing pieces that are intended to be removed.Perhaps alternatively, it can be used as support type adhesive tape (supported tape) and provides, and wherein adhesive provides on the both sides of the support chip that is intended to keep.Such support type adhesive tape for example comprises the core that is made of PET film or polyester foil basically, and this core is surrounded by the layer that is made of the pressure-sensitive resin of acrylic compounds basically.

Summary of the invention

One of according to aspects of the present invention, the invention provides the solar energy reflection body that limits as claim 1.Other claim defines preferred and/or optional aspect of the present invention.

Solar energy reflection body according to the present invention comprises the mirror that is laminated into supporter by the bond material that comprises the foam adhesive tape, mirror and supporter form laminated assembly like this, be single laminate structures, this structure makes up the mode that mirror and supporter combine with bond material.Preferably, bond material is made of foam adhesive tape (foam tape) basically.

This can provide the advantageous property that comprises one of following or any combination:

Directly the bonding comparable utilization after applying is not bigger by the same binder of foam carrier load;

The thickness of foam adhesive tape and flexiblely provide effective mating surface, it is greater than the typical thin of the PET that for example uses acrylic resin and the support type adhesive tape of rigidity more.In fact, opposite with foamed material, thin and more the bond material of rigidity can not adapt to the scrambling on the plane in mirror and/or the supporter, and therefore can not be fitted in its whole surface rightly, produce the air bubble that is trapped between mirror and/or supporter and the bond material.These defectives are known as " explosion (popping) "; They can produce optical defect in reflector.The present invention can reduce or avoid the risk of explosion.

The elasticity of foam adhesive tape can allow the slight opposing parallel displacement of the faying face of mirror and supporter, for example because the cause of the bending of the differential thermal expansion of mirror and supporter or lamilated body;

The high water-fast degree of foam adhesive tape or moisture-proof degree and sufficient bond strength can be reflector provides good anti-corrosion;

Good ultraviolet repellence.

This foam adhesive tape can advantageously comprise or preferably be made of following substances basically: foam carrier is coated with adhesive, promptly by the foam core material that centers on of layer of adhesive material on two main surfaces of this foam carrier.

Preferably, this foam carrier comprises or more preferably is made of following material basically: at least a polyethylene, polyurethane, vinylite, neoprene, EPDM and the polyester of being selected from.Polyethylene can be preferred because it is low-cost.We have found that the adhesive on being coated in foam carrier, the mechanical resistance that looks like foam itself has determined the performance of the anti-layering of reflector.The interior poly-of reflector can be controlled by selecting the suitable foam carrier.Advantageously, foam carrier can be made of polyethylene basically, and can have according to DIN53455 and be at least 5, and preferably at least 8, more preferably 10N/mm at least ²Hot strength (on the wide sample of 15mm, measuring); Its hot strength can be less than or equal to 50, preferably is less than or equal to 40, is more preferably less than or equals 30, perhaps preferably is less than or equal to 25N/mm again ²Can advantageously have for the polyethylene carrier and to be at least 80 according to DIN53455, preferably at least 100, more preferably at least 200, more preferably at least 240% percentage elongation again; Percentage elongation can be less than or equal to 500, preferably is less than or equal to 450, perhaps is more preferably less than or equals 400%.This foam carrier can have at least 0.2, the preferred thickness of 0.4mm at least; Thickness can be less than or equal to 3.5mm, preferably is less than or equal to 2mm.

Advantageously, this foam carrier is made of closed-cell foam material basically.This water, water vapour and humidity that can help to provide good seals, and therefore helps to provide good persistence for reflector.

Preferably, the adhesive that applies this foam carrier comprises acrylic compounds or structured adhesive; It can comprise or more preferably be made of following material basically: at least a acrylic compounds, organosilicon, polyurethane, epoxy, MS polymer and the rubber of being selected from.Adhesive preferably can be made of acrylic compounds basically.Acrylic resin can have favourable performance aspect chemically neutral, ultraviolet repellence and flexible and the elasticity.They can further provide cohesive adhesion fast.In specific embodiment, this adhesive can be different in the both sides of this foam carrier.

In the preferred embodiment of the invention, this bond material exists on the whole basically surface of the supporter of object mirror.This can provide good cohesive and anti-laminarity and/or can reduce water and enter place risks between supporter and the mirror, otherwise can improve the risk of mirror corrosion.

The mirror of the prior art of using in the solar energy reflection body is made in the mode of the conventional family expenses mirror that is used for internal application usually, is as follows: at first with the polishing of plate glass (float glass process soda lime glass) sheet, typically use SnCl then ₂The aqueous solution carry out sensitization; After flushing, handle the glass surface activation by ammoniated silver nitrate usually, apply silver plating solution then to form the opaque coating of silver; Cover this silver coating with protective copper layer then, cover this silver coating with one or more leaded skin of paints then so that produce the finished product mirror.It is believed that the combination of protective copper layer and leaded paint is necessary for acceptable aging characteristics and enough corrosion resistancies are provided.

Recently, developed the mirror that need not conventional copper layer, this mirror can use unleaded substantially paint and still have aging characteristics and the corrosion resistance that can accept even improve.For example, United States Patent (USP) 6,565,217 have disclosed a kind of embodiment of not having the mirror of copper layer, comprise successively according to this mirror of record: vitreous substrate; Be provided at the tin and the palladium of vitreous substrate surface; Silver-colored coat on described substrate surface; The tin that is present in silver-colored coat surface, described silver-colored coat is adjacent with at least one skin of paint; And at least one covers the skin of paint of silver-colored coat.Such mirror provides obvious improvement with respect to conventional copper facing mirror.

Solar energy reflection body according to the present invention preferably includes the mirror of no copper layer and comprises glass baseplate, the silver-colored coat that provides on the surface of glass baseplate and the skin of paint that at least one covers silver-colored coat.Preferably, this mirror is laminated into supporter, makes at least one skin of paint opposite support.The silver coat provides the reflecting layer (solar rays of sheet glass is passed in its reflection) of mirror.This at least one skin of paint can be that silver layer provides protection in case because the possible chemical erosion of bond material, and the bond material surface that can be adhered to.

Provide on the edge of mirror edge-protected can be provided solar energy reflection body according to the present invention.This edge of exposure that can help to protect silver layer is with anticorrosion.

Supporter can be basically be selected from following material and be constituted by at least a: metal material, plastic material, composite and glass.Preferably, it is made by steel, stainless steel, galvanized steel, painted steel or aluminium.

In preferred embodiments, supporter is the sheet material with surface size substantially the same with mirror, promptly identical length and identical width.This comprises following embodiment, and wherein supporter can be a bit larger tham mirror dimensionally, and mirror can be attached to supporter so that for example the projecting edge of 5mm can be extended out the outer rim of mirror.

Preferably, when being sheet metal, the thickness of supporter can be greater than 0.5mm or 0.6mm, and less than 1mm or 0.9mm; It can be preferably about 0.7 or 0.8mm.

Advantageously, when mirror was laminated on the supporter on its whole surface, the thickness of mirror can be greater than 0.9mm or 1.1mm; It can be less than 2mm or 1.5mm; It can be preferably about 0.95 or 1.25mm.This thin and flexible mirror wherein needing in the application of camber reflection body can be used for.The camber reflection body also can utilize thicker mirror manufacturing, and described mirror is not incorporated on the support with their whole superficial layer; In this case, the thickness of mirror can be greater than 2mm or 2.5mm; It can be less than 5mm or 4.5mm.When using the plane reflection body, the gross thickness of mirror can be greater than 2mm or 2.5mm; It can be less than 6mm or 5mm.

Preferably, the thickness that the silver-colored coat of mirror has is 80nm at least, 100nm at least, more preferably 120nm at least, or 140nm at least; Its thickness can be less than 200nm, preferably less than 180nm.Silver layer can comprise 800-2000mg/m ²Silver, preferred 1400-1800mg/m ²Silver.These values provide good compromise between good high energy (energetic) reflectance value of reflector and acceptable manufacturing cost.Preferably, (total iron content that promptly has is with Fe by super clear glass for the glass baseplate of mirror ₂O ₃Meter is less than the glass of 0.02 weight %) make.This also can help the good energetic reflection coefficient value of reflector.

In a preferred embodiment that is used for the mirror of solar energy reflection body according to the present invention, what put on the skin of paint of silver layer top or skin of paint is unleaded or unleaded basically one of at least.This is favourable, because lead is poisonous and it is avoided having environmental benefit.The unleaded basically ratio of lead in paint that mean here significantly is lower than the plumbous ratio that is used for the leaded paint of mirror in routine.Plumbous ratio in essentially no lead oil enamelled coating as defined herein is less than 500mg/m ², preferably less than 400mg/m ², be more preferably less than 300mg/m ²Plumbous ratio in lead-free paint layer as defined herein is less than 100mg/m ², preferably less than 80mg/m ², be more preferably less than 60mg/m ²

The finished product reflector can have according to standard ISO 9050:2003 greater than 90%, is preferably greater than 92% energetic reflection coefficient.The energetic reflection coefficient can be less than 97% or less than 96%.

Description of drawings

Now, will be by in the mode of only giving an example embodiment of the present invention being described with reference to Fig. 1-2 and embodiment 1-5 and comparative example 1-4.

Fig. 1 is the cross sectional representation of solar energy reflection body of the present invention.Fig. 2 is the schematic diagram according to curved solar energy reflector of the present invention.Fig. 3 is the schematic diagram of dynamic shear test.These figure not drawn on scale.

The specific embodiment

Fig. 1 has shown solar energy reflection body (1), and described solar energy reflection body (1) comprises by bond material (9) and is laminated to mirror (5) on the supporter of the sheet-form of metal (6) for example, and this bond material is made of the foam adhesive tape basically.This mirror comprises glass baseplate (2), silver layer (3) and at least one skin of paint (4).Foam adhesive tape (9) comprises foam carrier (7), is coated with adhesive (8,8 ') on two main face.

Fig. 2 shows curved solar energy reflector (10), and it comprises by foam adhesive tape (90,90 ') and is laminated to mirror (5) on the supporter of two differently contoured (profiles) (60,60 ') forms of metal for example.

Fig. 3 shows the sample that comprises mirror (5), adhesive tape (99) and steel supporter (6) that stands dynamic shear test.Arrow shows travel direction.

Embodiment 1-4 and comparative example 1-3 (non-according to the present invention) have reported at being adhered to

The type mirror is promptly measured by the adhesive test that the bond material on the no copper layer mirror of AGC Flat Glass Europe SA sale carries out.The result provides in Table I and II.AF represents adhesion failure (adhesive failure), and CF represents cohesional failure (cohesive failure).

In embodiment 1, bond material is the foam adhesive tape that has with the thick polyethylene carrier of the 0.8mm of pure acrylic acid class adhesive coating.Embodiment 2 has the bond material identical with embodiment 1, but foam carrier has the thickness of 1.6mm.Embodiment 3 has the bond material identical with embodiment 1, but foam carrier has the thickness of 2mm.Embodiment 4 has the bond material identical with embodiment 1, but foam carrier has the thickness of 3.2mm

In comparative example 1, bond material is the acrylic compounds transfering belt; The acrylic adhesives of this transfering belt is identical with acrylic adhesives among the embodiment 1-4.In comparative example 2, bond material is the thick acrylic compounds support type adhesive tape of 75 μ m that comprises the thick PET supporter of 12 μ m; The acrylic adhesives of this support type adhesive tape is lower than the acrylic adhesives of embodiment 1-4 in the quality aspect bonding.In comparative example 3, bond material is the thick acrylic compounds support type adhesive tape of 130 μ m that comprises the thick PET supporter of 12 μ m; The acrylic adhesives of this support type adhesive tape is identical with the acrylic adhesives of embodiment 1-4.

The surperficial required intensity of combination is torn in the disbonded test measurement.The measurement of disbonded test was carried out on mirror with 180 ° after 20 minutes and 24 hours down non-loaded.The result of these tests (Table I) demonstrates the optimum of foam adhesive tape and acrylic compounds support type adhesive tape (comparative example 3).

Static shear test has shown that bond material resists the ability of dead load in time.For these tests, adhesive is placed on the mirror and placed 1 hour down at 80 ℃ down and for other sample at 23 ℃ for some samples; Weight with 1kg is fixed on the sample then.Adhesive surface is 12.5x12.5mm.Obtain optimal results, especially at room temperature (referring to Table I) for the foam adhesive tape.Under higher temperature, it seems that thin foam adhesive tape provided better result.The comparative example demonstrates the acrylic compounds transfering belt or the support type adhesive tape has provided poor result.

Table I

Following carry out (referring to the Fig. 3) of dynamic shear test.The galvanized steel sample (2.5x6.5cm) of the sample (2.5x10x0.4cm) of cleaning and dry mirror and japanning.On mirror, apply the adhesive tape of a 1.5x2.5cm, and utilize the roll-in system of 1kg.Then steel sample is applied on this adhesive tape and the roll-in system of utilization.Under room temperature and humidity, allow sub-assembly polymerization 2 days then.After these 2 days, measure initial value and at room temperature carry out other measurement after 1 week aging.With the hauling speed of 5mm/min and at room temperature shearing force is applied to sample up to destruction.Each embodiment and comparative example carry out three or four times and measure, and these results' mean value and standard deviation provide in Table II.This shows the advantage of foam adhesive tape with respect to acrylic compounds support type adhesive tape, and especially for the result's of foam adhesive tape repeatability (lower standard deviation).

Table II

In embodiment 5, utilize the foam adhesive tape that the mirror layer of 40cmx60cm is incorporated on the support steel disc with surface size substantially the same with mirror, described foam adhesive tape has the polyethylene carrier that is coated with acrylic adhesives.With the sub-assembly bending.Be placed in the static furnace under 80 ℃ steady temperature 1 month.After this is handled, on mirror, see no mist degree, observe and do not peel off or separate.In comparative example 4, identical sub-assembly and test are carried out, but bond material is the acrylic compounds transfering belt.At the whole mist degree that arrives outwardly of mirror,, and observe peeling off of mirror silver layer at the edge especially in its marginal portion.

Claims

1. solar energy reflection body comprises by bond material and is laminated to mirror on the supporter, and wherein this bond material comprises the foam adhesive tape.

2. according to the solar energy reflection body of claim 1, wherein the foam adhesive tape comprises foam carrier, is coated with adhesive on two main surface.

3. according to the solar energy reflection body of claim 2, wherein foam carrier is made of at least a material that is selected from polyethylene, polyurethane, vinylite, neoprene, EPDM and polyester basically.

4. according to the solar energy reflection body of claim 2 or 3, wherein foam carrier is made of closed-cell foam material basically.

5. according to each solar energy reflection body of claim 2-4, wherein adhesive comprises the material that is selected from acrylic compounds, organosilicon, polyurethane, epoxy, MS polymer and rubber.

6. according to each solar energy reflection body of claim 2-5, wherein foam carrier is made of polyethylene basically, and has according to DIN 53455 and be 5-50N/mm ²Hot strength.

7. according to each solar energy reflection body of claim 2-5, wherein foam carrier is made of polyethylene basically, and has according to DIN 53455 and be the percentage elongation of 80-500%.

8. according to each solar energy reflection body of claim 2-7, wherein foam carrier has the thickness of 0.2-3.5mm.

9. according to each solar energy reflection body of aforementioned claim, wherein bond material is present on the whole basically surface of supporter of object mirror.

10. according to each solar energy reflection body of aforementioned claim, wherein this mirror does not have the copper layer, and glass baseplate, the silver-colored coat that provides on the surface of glass baseplate and skin of paint that at least one covers silver-colored coat are provided.

11. according to each solar energy reflection body of aforementioned claim, wherein mirror is laminated on the supporter, makes described at least one skin of paint towards supporter.

12. according to each solar energy reflection body of aforementioned claim, wherein supporter is made of at least a material that is selected from metal material, plastic material, composite and glass basically.

13. according to each solar energy reflection body of aforementioned claim, wherein supporter is the sheet material with surface size substantially the same with mirror.

14. the foam adhesive tape is used at the solar energy reflection body mirror layer being incorporated into purposes on the supporter as bond material.