CN110543040A - Light adjusting film mounting structure, hollow glass and assembling method of light adjusting film mounting structure - Google Patents

Abstract

the invention provides a light adjusting film mounting structure, hollow glass and an assembling method of the light adjusting film mounting structure, and relates to the technical field of glass products, wherein the light adjusting film mounting structure comprises two transparent substrates which are oppositely arranged; a light adjusting film is arranged between the two transparent substrates, and the two transparent substrates can be matched with and clamp the light adjusting film so as to enable two end faces of the light adjusting film to be respectively attached to the transparent substrates; the two transparent substrates are used for being fixed between two adjacent glass sheets of the hollow glass. Two transparent substrate cooperations press from both sides tight membrane of adjusting luminance, two terminal surfaces that make the membrane of adjusting luminance depend on respectively on transparent substrate, because the membrane of adjusting luminance is pressed from both sides by two transparent substrate, the membrane of adjusting luminance is difficult for producing protruding and the phenomenon of turning up, two transparent substrate press from both sides after the membrane of adjusting luminance is fixed between two adjacent glass pieces of cavity glass, two transparent substrate are difficult for producing protruding and the phenomenon of turning up, prevent to use membrane of adjusting luminance after a period to produce protruding and the phenomenon of turning up, prevent to influence cavity glass's dimming performance.

Description

Light adjusting film mounting structure, hollow glass and assembling method of light adjusting film mounting structure

Technical Field

The invention relates to the technical field of glass products, in particular to a light adjusting film mounting structure, hollow glass and an assembling method of the light adjusting film mounting structure.

background

An insulating glazing is a glass structure formed by separating at least two sheets of glass by an effective seal of sealant material and spacer material. The hollow glass has good heat insulation and sound insulation performance, and is used as a window for buildings, refrigerated cabinets, railway vehicles and the like.

The light adjusting film is a novel electronic light control product, the light adjusting film is formed by injecting a liquid crystal/polymer mixed material between two transparent conductive films, and the light adjusting film is in an opaque state under the condition of no electric field; electrifying to generate an electromagnetic field, regularly sequencing the polymers in the middle, and enabling the light adjusting film to reach a transparent state. The light adjusting film arranged in the hollow glass can improve the light adjusting performance of the hollow glass.

Among the prior art, the membrane of adjusting luminance directly bonds in cavity glass inboard, and after the time was placed for a long time, the bonding viscidity can not lead to the membrane of adjusting luminance protruding with turn up, influences cavity glass's dimming performance.

disclosure of Invention

The invention aims to provide a light adjusting film mounting structure to solve the technical problem that a light adjusting film in the prior art is easy to bulge and turn outwards to influence the light adjusting performance of hollow glass.

The invention provides a light adjusting film mounting structure, which comprises two transparent substrates arranged oppositely;

A light adjusting film is arranged between the two transparent substrates, and the two transparent substrates can be matched with and clamp the light adjusting film, so that two end faces of the light adjusting film are respectively attached to the transparent substrates; the two transparent substrates are used for being fixed between two adjacent glass sheets of the hollow glass.

Further, the light adjusting film mounting structure further comprises a spacer frame and a clamping piece;

The clamping piece is in a frame shape, a groove is formed in the inner side wall of the clamping piece, surrounds the periphery of the two transparent substrates, and clamps the two transparent substrates;

The division bar frame comprises four division bars, and the four division bars are sequentially connected to form the division bar frame;

And the two sides of the clamping piece are respectively provided with a parting strip frame, the end surface of each parting strip frame, facing the clamping piece, is fixedly connected with the clamping piece, and the end surface of each parting strip frame, facing the glass sheet, is fixedly connected with the glass sheet.

further, the edge areas of the two transparent substrates are bonded; or the edge regions of the two transparent substrates are connected by fasteners.

further, the transparent substrate is made of an organic polymer material or an inorganic polymer material; the division bars are made of metal, alloy, high polymer plastic or ceramic material; the clamping piece is made of metal, alloy, polymer plastic or ceramic material.

The invention also aims to provide hollow glass, which comprises a glass sheet, a light adjusting film and the light adjusting film mounting structure provided by the invention;

the light adjusting film is arranged between the two transparent substrates;

the number of the glass sheets is at least two, and the light adjusting film mounting structure is fixed between any two adjacent glass sheets.

Further, the hollow glass also comprises a spacing strip;

the barrier strip is fixed two one of transparent substrate is served, be equipped with the wiring mouth on the barrier strip, the wiring mouth is used for passing the wire of membrane of adjusting luminance.

Further, the hollow glass also comprises an edge sealing piece;

the edge sealing pieces are arranged on the periphery of the two adjacent glass sheets so as to seal the two adjacent glass sheets.

further, the number of the glass sheets is more than two.

further, the light adjusting film is multiple, and each light adjusting film is arranged between any two adjacent glass sheets.

further, the light adjusting film is one, and the light adjusting film is arranged between any two adjacent glass sheets.

another object of the present invention is to provide an assembling method of a light adjusting film mounting structure, for assembling the light adjusting film mounting structure provided by the present invention, including the steps of:

clamping the light modulation film by utilizing the matching of the two transparent substrates so as to enable two end faces of the light modulation film to be respectively attached to the transparent substrates;

And fixing the two transparent substrates between two adjacent glass sheets of the hollow glass.

Further, the method comprises the following steps:

cutting the parting strips, sequentially connecting and assembling the four parting strips into a parting strip frame, and respectively arranging bonding layers on two end surfaces of the parting strip frame;

manufacturing two partition strip frames according to the steps;

bonding a strip separating frame on each of the two glass sheets, wherein one end face of each strip separating frame is bonded on one glass sheet;

Clamping the light adjusting film by utilizing the matching of the two transparent substrates;

the groove of the clamping piece is used for surrounding the two transparent substrates, clamping the two transparent substrates, and leading the conducting wire of the light adjusting film to penetrate out of the reserved opening on the clamping piece;

aligning and bonding one end face of the clamping piece with the spacing strip frame on one glass sheet, and aligning and bonding the spacing strip frame on the other glass sheet with the other end face of the clamping piece;

edge sealing pieces are arranged around two adjacent glass sheets.

The invention provides a light adjusting film mounting structure, which comprises two transparent substrates arranged oppositely; a light adjusting film is arranged between the two transparent substrates, and the two transparent substrates can be matched with and clamp the light adjusting film, so that two end faces of the light adjusting film are respectively attached to the transparent substrates; the two transparent substrates are used for being fixed between two adjacent glass sheets of the hollow glass. Two transparent substrates set up the both sides at the membrane of adjusting luminance respectively, and two transparent substrate cooperations press from both sides tight membrane of adjusting luminance, two terminal surfaces that can make the membrane of adjusting luminance depend on transparent substrate respectively, because the membrane of adjusting luminance is pressed from both sides tightly by two transparent substrates, the membrane of adjusting luminance is difficult for producing protruding and the phenomenon of turning up, and for the difficult bending deformation of membrane of adjusting luminance transparent substrate, two transparent substrates press from both sides after the membrane of adjusting luminance is fixed between two adjacent glass pieces of cavity glass, two transparent substrates are also difficult for producing protruding and the phenomenon of turning up, consequently, utilize the membrane of adjusting luminance mounting structure installation membrane that the invention provided, can prevent to use the membrane of adjusting luminance after a period of time to produce protruding and the phenomenon of turning up, thereby prevent to influence.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic structural diagram of an insulating glass having two glass sheets and one light adjusting film according to an embodiment of the present invention;

Fig. 2 is a schematic structural view of a hollow glass provided with a light modulation film in a first cavity according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a hollow glass with a light modulation film disposed in a second cavity according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a hollow glass with a light modulation film disposed in a third cavity according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of hollow glass provided with a light modulation film in a first cavity and a third cavity according to an embodiment of the present invention;

Fig. 6 is a schematic structural view of hollow glass provided with light modulation films in a first cavity and a second cavity according to an embodiment of the present invention;

Fig. 7 is a schematic structural diagram of a second cavity and hollow glass with a light modulation film disposed in the second cavity, provided by an embodiment of the present invention;

FIG. 8 is a schematic structural diagram of a spacer in an insulating glass according to an embodiment of the present invention;

FIG. 9 is a schematic diagram of a configuration of an insulating glass having two glass sheets, a light modulating film, and clamping members;

FIG. 10 is a front view of the spacer frame of FIG. 9;

FIG. 11 is a schematic structural diagram of a hollow glass with a clamping member, provided with a light adjusting film in a first cavity according to an embodiment of the present invention;

Fig. 12 is a schematic structural diagram of a hollow glass with a clamping member, in which a light adjusting film is disposed in a second cavity according to an embodiment of the present invention;

FIG. 13 is a schematic structural diagram of a hollow glass with a clamping member having a light adjusting film disposed in a third cavity provided by an embodiment of the invention;

fig. 14 is a schematic structural diagram of hollow glass with a clamping member, in which light adjusting films are arranged in a first cavity and a third cavity, provided by an embodiment of the invention;

fig. 15 is a schematic structural diagram of a hollow glass with a clamping member, in which light adjusting films are disposed in a first cavity and a second cavity, according to an embodiment of the present invention;

Fig. 16 is a schematic structural diagram of a second cavity and hollow glass with a clamping member, in which a light modulation film is disposed in the second cavity, according to an embodiment of the present invention.

Icon: 1-a light adjusting film; 11-conducting wires of the light adjusting film; 2-a transparent substrate; 3-spacer frame; 31-parting beads; 4-a hollow cavity; 41-a first cavity; 42-a second cavity; 43-a third cavity; 5-a glass sheet; 6-edge sealing piece; 7-a spacer bar; 8-clamping member.

Detailed Description

The technical solutions of the present invention will be described in detail below with reference to the accompanying drawings in an initial state, and it is obvious that the described embodiments are some, not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The present invention provides a light adjusting film mounting structure, a hollow glass and an assembling method of the light adjusting film mounting structure, and a plurality of embodiments are given below to describe in detail the light adjusting film mounting structure, the hollow glass and the assembling method of the light adjusting film mounting structure provided by the present invention.

The light adjusting film mounting structure provided by the present embodiment, as shown in fig. 1 to 16, includes two transparent substrates 2 disposed opposite to each other; the light adjusting film 1 is arranged between the two transparent substrates 2, and the two transparent substrates 2 can be matched with and clamp the light adjusting film 1, so that two end faces of the light adjusting film 1 are respectively attached to the transparent substrates 2; both transparent substrates 2 are intended to be fixed between two adjacent glass sheets 5 of insulating glass.

Two transparent substrate 2 set up respectively in the both sides of membrane of adjusting luminance 1, and two 2 cooperation of transparent substrate press from both sides tight membrane of adjusting luminance 1, two terminal surfaces that can make membrane of adjusting luminance 1 depend on respectively on transparent substrate 2, because membrane of adjusting luminance 1 is pressed from both sides tightly by two transparent substrate 2, membrane of adjusting luminance 1 is difficult for producing protruding and the phenomenon of turning up, and for membrane of adjusting luminance 1 transparent substrate 2 is difficult for bending deformation, two 2 tight membrane of adjusting luminance after-fixing of transparent substrate press from both sides are between two adjacent glass pieces 5 of cavity glass, two transparent substrate 2 are also difficult for producing protruding and the phenomenon of turning up, consequently, membrane of adjusting luminance mounting structure installation membrane of adjusting luminance 1 that utilizes this embodiment to provide, membrane of adjusting luminance 1 can prevent to use the phenomenon that membrane of adjusting luminance produced protruding and turning up after a period, thereby prevent to.

The transparent substrate 2 may be made of organic polymer material such as polyethylene, polyvinyl chloride, or polypropylene, or may be made of inorganic polymer material such as glass sheet 5 or quartz glass sheet 5.

the dimming film 1 has the functions of privacy shielding and transparent instant conversion, has good ultraviolet resistance, infrared ray and electromagnetic wave functions, has the characteristic of light transmission and opaqueness, and effectively reduces the energy consumption of indoor electric lamps. The light adjusting film 1 is arranged in the hollow glass, and the hollow glass can have better heat insulation and heat preservation effects.

Wherein, after two transparent base plates 2 press from both sides tight membrane 1 of adjusting luminance, two transparent base plates 2 can the joint in the cavity 4 that forms between two adjacent glass pieces 5, also can fix in the cavity 4 that forms between two adjacent glass pieces 5 through the fastener. For example: the peripheries of two adjacent glass sheets 5 of the hollow glass are respectively provided with a separating strip, each separating strip is provided with a groove, the top ends of two transparent substrates 2 are clamped with the grooves on the separating strips at the top ends, and the bottom ends of the two transparent substrates 2 are clamped with the grooves on the separating strips at the bottom ends, so that the two transparent substrates 2 are fixed between the two adjacent glass sheets 5 of the hollow glass; or the peripheries of two adjacent glass sheets 5 of the hollow glass are respectively provided with a separation strip, the top ends and the bottom ends of the two transparent substrates 2 are respectively provided with a connecting piece, the connecting piece at the top end of the transparent substrate 2 is fixed with the separation strip at the top end through a fastening piece, the connecting piece at the bottom end of the transparent substrate 2 is fixed with the separation strip at the bottom end through a fastening piece, and therefore the two transparent substrates 2 are fixed between the two adjacent glass sheets 5 of the hollow glass.

Among the prior art, after a large amount of glue were brushed in cavity glass inboard, paste membrane 1 of adjusting luminance inboard at cavity glass, it is complicated to paste the technology, be difficult to big batch production, the membrane mounting structure of adjusting luminance that adopts this embodiment to provide installs membrane 1 of adjusting luminance in cavity glass, only need press from both sides membrane 1 of adjusting luminance tightly between two transparent substrate 2, again with two transparent substrate 2 fix between two adjacent glass pieces 5 can, do not relate to the construction process who brushes a large amount of glue, and is easy and simple to handle, and is suitable for mass production. And the weight of the transparent substrate 2 is relatively light, is lower than that of glue in the prior art, and can play a role in reducing weight of the hollow glass.

as an embodiment, as shown in fig. 1, the light adjusting film mounting structure further includes a spacer frame 3; the parting bead frame 3 comprises four parting beads 31, the four parting beads 31 are sequentially connected to form a parting bead frame 3, the two sides of the two transparent substrates are respectively provided with the parting bead frame 3, each parting bead frame 3 faces the end face of the clamping piece 8 and is fixedly connected with the clamping piece 8, and each parting bead frame 3 faces the end face of the glass sheet and is fixedly connected with the glass sheet.

The spacer frame 3 may be made of any suitable material such as metal (for example, any suitable material such as aluminum, iron, or copper), alloy (for example, any suitable material such as stainless steel or aluminum alloy), polymer plastic, or ceramic.

The two parting bead frames 3 are respectively arranged at two sides of the two transparent substrates 2, one parting bead frame 3 surrounds the periphery of one transparent substrate 2 and is fixedly connected with the transparent substrate, and the end surface of the parting bead frame 3 facing the glass sheet is fixedly connected with the glass sheet; another parting bead frame 3 surrounds around another transparent substrate 2 to with this transparent substrate fixed connection, and this parting bead frame 3 towards the terminal surface and the glass piece fixed connection of glass piece, two parting bead frames 3 are fixed respectively between glass piece and transparent substrate 2, are clasped transparent substrate 2 and membrane 1 of adjusting luminance by two parting bead frames 3 cooperations to make membrane 1 of adjusting luminance be pressed from both sides tightly by two transparent substrate 2, prevent membrane 1 of adjusting luminance bending deformation.

The fixing connection mode can be bonding or connection through a fastener.

the spacer frame 3 can be used as a spacer for insulating glass to separate two adjacent glass sheets. The partition strip frame 3 can clamp the two transparent substrates 2 and can be used as a partition strip of the hollow glass, the utilization rate is high, and the compactness of the structure of the hollow glass can be improved.

As another embodiment, as shown in fig. 9, the light adjusting film mounting structure further includes a spacer frame 3 and a clamping member 8; the clamping piece 8 is in a frame shape, a groove is arranged on the inner side wall of the clamping piece 8, surrounds the periphery of the two transparent substrates, and clamps the two transparent substrates; the parting strip frame 3 comprises four parting strips 31, and the four parting strips 31 are sequentially connected to form the parting strip frame 3; the both sides of clamping piece 8 are equipped with parting bead frame 3 respectively, and every parting bead frame 3 towards the terminal surface of clamping piece 8 and clamping piece 8 fixed connection, every parting bead frame 3 towards the terminal surface and the glass piece fixed connection of glass piece.

The fixing connection mode can be bonding or connection through a fastener.

the clamping member 8 may be made of any suitable material such as metal (for example, any suitable material such as aluminum, iron, or copper), alloy (for example, any suitable material such as stainless steel or aluminum alloy), polymer plastic, or ceramic.

the two parting bead frames 3 are respectively arranged at two sides of the clamping piece 8, one parting bead frame 3 surrounds the periphery of one end face of the clamping piece 8 and is fixedly connected with one end face of the clamping piece 8, and the end face, facing the glass sheet, of the parting bead frame 3 is fixedly connected with the glass sheet; the other division bar frame 3 surrounds the periphery of the other end face of the clamping piece 8 and is fixedly connected with the other end face of the clamping piece 8, the end face, facing the glass sheet, of the division bar frame 3 is fixedly connected with the glass sheet, the two division bar frames 3 are respectively fixed between the glass sheet and the clamping piece 8, and the clamping piece 8 is tightly clamped by the two division bar frames 3 in a matched mode.

as described above, the division bar frame 3 can be used as a division bar of hollow glass, and the specific embodiment can be the same as above, which is not described herein again.

as another embodiment, the edge regions of the two transparent substrates 2 are bonded.

Specifically, glue is applied with a brush to the edge regions of two transparent substrates 2, and the light modulation film 1 is arranged in the middle region of the two transparent substrates 2, so that two end faces of the light modulation film 1 are respectively attached to the transparent substrates 2, the edge regions of the two transparent substrates 2 are bonded, and the two transparent substrates 2 can clamp the light modulation film 1.

the two bonded transparent substrates 2 can be clamped between two adjacent glass sheets 5, and can also be fixed between two adjacent glass sheets 5 through fasteners.

As yet another embodiment, the edge regions of the two transparent substrates 2 are connected by fasteners.

Specifically, with the membrane 1 of adjusting luminance set up in the middle part region of two transparent base plates 2, make two terminal surfaces of membrane 1 of adjusting luminance laminate with transparent base plate 2 respectively to it is fixed with the marginal area utilization fastener of two transparent base plates 2, can make two transparent base plates 2 press from both sides tight membrane 1 of adjusting luminance.

The fasteners may be in any suitable form, such as screws or bolts.

the two transparent substrates 2 can be clamped between two adjacent glass sheets 5, and can also be fixed between two adjacent glass sheets 5 through fasteners.

the two transparent substrates 2 fixed by the fasteners can be clamped between two adjacent glass sheets 5 or fixed between two adjacent glass sheets 5 by the fasteners.

the light adjusting film mounting structure provided by the embodiment comprises two transparent substrates 2 which are oppositely arranged; the light adjusting film 1 is arranged between the two transparent substrates 2, and the two transparent substrates 2 can be matched with and clamp the light adjusting film 1, so that two end faces of the light adjusting film 1 are respectively attached to the transparent substrates 2; both transparent substrates 2 are intended to be fixed between two adjacent glass sheets 5 of insulating glass. Two transparent substrate 2 set up the both sides at membrane 1 of adjusting luminance respectively, and two transparent substrate 2 cooperations press from both sides tight membrane 1 of adjusting luminance, two terminal surfaces that can make membrane 1 of adjusting luminance depend on respectively on transparent substrate 2, because membrane 1 of adjusting luminance is pressed from both sides tightly by two transparent substrate 2, membrane 1 of adjusting luminance is difficult for producing protruding and the phenomenon of turning up, and for 1 transparent substrate 2 non-deformable of membrane of adjusting luminance, two transparent substrate 2 press from both sides after fixing between two adjacent glass pieces 5 of cavity glass behind membrane 1 of adjusting luminance tightly, two transparent substrate 2 are also difficult for producing protruding and the phenomenon of turning up, consequently utilize membrane 1 of adjusting luminance mounting structure installation membrane of adjusting luminance that the invention provided, can prevent to use membrane 1 of adjusting luminance after a period of time and produce protruding and the phenomenon of turning up, thereby prevent to influence cavity glass's.

The hollow glass provided by the present embodiment, as shown in fig. 1 to 16, includes a glass sheet 5, a light adjusting film 1, and the light adjusting film mounting structure provided by the present embodiment; the light adjusting film 1 is arranged between two transparent substrates 2; the number of the glass sheets 5 is at least two, and the light adjusting film mounting structure is fixed between any two adjacent glass sheets 5.

two transparent substrate 2 set up the both sides at membrane 1 of adjusting luminance respectively, and two transparent substrate 2 cooperations press from both sides tight membrane 1 of adjusting luminance, two terminal surfaces that can make membrane 1 of adjusting luminance depend on respectively on transparent substrate 2, because membrane 1 of adjusting luminance is pressed from both sides tightly by two transparent substrate 2, membrane 1 of adjusting luminance is difficult for producing protruding and the phenomenon of turning up, and for 1 transparent substrate 2 non-deformable of membrane of adjusting luminance, two transparent substrate 2 press from both sides after fixing between two adjacent glass pieces 5 of cavity glass behind membrane 1 of adjusting luminance tightly, two transparent substrate 2 are also difficult for producing protruding and the phenomenon of turning up, consequently utilize membrane 1 of adjusting luminance mounting structure installation membrane of adjusting luminance that the invention provided, can prevent to use membrane 1 of adjusting luminance after a period of time and produce protruding and the phenomenon of turning up, thereby prevent to influence cavity glass's.

The dimming film 1 has the functions of privacy shielding and transparent instant conversion, has good ultraviolet resistance, infrared ray and electromagnetic wave functions, has the characteristic of light transmission and opaqueness, and effectively reduces the energy consumption of indoor electric lamps. The light adjusting film 1 is arranged in the hollow glass, and the hollow glass can have better heat insulation and heat preservation effects.

Further, as shown in fig. 8, the insulating glass further includes a spacer 7; the division bar 7 is fixed in one of two transparent substrate 2 and is served, is equipped with the wiring mouth on the division bar 7, and the wiring mouth is used for passing the wire 11 of membrane of adjusting luminance.

The spacing bars 7 can be arranged on the top or bottom of the transparent substrate 2, and can be determined according to the wire arrangement position of the light adjusting film 1.

the spacer 7 may be adhered to one end of the two transparent substrates 2, or may be fixed to one end of the two transparent substrates 2 by a fastener.

The spacers 7 may be made of a metal material such as aluminum, iron, or an aluminum alloy.

a wiring port is reserved on the isolating strip 7, and a wire 11 of the light adjusting film can penetrate out of the wiring port.

Further, the hollow glass also comprises an edge sealing piece 6; the edge-sealing member 6 is disposed around two adjacent glass sheets 5 to seal the two adjacent glass sheets 5.

The edge sealing piece 6 seals the periphery of two adjacent glass sheets 5, so that the sealing property and the drying property between the two adjacent glass sheets 5 are ensured.

For example: when the insulating glass is provided with the isolating strips 7, the isolating strips 7 are fixed at one ends of the two transparent substrates 2, and then the edge sealing pieces 6 are arranged around the two adjacent glass sheets 5 to seal the two adjacent glass sheets 5, so that the edge sealing pieces 6 are positioned at the outer sides of the isolating strips 7.

Wherein, banding piece 6 can be made by organic or inorganic banding piece, when the banding, can be directly crowded banding piece all around two adjacent glass sheets 5 in order to seal, and in the position department that the wire 11 of membrane of adjusting luminance worn out, banding piece crowded can wrap up wire 11 of membrane of adjusting luminance in this department to realize the banding and make wire 11 of membrane of adjusting luminance wear out.

The number of the glass sheets 5 may be two, and the number of the glass sheets 5 may also be more than two, for example, 3, 4, 5, or 6, and the like. The adjacent glass sheets 5 are arranged at intervals, so that hollow cavities 4 are formed between the adjacent glass sheets 5.

The more the number of the glass sheets 5 is, the more the number of the hollow layers is, so that the heat preservation and heat insulation performance of the hollow glass can be improved.

Here, the number of the light adjusting films 1 may be plural, and each light adjusting film 1 is disposed between any two adjacent glass sheets 5.

For example, as shown in fig. 5 to 7 and 11 to 16, the number of the glass sheets 5 is 4, a first cavity 41, a second cavity 42 and a third cavity 43 are sequentially formed between the glass sheets 5 adjacent from left to right, and the number of the light modulation films 1 is 2, as shown in fig. 5, 2 light modulation films 1 may be respectively disposed in the first cavity 41 and the third cavity 43, as shown in fig. 6, may be respectively disposed in the first cavity 41 and the second cavity 42, as shown in fig. 7, or may be respectively disposed in the second cavity 42 and the third cavity 43.

the plurality of dimming films 1 are arranged, so that the dimming effect of the hollow glass can be further improved, and the heat insulation and heat preservation performance of the hollow glass can be enhanced.

The number of the light adjusting film 1 may be one, and the light adjusting film 1 is provided between any two adjacent glass sheets 5.

For example, as shown in fig. 2 to 4, the number of the glass sheets 5 is 4, a first cavity 41, a second cavity 42, and a third cavity 43 are sequentially formed between the adjacent glass sheets 5 from left to right, the number of the light modulation film 1 is 1, and the light modulation film 1 may be disposed in the first cavity 41, the second cavity 42, or the third cavity 43.

The assembling method of the light adjusting film mounting structure provided by the embodiment is used for assembling the light adjusting film mounting structure provided by the embodiment, and comprises the following steps:

The two transparent substrates 2 are matched to clamp the light modulation film 1, so that two end faces of the light modulation film 1 are respectively attached to the transparent substrates 2;

Both transparent substrates 2 are fixed between two adjacent glass sheets 5 of the insulating glass.

Utilize two transparent substrate 2 to set up respectively in the both sides of membrane of adjusting luminance, and utilize two 2 cooperation of transparent substrate to press from both sides tight membrane of adjusting luminance 1, two terminal surfaces that can make membrane of adjusting luminance 1 depend on respectively on transparent substrate 2, because membrane of adjusting luminance 1 is pressed from both sides tightly by two transparent substrate 2, membrane of adjusting luminance 1 is difficult for producing protruding and the phenomenon of turning up, and for 1 non-deformable of membrane of adjusting luminance, two transparent substrate 2 press from both sides behind membrane of adjusting luminance 1 and fix between two adjacent glass pieces 5 of cavity glass, two transparent substrate 2 are difficult for producing protruding and the phenomenon of turning up yet, consequently, utilize the assembly method of the membrane of adjusting luminance mounting structure that this embodiment provided, membrane of adjusting luminance 1 produces protruding and the phenomenon of turning up after can preventing to use a period, thereby prevent to influence cavity glass's light modulation performance.

The two transparent substrates 2 are used for clamping the light modulation film 1 in a matching manner, so that two end faces of the light modulation film 1 are respectively attached to the transparent substrates 2, the two transparent substrates 2 can be clamped in a matching manner by using the clamping piece 8 in the light modulation film mounting structure provided by the embodiment, and edge areas of the two transparent substrates 2 can be bonded or connected by using a fastening piece;

with two transparent substrate 2 all fix between two adjacent glass pieces 5 of cavity glass, can bond two transparent substrate 2 of the tight membrane of adjusting luminance of cooperation 1 on parting bead frame 3 in the membrane mounting structure of adjusting luminance that this embodiment provided, also can utilize the fastener to fix on parting bead frame 3 in the membrane mounting structure of adjusting luminance that this embodiment provides two transparent substrate 2 of the tight membrane of adjusting luminance of cooperation 1.

Further, the method comprises the following steps:

cutting the parting strips 31, sequentially connecting and assembling the four parting strips 31 to form a parting strip frame 3, and respectively arranging bonding layers on two end surfaces of the parting strip frame 3;

manufacturing two parting bead frames 3 according to the steps;

The two glass sheets 5 are respectively adhered with a parting strip frame 3, and one end face of each parting strip frame 3 is adhered to one glass sheet 5;

the two transparent substrates 2 are matched with each other to clamp the light adjusting film 1;

The groove of the clamping piece 8 is used for surrounding the two transparent substrates 2, the two transparent substrates 2 are clamped, and the lead 11 of the light adjusting film penetrates out of the reserved opening on the clamping piece 8;

Aligning and bonding one end face of the clamping piece 8 with the spacing strip frame 3 on one glass sheet 5, and aligning and bonding the spacing strip frame 3 on the other glass sheet 5 with the other end face of the clamping piece 8;

Edge-sealing members 6 are provided around two adjacent glass sheets 5.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. A light adjusting film mounting structure is characterized by comprising two transparent substrates which are oppositely arranged;

a light adjusting film is arranged between the two transparent substrates, and the two transparent substrates can be matched with and clamp the light adjusting film, so that two end faces of the light adjusting film are respectively attached to the transparent substrates; the two transparent substrates are used for being fixed between two adjacent glass sheets of the hollow glass.

2. the light adjusting film mounting structure according to claim 1, further comprising a spacer frame and a clamping member;

The clamping piece is in a frame shape, a groove is formed in the inner side wall of the clamping piece, surrounds the periphery of the two transparent substrates, and clamps the two transparent substrates;

The division bar frame comprises four division bars, and the four division bars are sequentially connected to form the division bar frame;

and the two sides of the clamping piece are respectively provided with a parting strip frame, the end surface of each parting strip frame, facing the clamping piece, is fixedly connected with the clamping piece, and the end surface of each parting strip frame, facing the glass sheet, is fixedly connected with the glass sheet.

3. The light adjusting film mounting structure according to claim 1, wherein edge regions of two of the transparent substrates are bonded; or the edge regions of the two transparent substrates are connected by fasteners.

4. The light adjusting film mounting structure according to claim 2, wherein the transparent substrate is made of an organic polymer material or an inorganic polymer material; the division bars are made of metal, alloy, high polymer plastic or ceramic material; the clamping piece is made of metal, alloy, polymer plastic or ceramic material.

5. an insulating glass comprising a glass sheet, a light adjusting film, and the light adjusting film mounting structure according to any one of claims 1 to 4;

the light adjusting film is arranged between the two transparent substrates;

the number of the glass sheets is at least two, and the light adjusting film mounting structure is fixed between any two adjacent glass sheets.

6. the insulating glass of claim 5, wherein the insulating glass further comprises a spacer;

The isolating strip is fixed at one end of each of the two transparent substrates, and a wiring port is formed in the isolating strip and used for penetrating through a lead of the light adjusting film;

The hollow glass also comprises an edge sealing piece;

the edge sealing pieces are arranged on the periphery of the two adjacent glass sheets so as to seal the two adjacent glass sheets.

7. The insulating glass according to claim 5, wherein the number of glass sheets is greater than two; the light adjusting film is multiple, and each light adjusting film is arranged between any two adjacent glass sheets.

8. The insulating glass of any of claims 5-7, wherein the light modulating film is one, and the light modulating film is disposed between any two adjacent glass sheets.

9. A method of assembling a light adjusting film mounting structure, for assembling the light adjusting film mounting structure according to any one of claims 1 to 4, comprising the steps of:

Clamping the light modulation film by utilizing the matching of the two transparent substrates so as to enable two end faces of the light modulation film to be respectively attached to the transparent substrates;

And fixing the two transparent substrates between two adjacent glass sheets of the hollow glass.

10. the assembling method of the light adjusting film mounting structure according to claim 9, for assembling the light adjusting film mounting structure according to claim 2 or 4, comprising the steps of:

cutting the parting strips, sequentially connecting and assembling the four parting strips into a parting strip frame, and respectively arranging bonding layers on two end surfaces of the parting strip frame;

Manufacturing two partition strip frames according to the steps;

Bonding a strip separating frame on each of the two glass sheets, wherein one end face of each strip separating frame is bonded on one glass sheet;

clamping the light adjusting film by utilizing the matching of the two transparent substrates;

the groove of the clamping piece is used for surrounding the two transparent substrates, clamping the two transparent substrates, and leading the conducting wire of the light adjusting film to penetrate out of the reserved opening on the clamping piece;

Aligning and bonding one end face of the clamping piece with the spacing strip frame on one glass sheet, and aligning and bonding the spacing strip frame on the other glass sheet with the other end face of the clamping piece;

Edge sealing pieces are arranged around two adjacent glass sheets.