CN111305717B - Double-adhesive sealing stainless steel frame hollow glass with glass composite frame supporting and closing piece - Google Patents

Abstract

The hollow glass with the glass composite frame supporting and sheet bonding double-adhesive sealing stainless steel frame utilizes the outer protective frame and seals through double-adhesive, argon or carbon dioxide gas is introduced into the vacuum furnace, high-temperature air is introduced into the vacuum furnace, the vacuum interlayer is pumped, the double-adhesive sealing glass can be rapidly cured, rapid sealing and curing of the edge of the hollow glass are realized, high-quality hollow glass is produced, and production efficiency is improved. The invention overcomes the problem that glass corners are not protected and fragile, and can improve the quality of glass and metal brazing, the hollow glass has the characteristics of no loss of toughness, high strength, low manufacturing cost, good air tightness, good heat preservation performance, low energy consumption and good perspective effect, and the hollow glass has a protective effect, and the stainless steel frame has high strength, so that the damage caused by corner cracking and collision in the transportation process is avoided. Representing the direction of development of hollow glass.

Description

Double-adhesive sealing stainless steel frame hollow glass with glass composite frame supporting and closing piece

Technical Field

The invention relates to a hollow functional glass plate manufactured by performing double-adhesive bonding and sealing on glass and metal by utilizing a structure sealing bonding technology, belonging to the field of glass building materials.

Background

At present, the main stream of functional glass is hollow glass, but the hollow glass is easy to break due to collision of glass corners in the processes of storage, transportation and installation because the periphery of the hollow glass is not provided with a protective frame. Meanwhile, because the organic adhesive bonding process is adopted between the glass, under the condition that the structural sealant is not well protected, chemical reaction with other structural adhesives exists, so that the bonding effect, the ageing resistance and the service life are not ideal.

Disclosure of Invention

The invention is produced from practice under the technical background, the invention uses the structure sealant to bond the protective frame sealing process, overcomes the problem that the glass corners are not protected and fragile, isolates the contact between the structure sealant and other structure sealants, can improve the quality of bonding and sealing the glass and the structure, has the characteristics of simple operation, low cost, high strength, low manufacturing cost, good heat preservation performance, low energy consumption and good perspective effect, and can obtain good economic benefit, environmental benefit and social benefit.

The technical scheme of the invention is realized as follows: the hollow glass with the glass composite frame supporting and laminating piece and double-adhesive bonding sealing stainless steel frame comprises a glass plate, bonding sealant and the stainless steel frame. The two glass plates forming the interlayer cavity are mutually corresponding in outline shape and size, and a processed and formed annular closed glass plate frame support corresponding to the thickness of the hollow interlayer is arranged between the frame of the glass plate or the edges of the two glass plates, wherein the outline shape and the size of the processed and formed annular closed glass plate frame support corresponds to the edges of the two glass plates. The two glass plate covering and closing sheets are adhered and sealed by the glass plate frame support comprising strip shape, T shape or U shape on the glass plate edge. Or the section of the closed loop support sealing frame is an inverted U-shaped or T-shaped profile, and the closed loop frame is formed by bonding by welding and airtight sealing adhesive. Or the metal section closed annular frame is formed by continuous bending, splicing and bonding, or welding, wherein the section of the metal section closed annular frame is in an inverted U shape, and a splicing filling patch which enlarges a sealing connection surface and corresponds to the shape of the bonding position is arranged at the bonding connection position of the airtight sealing adhesive.

The frame support connection angles on the edge angles of the glass plates are opposite to each other in complementary angles and are connected in a sealing way through bonding or welding. The two glass plates and the annular closed frame surface are contacted and covered together.

Or a layer of metal thin strip with good plasticity is arranged on the periphery of the double-layer glass plate which is adhered and sealed by the two glass plate cover closing sheets supported by the strip-shaped or U-shaped glass plate frame through airtight sealing glue to be used as an airtight sealing ring of the isolation sealing layer.

The outer side of the periphery of the hollow sandwich glass plate body is wrapped with a closed-loop corrugated stainless steel frame with an inverted U-shaped section, and a structural adhesive which does not generate chemical reaction with the airtight adhesive is filled in a groove of the corrugated stainless steel frame.

The self elasticity of the closed-loop corrugated stainless steel frame with the inverted U-shaped section is utilized to stretch and sleeve the periphery outer side of the hollow laminated glass plate body, and the self resilience of the closed-loop corrugated stainless steel frame is utilized to enable the closed-loop corrugated stainless steel frame with the inverted U-shaped section to be closely attached and bonded with the periphery outer side of the hollow laminated glass plate body.

Or the outer side of the periphery of the hollow laminated glass plate body is wrapped with a protective frame of the hollow laminated glass plate structure, wherein the cross section of the protective frame is formed by buckling and sleeving closed-loop stainless steel frames with L shapes and reverse L shapes. Two annular sealing adhesive sealing belts and a glass hollow interlayer heat-insulating daylighting glass plate with a stainless steel closed-loop protection frame are arranged on the periphery of the manufactured heat-insulating glass plate body.

The glass composite frame support and lamination double-adhesive bonding sealing stainless steel frame hollow glass comprises a glass raw sheet, toughened glass, cloth pattern glass, embossed glass, halogenated glass, frosted glass and coated glass, wherein functional films of the coated glass comprise an antireflection film, a metal film and a decorative film. When the surface of the glass panel is compounded with a coating, the coating must be removed from the bonding sealing surface of the glass panel.

Cutting the plate glass with proper thickness according to the designed size, edging, tempering and using the tempered glass panel as raw material. The surface of the glass bonding seal is required to be deoiled, cleaned and dried.

The glass composite frame support and lamination double-adhesive bonding seal stainless steel frame hollow glass, the annular seal glass support frame is bonded through a first airtight sealant. The first gas-tight seal includes butyl-type seals such as polyisobutylene, hot melt butyl.

The second sealant is weather-proof structure sealant, and comprises elastic sealant for hollow glass, such as polysulfide, silicone and polyurethane. The structural sealant in hot melt form includes a hot melt polyisobutylene adhesive, a hot melt butyl adhesive.

The glass composite frame supports the double-adhesive bonding sealing stainless steel frame hollow glass, and the metal thin strip with good plasticity for prolonging the bonding thickness of the airtight sealant is an aluminum strip or a stainless steel strip.

The glass composite frame supports the double-adhesive bonding sealing stainless steel frame hollow glass, and the outer side of the periphery of the middle sandwich glass plate body is wrapped with a closed-loop corrugated stainless steel frame with an inverted U-shaped section. The U-shaped corrugated stainless steel groove section is formed by stamping and stretching a stainless steel plate strip through a die, or the U-shaped corrugated stainless steel groove section is formed by rolling a stainless steel plate strip through a rolling mill. The closed-loop corrugated stainless steel frame is a U-shaped corrugated stainless steel groove profile, and is made by bending and welding or cutting and welding.

When the inverted U-shaped closed-loop corrugated stainless steel frame groove is used, deoiling, cleaning and drying treatment are required.

The glass composite frame supports the double-adhesive bonding sealing stainless steel frame hollow glass, wherein the outer side of the periphery of the middle sandwich glass plate body is wrapped with a hollow sandwich glass plate structure protection frame formed by buckling and sleeving closed-loop stainless steel frames with L-shaped sections and L-shaped reverse sections. The L-shaped stainless steel section is a stainless steel strip, and is formed by stamping and stretching through a die, or the L-shaped stainless steel section is a stainless steel strip, and is formed by rolling through a rolling mill. The closed loop L-shaped stainless steel frame is made of L-shaped stainless steel sections through bending welding or cutting welding.

When the L-shaped stainless steel section is used, deoiling, cleaning and drying treatment are required.

The beneficial effects of the invention are as follows:

the invention uses the structure bonding sealing technology, overcomes the problem that the glass corners are not protected and fragile, and isolates the contact between the sealant of the structure in the frame and the sealant of other structures outside the frame by protecting the frame through stainless steel. The problems of unsatisfactory bonding effect, ageing resistance and service life due to chemical reaction between different structural sealants because the structural sealants are not well protected and isolated are solved. The invention can improve the bonding quality of glass, metal and structural sealant and enhance the overall strength of the hollow glass. The method has the characteristics of simple operation, low cost, high strength, low manufacturing cost, good air tightness, good heat preservation performance, low energy consumption and good perspective effect, and can obtain good economic benefit, environmental benefit and social benefit.

Drawings

The invention will be further described with reference to the drawings and examples.

FIG. 1 is a cross-sectional view of a glass sheet used in the present invention bonded and sealed with another glass laminate by a support frame coated with an airtight sealant, and then bonded and sealed with a "U" -shaped corrugated stainless steel channel profile frame by structural adhesive;

FIG. 2 is a cross-sectional view of a glass sheet used in the present invention, bonded and sealed with another glass sheet by a support frame coated with an airtight sealant, and then buckled with an "L" shaped stainless steel frame, and the structural adhesive seals the hollow glass sheet;

FIG. 3 is a cross-sectional view of a glass sheet used in the present invention, bonded and sealed to another glass sheet by a support frame coated with an airtight sealant, then bonded with a thin metal strip by the airtight sealant outside the airtight bonded sealing ring of the glass, and then bonded and sealed to a hollow glass sheet by structural adhesive with a "U" -shaped corrugated stainless steel channel profile frame;

FIG. 4 is a cross-sectional view of a glass sheet used in the present invention, bonded and sealed to another glass sheet by a support frame coated with an airtight sealant, then bonded with a thin metal strip by the airtight sealant outside the airtight bonded sealing ring of the glass, then snapped onto the "L" shaped stainless steel frame, and structurally glued and sealed to a hollow glass panel.

In the figure: 1"U ' shaped stainless steel ripple protection frame, 2 structural sealant bonding layer, 3 downside toughened plate glass, 4 hollow interlayer, 5 upside toughened plate glass, 6 airtight sealant bonding seal bending glass support frame, 7 outside ' L ' shaped stainless steel protection frame, 8 inside ' L ' shaped stainless steel protection frame, 9 metal thin belt.

Detailed Description

As shown in fig. 1: the upper side toughened plate glass 5 and the lower side toughened plate glass 3 are mutually corresponding in outline shape and size, and are bonded, sealed and bent glass support frame 6 is bonded and sealed through the parallel airtight sealant of the annular sealing glass plate, airtight sealing is bonded and covered, and a hollow interlayer 4 is formed at intervals. The glass composite frame supporting and laminating double-adhesive sealing stainless steel frame hollow glass is manufactured through the bonding seal of the closed loop U-shaped stainless steel corrugated protection frame 1 and the structural sealant bonding layer 2.

As shown in fig. 2: the upper side toughened plate glass 5 and the lower side toughened plate glass 3 are mutually corresponding in outline shape and size, and are bonded, sealed and bent glass support frame 6 is bonded and sealed through the parallel airtight sealant of the annular sealing glass plate, airtight sealing is bonded and covered, and a hollow interlayer 4 is formed at intervals. The glass composite frame supporting and closing piece double-adhesive sealing stainless steel frame hollow glass is manufactured through buckling and bonding sealing of the inner side closed loop L-shaped stainless steel protection frame 8 and the outer side closed loop L-shaped stainless steel protection frame 7 and the structural sealant bonding layer 2.

As shown in fig. 3: the upper side toughened plate glass 5 and the lower side toughened plate glass 3 are mutually corresponding in outline shape and size, and the adjacent edges of the annular closed glass plates are bonded, sealed and bent with glass support frames 6 through airtight sealing glue, and the hollow interlayer 4 is formed by airtight sealing, bonding and covering at intervals. A metal thin strip 9 is bonded outside the glass airtight bonding sealing ring through airtight sealant. The glass composite frame supporting and laminating double-adhesive sealing stainless steel frame hollow glass is manufactured through the bonding seal of the closed loop U-shaped stainless steel corrugated protection frame 1 and the structural sealant bonding layer 2.

As shown in fig. 4: the upper side toughened plate glass 5 and the lower side toughened plate glass 3 are mutually corresponding in outline shape and size, and the adjacent edges of the annular closed glass plates are bonded, sealed and bent with glass support frames 6 through airtight sealing glue, and the hollow interlayer 4 is formed by airtight sealing, bonding and covering at intervals. A metal thin strip 9 is bonded outside the glass airtight bonding sealing ring through airtight sealant. The glass composite frame supporting and closing piece double-adhesive sealing stainless steel frame hollow glass is manufactured through buckling and bonding sealing of the inner side closed loop L-shaped stainless steel protection frame 8 and the outer side closed loop L-shaped stainless steel protection frame 7 and the structural sealant bonding layer 2.

Claims (7)

1. The utility model provides a glass composite frame supports closes piece double-adhesive bonding and seals stainless steel frame cavity glass, includes glass board, bonding sealant, stainless steel frame, characterized by: the two glass plates forming the interlayer cavity are corresponding to each other in outline shape and size, and an annular closed glass plate frame support which is formed by processing and corresponds to the two glass plates in outline shape and size and the glass plate edge is arranged between the frames of the glass plates or the edges of the two glass plates, and the frame support height of the glass plates and the annular closed glass plate frame support which corresponds to the thickness of the hollow interlayer are arranged between the frames of the glass plates; the two glass plate covering and closing sheets are adhered and sealed through glass plate frame support comprising strip shape, T shape or U shape on the glass plate edge; or the section of the closed loop support sealing frame is an inverted U-shaped or T-shaped profile, and the closed loop frame is formed by bonding by welding and airtight sealing adhesive; or the metal profile closed annular frame is formed by continuous bending, splicing and bonding, or welding, wherein the section of the metal profile closed annular frame is in an inverted U shape, and a splicing filling patch which enlarges a sealing connection surface and corresponds to the shape of the bonding position is arranged at the bonding connection position of the airtight sealing adhesive;

the frame support connection angles on the edge angles of the glass plates are opposite to each other in complementary angles and are connected in a sealing way through bonding or welding; the two glass plates and the annular closed frame face are contacted and covered together;

or a layer of metal thin strip with good plasticity is arranged on the periphery of the double-layer glass plate which is adhered and sealed by the two glass plate covering and bonding sheets supported by the strip-shaped or U-shaped glass plate frame through airtight sealing glue and is used as an airtight sealing ring of the isolation sealing layer;

the outer side of the periphery of the hollow sandwich glass plate body is wrapped with a closed-loop corrugated stainless steel frame with an inverted U-shaped section, and a groove of the corrugated stainless steel frame is filled with a structural adhesive which does not react with the airtight adhesive;

stretching and sleeving the hollow laminated glass plate body by utilizing the self elasticity of a closed-loop corrugated stainless steel frame with an inverted U-shaped section, and tightly attaching and bonding the closed-loop corrugated stainless steel frame with the inverted U-shaped section and the outer side of the periphery of the hollow laminated glass plate body by utilizing the self resilience of the closed-loop corrugated stainless steel frame;

or the outer side of the periphery of the hollow laminated glass plate body is wrapped with a protective frame of the hollow laminated glass plate structure, wherein the cross section of the protective frame is formed by buckling and sleeving closed-loop stainless steel frames with L and reverse L; two annular sealing adhesive sealing belts and a glass hollow interlayer heat-insulating daylighting glass plate with a stainless steel closed-loop protection frame are arranged on the periphery of the manufactured heat-insulating glass plate body.

2. The glass composite frame support laminated double-adhesive sealing stainless steel frame hollow glass according to claim 1, characterized in that: the glass plate comprises a glass raw sheet, toughened glass, cloth-grain glass, embossed glass, halogenated glass, frosted glass and coated glass, and functional films of the coated glass comprise an antireflection film, a metal film and a decorative film; the surface of the glass panel is compounded with a coating film, so that the coating film must be removed from the bonding sealing surface of the glass panel;

cutting the plate glass with proper thickness according to the designed size, edging, tempering and using the tempered glass panel as raw material; the surface of the glass bonding seal is required to be deoiled, cleaned and dried.

3. The glass composite frame support laminated double-adhesive sealing stainless steel frame hollow glass according to claim 1, characterized in that: the annular closed glass supporting frame is bonded through a first airtight sealant; the first gas-tight seal includes butyl-type seals such as polyisobutylene, hot melt butyl.

4. The glass composite frame support laminated double-adhesive sealing stainless steel frame hollow glass according to claim 1, characterized in that: the second sealant is weather-proof structure sealant, and comprises elastic sealant for hollow glass, such as polysulfide, silicone and polyurethane; the structural sealant in hot melt form includes a hot melt polyisobutylene adhesive, a hot melt butyl adhesive.

5. The glass composite frame support laminated double-adhesive sealing stainless steel frame hollow glass according to claim 1, characterized in that: the metal thin strip with good plasticity for prolonging the thickness of the airtight sealing adhesive is an aluminum strip or a stainless steel strip.

6. The glass composite frame support laminated double-adhesive sealing stainless steel frame hollow glass according to claim 1, characterized in that: the outer side of the periphery of the hollow sandwich glass plate body is wrapped with a closed-loop corrugated stainless steel frame with an inverted U-shaped section; the U-shaped corrugated stainless steel groove section is formed by stamping and stretching a stainless steel plate strip through a die, or the U-shaped corrugated stainless steel groove section is formed by rolling a stainless steel plate strip through a rolling mill; the closed-loop corrugated stainless steel frame is a U-shaped corrugated stainless steel groove profile, and is made into an elastically contracted closed-loop corrugated stainless steel frame by bending and welding or cutting and welding;

when the U-shaped closed-loop corrugated stainless steel frame groove is used, deoiling, cleaning and drying are needed.

7. The glass composite frame support laminated double-adhesive sealing stainless steel frame hollow glass according to claim 1, characterized in that: the outer side of the periphery of the hollow laminated glass plate body is wrapped with a hollow laminated glass plate structure protection frame formed by buckling and sleeving closed-loop stainless steel frames with L-shaped sections and reverse L-shaped sections; the L-shaped stainless steel section is a stainless steel strip, and is formed by stamping and stretching through a die, or the L-shaped stainless steel section is a stainless steel strip, and is formed by rolling through a rolling mill; the closed loop L-shaped stainless steel frame is made of L-shaped stainless steel sections through bending welding or cutting welding;

the L-shaped stainless steel section is required to be deoiled, cleaned and dried when in use.