WO2020118678A1 - Insulating glass panels regulated by vacuum in cavity between spaced glass and sealed by two sealants - Google Patents

Abstract

Insulating glass panels regulated by a vacuum in a cavity between spaced glass and sealed by two sealants, comprising glass panels (3, 5), adhesive sealants (2, 8), and stainless steel frames (15, 16). An annular sealing frame support (11), an airtight sealant (2), and a structural sealant (8) that does not react with the airtight sealant are provided between edges of the two glass panels.

Description

Double-glue bonding and sealing glass space cavity vacuum-regulated thermal insulation glass plate Technical field

The invention relates to a vacuum adhesive sealing technology for adhesively sealing glass and metal to manufacture a functional vacuum glass plate. It belongs to the field of glass building materials.

Background technique

At present, the mainstream of functional glass is insulating glass and vacuum glass.

technical problem

Insulating glass insulation performance is not ideal, because there is no mutual support between the two layers of glass, can not rely on each other, making the glass weak resistance to wind pressure, easy to break due to glass resonance. At the same time, because there is no protective frame around the insulating glass, it is easy to break the insulating glass due to bumping the glass corners during transportation and installation.

Vacuum glass is supported by sandwiching two layers of glass plates, and the periphery is sealed and sealed by sealing and adhesive bonding. Vacuum glass is currently the best transparent energy-saving functional glass, with a series of advantages such as light weight, thin thickness, small heat transfer coefficient, good sound insulation effect, etc. It is an ideal energy-saving building material. However, because of its expensive production cost and the inability to meet the safety requirements of toughened glass required by high-rise buildings, it has not yet been applied on a large scale. Because the sealing adhesive around the vacuum glass is bonded to a low-temperature glass fusion seal, its manufacturing process, cost, yield, mechanical properties and size specifications are greatly restricted, and it is difficult to achieve the tempering treatment of the glass plate. The glass strength and safety performance are affected. Once the glass frit edge is damaged due to stress and other reasons, the entire vacuum glass will lose good sound insulation and thermal insulation performance.

Technical solution

It is equipped with a protective frame and double-glue sealed glass space cavity to regulate and control vacuum insulation glass plate, including glass plate, adhesive sealant and stainless steel frame.

(A) The two glass plates constituting the spaced interlayer cavity correspond to each other in outline shape and size, and one of at least two glass plates is provided with the glass plate, evenly distributed with a little array of raised points, or The embossed glass of the convex line, the edges of the two glass plates are provided with a ring-shaped closed glass plate tensile support frame with a height equal to the convex point or the convex line. Or the edges of the two glass plates are provided with a ring-shaped closed glass plate tensile support frame with a height equal to the relative support of the raised point or the raised line and the total height. On one of the two glass plates, there are two sides of the communication, which are connected and sealed by connecting fasteners and airtight sealants.

Corresponding to the two contour shapes and sizes, at least one of them has embossed glass and flat glass with raised points or raised lines, or embossed glass and embossed glass, and the supporting frame is stretched by the edge of the glass plate, Put the convex points of the two glass plates, or the convex line and the glass plate edge stretch support frame point contact, or line contact and surface contact cover together.

Or, on the periphery of the double-layer glass plate that is bonded and closed by the two glass plate cover plies, a thin metal strip with good plasticity is bonded by an airtight adhesive sealant as an airtight sealing ring for the isolation sealing layer.

The outer periphery of the hollow laminated glass body is wrapped with a closed-loop corrugated stainless steel frame with an inverted “U” section. The grooves of the corrugated stainless steel frame are filled with structural sealant that does not react chemically with the airtight sealant. Using the self-elasticity of the inverted "U" shaped closed-loop corrugated stainless steel frame, it stretches with the outer periphery of the hollow laminated glass plate body, and uses the self-rebound of the closed-loop corrugated stainless steel frame to make the cross-section an inverted "U"-shaped closed loop The corrugated stainless steel frame is tightly bonded to the outer periphery of the hollow laminated glass plate.

Or the outer periphery of the hollow laminated glass plate body is covered with a closed-loop stainless steel frame coated with a structural sealant, and the hollow laminated glass plate structure protection frame is formed by a closed-loop stainless steel frame coated with a structural sealant.

(B) Or the two glass plates forming the spaced interlayer cavity correspond to each other in outline shape and size. At least one of the two glass plates is provided with a lattice pressing and enveloping glass plate which is formed by mold pressing and stretching , Or the mold presses the stretched corrugated glass sheet. Between the edges of the two glass plates, there is a processed shape corresponding to the contour shape, size and size of the two glass plates and the edge of the glass plate. The height of the frame support of the glass plate is close to the height of the convex hull or convex corrugation. The glass plate stretches the supporting frame. Or on the edge of two glass plates, there is a processing shape corresponding to the outline shape, size and size of the two glass plates and the edge of the glass plate, the ring-shaped closed glass plate stretches the support frame height and the lattice convex hull, or the convex corrugation Contour. Or the height of the stretched support frame of the ring-shaped closed glass plate and the edge of the two glass plates are provided with the same height as the total height of the relative support stacking of the dot matrix convex hull or the convex corrugation.

On one of the two glass plates, or on the support of the closed-loop sealing frame, there are provided two sides of the connection, and the connection sealing pipe fittings are connected and sealed by connecting fasteners and an airtight sealant.

Corresponding to the two contour shapes and sizes, one or two of them are dot matrix convex cladding glass plates with mold pressing and stretching, or corrugated glass plates with mold pressing and stretching, supported by the edge of the glass plate For the frame, the stretched convex hull or the stretched corrugation of the two glass plates and the edge of the glass plate are stretched to support the frame, and the point contact and surface contact interlocking and closing pieces are bonded and closed. Or, on the periphery of the two interlocking cover pieces bonded to the closed glass plate, a layer of metal tape with good plasticity is bonded by an airtight adhesive sealant to serve as an airtight sealing ring for the isolation sealing layer.

The outer periphery of the hollow laminated glass body is wrapped with a closed-loop corrugated stainless steel frame with an inverted “U” section. The grooves of the corrugated stainless steel frame are filled with structural sealant that does not react chemically with the airtight sealant. Using the self-elasticity of the inverted "U" shaped closed-loop corrugated stainless steel frame, it stretches with the outer periphery of the hollow laminated glass plate body, and uses the self-rebound of the closed-loop corrugated stainless steel frame to make the cross-section an inverted "U"-shaped closed loop The corrugated stainless steel frame is tightly bonded to the outer periphery of the hollow laminated glass plate.

Or the outer periphery of the hollow laminated glass plate body is covered with a closed-loop stainless steel frame coated with a structural sealant, and the hollow laminated glass plate structure protection frame is formed by a closed-loop stainless steel frame coated with a structural sealant.

(C) Or the two glass plates constituting the spaced interlayer cavity correspond to each other in outline shape and size, at least two glasses are printed by glass frit paste, and then made by sintering method. The sintered glass powder paste becomes a supporting bump. The edge of the two glass plates is provided with a ring-shaped closed glass plate tensile support frame with the same height as the raised point. Or the edge of the two glass plates is provided with a ring-shaped closed glass plate tensile support frame with the same height as the relative support of the raised points and the total height. Sintered glass powder paste, stretched support frame or glass tempered simultaneously.

On one of the two glass plates, or on the support of the closed-loop sealing frame, there are provided two sides of the connection, and the connection sealing pipe fittings are connected and sealed by connecting fasteners and an airtight sealant.

The two glass plates are sealed by the airtight sealant coated on the sealing surface of the glass plate edge stretching support frame, and the two glass plates and the ring-shaped closed frame are point-contacted, or line-contacted and surface-contacted together and bonded together. . Or, on the periphery of the double-layer glass plate that is bonded and closed by the two glass plate cover plies, a thin metal strip with good plasticity is bonded by an airtight adhesive sealant as an airtight sealing ring for the isolation sealing layer.

The outer periphery of the hollow laminated glass body is wrapped with a closed-loop corrugated stainless steel frame with an inverted “U” section. The grooves of the corrugated stainless steel frame are filled with structural sealant that does not react chemically with the airtight sealant. Using the self-elasticity of the inverted "U" shaped closed-loop corrugated stainless steel frame, it stretches with the outer periphery of the hollow laminated glass plate body, and uses the self-rebound of the closed-loop corrugated stainless steel frame to make the cross-section an inverted "U"-shaped closed loop The corrugated stainless steel frame is tightly bonded to the outer periphery of the hollow laminated glass plate.

Or, the outer periphery of the hollow laminated glass plate body is wrapped with a closed-loop stainless steel frame coated with a structural sealant and has a cross-section of "L" and an inverted "L" shape.

(D) Or the two glass plates that make up the interlayer cavity correspond to each other in outline shape and size. At least one of the two glass plates is provided with a support that is evenly distributed by bonding. The board is connected as an integrated glass plate. The edge of the two glass plates is provided with a ring-shaped closed glass plate tensile support frame with a height equal to the raised point or raised line. Or the edge of the two glass plates is provided with a ring-shaped closed glass plate tensile support frame with the same height as the total height of the relative support superposed on the support. On one of the two glass plates, there are two sides of the communication, which are connected and sealed by connecting fasteners and airtight sealants.

Corresponding two contour shapes and sizes, at least one of them is provided with adhesive support glass and flat glass, or adhesive support glass and adhesive support glass, and the support frame is stretched by the edge of the glass plate, and the two glass plates are The adhesive support and the edge of the glass plate stretch the support frame, point contact and surface contact cover together. Or, on the periphery of the double-layer glass plate that is bonded and closed by the two glass plate cover plies, a thin metal strip with good plasticity is bonded by an airtight adhesive sealant as an airtight sealing ring for the isolation sealing layer.

The outer periphery of the hollow laminated glass body is wrapped with a closed-loop corrugated stainless steel frame with an inverted “U” section. The grooves of the corrugated stainless steel frame are filled with structural sealant that does not react chemically with the airtight sealant. Using the self-elasticity of the inverted "U" shaped closed-loop corrugated stainless steel frame, it stretches with the outer periphery of the hollow laminated glass plate body, and uses the self-rebound of the closed-loop corrugated stainless steel frame to make the cross-section an inverted "U"-shaped closed loop The corrugated stainless steel frame is tightly bonded to the outer periphery of the hollow laminated glass plate.

Or the outer periphery of the hollow laminated glass plate body is covered with a closed-loop stainless steel frame coated with a structural sealant, and the hollow laminated glass plate structure protection frame is formed by a closed-loop stainless steel frame coated with a structural sealant.

After that, at least one glass blank is sent into the vacuum furnace, heated and evacuated, and electrothermal brazed to achieve vacuum brazing of the stainless steel frame, aluminum or aluminum alloy and glass, and unsealing the long-acting getter. After the vacuum furnace is ventilated and cooled, the furnace is opened, and a vacuum insulated glass plate with a double-sealed glass partition cavity with a protective frame and a control frame is prepared.

A method for manufacturing a vacuum-regulated thermal insulation glass plate provided with a double-glue sealed glass partition cavity includes a glass plate, an adhesive sealant, and a vacuum furnace. Between the two glass plates, a hollow interlayer is separated by a supporting frame. The two glass plates are bonded to the closed-loop support frame or metal profile closed-loop support sealing cover and the surface is provided with an airtight sealant. The periphery of the hollow laminated glass plate body The groove is filled with a structural sealant that does not react chemically with the airtight sealant to form a closed-loop support frame or metal profile closed-loop support frame groove bottom, and a closed structure sealant ring on both sides of the glass groove wall. The hollow laminated glass sheet blank is made.

After that, at least one hollow laminated glass sheet blank is placed horizontally in a vacuum furnace provided with a supporting base, a fixed supporting jig or a tray. The glass tray of the brazing furnace may be provided with an ultrasonic transducer for improving the brazing quality of glass to glass, glass to metal, and metal to metal. Close the vacuum furnace door and vacuum the hollow laminated glass sheet blank in the vacuum furnace. The gas in the airtight sealant and the structural sealant are all discharged. The capillary action of the contact gap between stainless steel and glass, glass and glass, stainless steel and stainless steel, and the airtight sealant and structural sealant exhaust the gas, and under the effect of its own cohesion, the airtight sealant, structural sealant and glass are bonded The surface and stainless steel bonding surface are fully immersed and wetted to achieve the adhesion of the airtight sealant and structural sealant to the glass and stainless steel frame.

At the same time, due to the deeper design of the "U" shaped closed-loop stainless steel frame groove, the corresponding closed-loop structure sealant layer is also longer, so the formed adhesive connection sealant layer is thicker, making the structural sealant and glass and stainless steel High bonding strength and good airtight sealing performance.

When the vacuum degree is reached and the set vacuum time is set, high-humidity air is introduced into the vacuum furnace, and the exhaust check valve provided on the mouth of the joint sealing pipe is closed instantly. The air generates pressure, and the stainless steel frame quickly compacts and softens the airtight sealant and structural sealant layer under the effect of air pressure, and makes it adhere and solidify.

Through the above process, the quality of glass and stainless steel bonded by airtight sealant and structural sealant is improved. Open the vacuum furnace door, and make the insulating glass plate body with hollow air inlet and exhaust communication sealing fittings. There are two ring-shaped closed adhesive sealing tapes and stainless steel closed-loop protective frames on the periphery of the glass plate body. The vacuum degree of the glass hollow interlayer can be adjusted. Insulation lighting glass plate.

Or put at least one blank of hollow laminated glass plate horizontally into a vacuum furnace provided with a supporting base, a fixed supporting jig or a tray. Close the vacuum furnace door and heat and vacuum the hollow laminated glass sheet blank in the vacuum furnace. All the gas in the hot-melt airtight sealant and structural sealant is exhausted. The capillary action of the contact gap between stainless steel and glass, glass and glass, stainless steel and stainless steel, and hot-melt airtight sealant and structural sealant after exhausting gas, under the effect of their own cohesion, hot-melt airtight sealant and structural seal Adhesive and glass bonding surface and stainless steel bonding surface are fully immersed and wetted to achieve the bonding of hot melt airtight sealant and structural sealant to glass and stainless steel frame.

At the same time, due to the deeper design of the "U" shaped closed-loop stainless steel frame groove, the corresponding closed-loop structure sealant layer is also longer, so the formed adhesive connection sealant layer is thicker, making the structural sealant and glass and stainless steel High bonding strength and good airtight sealing performance.

When the heating temperature, vacuum degree and set evacuation time are reached, high-humidity air is introduced into the vacuum furnace, and the exhaust check valve provided on the mouth of the connected sealing pipe is instantly closed. The air absorbs heat and expands to produce pressure. Under the action of air pressure, the stainless steel frame quickly compacts the softened hot-melt airtight sealant and structural sealant layer and allows it to release heat and solidify. After that, or open the vacuum furnace. The cooling device cools the vacuum furnace.

Or the high-humidity air is fed into the vacuum furnace, and the exhaust check valve provided on the mouth of the connected sealing pipe is closed instantly. The air absorbs heat and expands to generate pressure. Under the action of air pressure, the stainless steel frame quickly compacts the softened hot-melt airtight sealant and structural sealant layer and allows it to radiate and solidify. Afterwards, it is filled by releasing hot air Cool air cools the vacuum furnace, or turn on the cooling device in the vacuum furnace to cool the vacuum furnace, the structural sealant in the stainless steel frame will naturally cool and solidify.

Through the above process, the quality of glass and stainless steel bonded by hot-melt airtight sealant and structural sealant is improved. When the temperature of the vacuum furnace is reduced to 50℃-55℃, the vacuum furnace door is opened, and the insulating glass plate body is provided with hollow inlet and exhaust communication sealing pipes, and there are two ring-shaped closed adhesive sealing tapes on the periphery of the glass plate body And stainless steel closed-loop protection frame, glass hollow interlayer vacuum adjustable thermal insulation lighting glass plate.

Equipped with protective frame, double-glued sealing groove, side support, snap-fit interlayer control vacuum glass plate, its glass plate includes original glass, tempered glass, textured glass, embossed glass, halogenated glass, frosted glass, coated glass, coated glass Functional films include antireflection films, metal films, and decorative films. If the surface of the glass panel is coated with a coating, the coating must be removed at the brazing surface of the glass panel.

Equipped with a protective frame, double-glued sealing groove, side support, snap-fit interlayer control, vacuum glass plate, and its convex point embossed glass plate is a suitable temperature position in the glass tin bath when the original flat glass is produced, and is rolled by a glass calender Bump on the glass. The surface of a calender roll on the glass calender used is engraved with a series of pits of uniform shape and size, and arranged in a dot matrix of the convex support. Embossed embossed glass plate is cut, edged and tempered.

Or the embossed glass plate of the convex point is the original flat glass, after edging and shaping, it is heated by the tempering furnace, the convex point is calendered by the glass calender, the supporting frame is bent, and after forming, it is tempered. The surface of a calender roll on the glass calender used is engraved with a series of pits of uniform shape and size, and arranged in a dot matrix of the convex support.

Or the convex cladding glass plate or the corrugated glass plate is the glass pits that are rolled by the glass rolling machine at a suitable temperature position in the glass tin bath when producing the original flat glass sheet. The surface of a calender roll on the glass calender used is engraved with a series of convex tips of uniform shape and size, and arranged in a dot matrix of the concave support. The concave point embossed glass plate is cut, edged and tempered.

Or the convex cladding glass plate or corrugated glass plate after edging and shaping, heated by the tempering furnace, the convex point is stretched by the glass mold, the supporting frame is bent, and after forming, it is tempered.

Or the bump glass plate is the original glass, which is made by printing glass powder paste and then sintering. That is, the low-temperature glass frit paste is printed on a flat glass according to the dot support pattern of the bump support, and then the flat glass is sent to the tempering sintering furnace and heated to a certain suitable temperature of the melting point of the glass frit paste, so that the glass The powder paste accumulation body is transformed into glass bumps fused to the surface of the flat glass, after which, the supporting frame is bent and tempered.

The tempered glass panel of flat glass with appropriate thickness is cut, edged and tempered according to the design size as raw materials. The glass brazed surface needs to be deoiled, cleaned and dried.

Equipped with protective frame, double-glued sealing groove, side support, snap-fit interlayer control vacuum glass plate, its support is at least one end coated with adhesive, including high-hard glass support, high-hard Metal support, high-hardness ceramic support, columnar or spherical or ring-shaped support array. Or the support is a support insulation material pad with an aerogel insulation pad bonded to the end support surface, and the surface of the aerogel insulation pad at both ends of the support insulation material pad is coated with hot melt adhesive or glass adhesive , Or UV curable glue, or water glass glue.

Equipped with a protective frame, double-glued sealing groove side support, snap-fit interlayer control vacuum glass plate, the opening in the hollow interlayer glass plate body is set on the glass panel, or on the closed-loop sealed support frame. The Unicom sealing pipe is a pipe with a cross section of "T" and a threaded pipe on the outer wall of the head pipe. The pipe thread is correspondingly provided with a nut with a root at the root and a tapered upward shape. The cap is screwed and sealed on the hollow laminated glass plate, or the outer wall of the pipe is provided with threaded fittings. The thread of the fitting is correspondingly provided with a nut with a root at the root and a conical upward shape. The airtight sealant and the nut are screwed. Seal tightly on the hollow laminated glass plate. Unicom sealing pipe fittings are provided with fastening sealing pipe fittings corresponding to the openings of the glass plate, and the inlet and exhaust pipe heads are tightly sealed and fixed on the openings of the inlet and exhaust pipe heads of the glass plate by airtight sealant and fastening sealing pipe fittings. , The cross-section is "T" shaped with a blocking head, the blocking head is provided with a ventilation groove, and the pipe wall is provided with a threaded pipe fitting or magnetic material.

Equipped with a protective frame, double-glued sealing groove side support, snap-fit interlayer control vacuum glass plate, the ring-shaped closed glass support frame, and bonded by the first airtight sealant. The first airtight sealant includes butyl sealant, such as polyisobutylene glue and hot melt butyl glue. The second sealant is a weather-resistant structural sealant, including elastic sealants for insulating glass, such as polysulfides, silicones, and polyurethanes. Structural sealants in hot-melt form include hot-melt polyisobutylene glue and hot-melt butyl glue. A

Equipped with a protective frame, double-glued sealing groove, side-supporting, interlocking and regulating vacuum glass plate, which is a plastic thin metal belt with good plasticity, which is an aluminum belt or a stainless steel belt, which extends the thickness of the airtight sealant.

Equipped with a protective frame, double-glued sealing groove, side support, interlocking and regulating vacuum glass plate, and the outer periphery of the hollow laminated glass plate body is wrapped with a closed-loop corrugated stainless steel frame with an inverted "U" section. The "U" corrugated stainless steel groove profile is made of stainless steel strip by stamping and drawing, or the "U" corrugated stainless steel groove profile is made of stainless steel strip, which is rolled and formed by a rolling mill. The closed-loop corrugated stainless steel frame is a "U"-shaped corrugated stainless steel groove profile, which is made by bending welding or cutting and welding.

The inverted "U" shaped closed-loop corrugated stainless steel frame groove must be deoiled, cleaned, and dried when used.

Equipped with a protective frame, double-glued sealing groove, side support, snap-fit interlayer control vacuum glass plate, the outer periphery of the hollow interlayer glass plate body is wrapped with a closed-loop stainless steel frame snap-fit set of "L" and anti-"L" sections The hollow laminated glass structure protects the frame. The "L" shaped stainless steel profile is a stainless steel strip, which is formed by stamping and drawing by a die, or the "L" shaped stainless steel profile is a stainless steel strip, which is rolled and formed by a rolling mill. The closed-loop “L” shaped stainless steel frame is an “L” shaped stainless steel profile, which is made by bending welding or cutting welding.

"L" shaped stainless steel profiles must be degreased, cleaned, and dried.

The use method of vacuum regulating and insulating glass plate with double adhesive bonding and sealing glass partition cavity, at least one inlet and exhaust pipe of vacuum regulating and insulating glass plate with double adhesive bonding and sealing glass partition cavity or with vacuum gauge and vacuum valve, Vacuum gauge or artificial intelligence vacuum gauge, vacuum valve or artificial intelligence vacuum valve. The vacuum valve is connected in parallel with the main inlet and exhaust pipes by means of three-way or four-way pipe fittings, including welding, bonding, and bolt sealing pipe fittings.

The other port of the three-way or four-way pipe fitting of the main intake and exhaust pipe is connected to the vacuum valve, and the vacuum valve is connected to the first port of the dryer. The dryer is provided with an electric heating dehumidification device and an air exhaust valve.

One of the interfaces of the dryer is connected in parallel with the mother pipe and the three-way or four-way pipe fittings, the vacuum valve and the low thermal conductivity gas including argon gas and carbon dioxide steel bottle in parallel. At the same time, the dryer is also connected with high thermal conductivity gas including hydrogen and helium gas cylinders through the mother pipe and three-way or four-way pipe fittings, vacuum valve. It is also connected to the atmospheric air intake pipe through the mother pipe, the three-way or four-way pipe fittings, and the vacuum valve. The main inlet and exhaust pipes are connected to the vacuum valve through another interface of the three-way or four-way fittings. The vacuum valve is connected to the vacuum pump group through the pipeline. The main inlet and exhaust pipe is provided with a vacuum meter, and the vacuum pump group is controlled by manual, automatic or artificial intelligence. Open and close. The system consists of a double-adhesive bonded and sealed glass space cavity vacuum-controlled thermal insulation glass plate system.

The vacuum pump set is equipped with two parallel vacuum pumps for rough pumping and fine pumping. When the rough pumping vacuum pump reaches the set vacuum, the rough pumping vacuum pump is turned off, and the fine pumping vacuum pump is started until the fine pumping pump is turned off after the set vacuum is pumped. When the vacuum decreases to the set value, start the vacuum pump again.

After the vacuum degree of the double-adhesive adhesive-sealed glass partition cavity is controlled by vacuum to reduce the insulation glass plate to a set value, the vacuum valve is automatically closed, and the vacuum pump measures the vacuum degree of the double-adhesive adhesive-sealed glass partition cavity to control the vacuum level of the insulation glass panel cavity To determine whether the device leaks vacuum, and automatically open the vacuum valve when the vacuum drops to the set value.

According to the design requirements, the double-adhesive bonding sealed glass partition cavity vacuum control insulation glass plate system can achieve good heat dissipation of the device by passing hydrogen or helium gas with high thermal conductivity gas into the system.

By passing air into the system, the conventional heat dissipation of the device is achieved.

By introducing argon gas or carbon dioxide gas with low thermal conductivity into the system, the conventional heat preservation of the device is achieved.

By vacuuming the system, a good thermal insulation of the device is achieved.

Beneficial effect

The functional vacuum glass manufactured by the invention can realize the manufacturing of glass and stainless steel frame by double adhesive bonding and sealing. It can achieve very good double-glue bonding quality of glass, solve the problem of vacuum glass tempering, and thus solve the safety problem of vacuum glass, and meet the energy saving requirements of facility agriculture and buildings. The functional vacuum glass has a simple manufacturing process, and ordinary tempered glass is widely used in materials. The manufacturing cost is greatly reduced, the safety and yield are greatly improved, and the structural form can be diversified. The glass plate is thin, light weight, high strength, safety, long life, large size, high yield, strong functionality, low energy consumption, high efficiency light transmission, safety, low cost, anti-condensation, easy to mass production and so on.

BRIEF DESCRIPTION

1 to 40 are cross-sectional views of the present invention;

Fig. 41 and Fig. 42 are connection schematic diagrams of the air intake and exhaust system of the glass curtain wall of the present invention.

In the picture: 1 "U" stainless steel corrugated protective frame, 2 airtight sealant, 3 lower tempered flat glass, 4 vacuum interlayer, 5 upper tempered flat glass, 6 embossed support bumps, 7 water glass, 8 structure Sealant, 9 one-way valve, 10 intake and exhaust pipes, 11 frame support, 12 tensile support bumps, 13 sintered support bumps, 14 adhesive support bumps, 15 side "L" stainless steel protective frame, 16 inside "L" shaped stainless steel protective frame, 17 metal thin strips, 18 air exhaust pipes, 19 main intake and exhaust pipes, 20 dryers, 21 artificial intelligence controllers, 22 dryer exhaust valves, 23 carbon dioxide cylinders, 24 argon Steel cylinder, 25 helium cylinder, 26 hydrogen cylinder, 27 air intake pipe, 28 vacuum pump, 29 air exhaust pipe, 30 vacuum pump, 31 air exhaust pipe, 32 vacuum pump.

Best Mode of the Invention

As shown in Fig. 1: the upper tempered glass 5 and the lower tempered glass 3 distributed with a bit of embossed support bumps 6 correspond to each other in outline shape and size, complement each other, and form a vacuum interlayer 4 at intervals. A vacuum glass plate is made by bonding a closed-loop "U" shaped stainless steel corrugated protective frame 1 and an airtight sealant 2. An intake and exhaust pipe 10 is installed on the vacuum glass plate, and an exhaust check valve 9 is provided on the intake and exhaust pipe 10.

As shown in Figure 41: the double-adhesive bonding sealed glass partition cavity vacuum control insulation glass plate inlet and exhaust pipe is connected in parallel with the main inlet and exhaust pipe 19;

The other port of the main inlet and exhaust pipe 19 three-way or four-way pipe is connected to the vacuum valve F3, and the vacuum valve F3 is connected to the interface of the dryer 20. The dryer 20 is provided with an electric heating dehumidification device and an air exhaust valve 22;

One of the interfaces of the dryer 20 is connected in parallel through a mother pipe and a three-way or four-way pipe fitting, a vacuum valve F2 and a low thermal conductivity gas including an argon cylinder 24, a carbon dioxide cylinder 23, a hydrogen cylinder 26, and a helium cylinder 25; , The dryer 20 is also connected to the air intake pipe 27 through the mother pipe and the three-way or four-way pipe fittings, the vacuum valve F1; the main inlet and exhaust pipe 19 is connected to the vacuum valve F4 through another port of the three-way or four-way pipe fittings, vacuum The valve F4 is connected to a vacuum pump group consisting of a vacuum pump 32, an air exhaust pipe 29, a vacuum pump 28, a vacuum pump 30, an air exhaust pipe 18, a vacuum valve F5, F6, F7, F8, F9, and F10 through a pipeline. The vacuum pump group is located in the air On the exhaust pipe 31. There is a vacuum meter on the main intake and exhaust pipe

The artificial intelligence controller 21 controls the opening and closing of the vacuum pump set; it composes a glass frame supporting a complementary snap-fit metal brazed stainless steel frame vacuum regulating glass system;

The vacuum pump set is equipped with two parallel vacuum pumps for rough pumping and fine pumping. When the rough pumping pump reaches the set vacuum, the rough pumping pump is turned off and the fine pumping pump is started until the set vacuum is pumped off. When the vacuum pump is turned off; when the vacuum degree When it drops to the set value, start the vacuum pump set again;

The glass frame supports the complementary buckling metal brazing stainless steel frame vacuum control glass. After the vacuum is reduced to the set value, the vacuum valve is automatically closed, and the vacuum pump measures the glass frame supporting the complementary buckling metal brazing stainless steel frame vacuum to regulate the vacuum degree in the glass cavity To determine whether the device leaks vacuum, and automatically open the vacuum valve when the vacuum drops to the set value;

The glass frame supports complementary buckling metal brazing stainless steel frame vacuum control glass system. According to the design requirements, the system can achieve good heat dissipation by passing hydrogen or helium gas with high thermal conductivity gas into the system;

By passing air into the system, the conventional heat dissipation of the device is achieved;

By introducing argon or carbon dioxide with low thermal conductivity gas into the system, the conventional heat preservation of the device is achieved;

By vacuuming the system, a good thermal insulation of the device is achieved.

As shown in Figure 42: Vacuum gauges are provided on the inlet and exhaust pipes of the double-adhesive sealed glass partition cavity vacuum control insulation glass plate And vacuum valve F16, vacuum gauge Or artificial intelligence vacuum gauge, vacuum valve F16 or artificial intelligence vacuum valve; vacuum valve F16 through three-way or four-way pipe fittings, including welding, bonding, bolt sealing pipe fittings, and the main intake and exhaust pipes 19 Sealed parallel connection. Others are equivalent to Figure 41.

Claims (10)

1. The double-adhesive bonding and sealing glass space cavity vacuum-controlled thermal insulation glass plate, including the glass plate, bonding sealant, and stainless steel frame, is characterized by:

   (A) The two glass plates constituting the spaced interlayer cavity correspond to each other in outline shape and size, and one of at least two glass plates is provided with the glass plate, evenly distributed with a little array of raised points, or The embossed glass of the convex line; between the edges of the two glass plates, there is a glass plate annular sealing frame support corresponding to the contour shape, size and size of the two glass plates complementary to the edge of the glass plate, and the glass plate is annular Sealed frame support height and raised point, or raised line, etc. annular closed glass plate ring-shaped sealed frame support; or between the edges of two glass plates, there is a processed shape and two glass plates in outline shape, size Corresponding to the edge of the glass plate, the support height of the ring-shaped sealing frame of the glass plate and the relative support of the raised point or the line of the overlap superimpose the total height of the ring-shaped closed glass plate ring-shaped sealing frame support; on one of the two glass plates, Or on the closed-loop sealing support frame, there are two sides of the connection, which are connected and sealed by connecting fasteners and airtight sealants;

   Corresponding two contour shapes and sizes, at least one of them has embossed glass and flat glass with raised points, or embossed lines, or embossed glass and embossed glass, including strips through the edge of the glass plate, or "U"-shaped glass plate ring seal frame support, two glass plates are closed by bonding and sealing; or closed-loop seal support frame section is inverted "U" shape and other high-profile profiles, including welding, airtight sealant Adhesively shaped closed-loop support frame; or metal profile closed-loop support frame is formed by continuous bending, or plug-in bonding molding, or welding molding, in which the cross-section is inverted "U" shaped profile is connected by airtight sealant At the place, there is a plug-in filling patch corresponding to the shape of the bonding place with an enlarged sealing connection surface;

   The supporting connection angle of the ring-shaped sealing frame on the edge of the glass plate is opposite to each other, and the connection is sealed by bonding or welding; the two glass plates and the ring-shaped closed frame are brought into point contact, or line contact and surface contact cover together;

   The peripheral groove of the hollow laminated glass plate is filled with structural sealant that does not chemically react with the airtight sealant to form a bonded closed-loop support frame or metal profile closed-loop support frame groove bottom, and the closure of the glass groove walls on both sides Structural sealant ring;

   (B) Or the two glass plates forming the spaced interlayer cavity correspond to each other in outline shape and size. At least one of the two glass plates is provided with a lattice pressing and enveloping glass plate which is formed by mold pressing and stretching , Or the mold presses the stretched corrugated glass plate; between the edges of the two glass plates, there is a processed shape corresponding to the contour and size of the two glass plates and the edge of the glass plate, and the annular sealing frame of the glass plate supports Supported by a ring-shaped sealing frame with a height equal to the height of the convex hull or raised corrugation; or on the edges of the two glass plates, which are formed and shaped corresponding to the contour and size of the two glass plates and the edge of the glass plate, the ring seal The supporting height of the frame is the same height as the lattice convex hull or convex corrugation; or the supporting height of the ring-shaped sealing frame and the edge of the two glass plates are provided with the same height as the relative support superimposed total height of the lattice protruding hull or the convex corrugation;

   On one of the two glass plates, or on the support of the ring-shaped sealing frame, there are provided two sides of the connection, connected and sealed by connecting fasteners and airtight sealants;

   Corresponding to the two contour shapes and sizes, one or two of the lattice convex cladding glass plates with mold pressing and stretching, or the corrugated glass plate with mold pressing and stretching, are supported by the glass plate annular sealing frame , Support the stretched convex hulls or stretched corrugations of the two glass plates and the edge sealing frame of the glass plate, and the point-contact and surface-contact interlocking and closing pieces are bonded and closed;

   The peripheral groove of the hollow laminated glass plate is filled with structural sealant that does not chemically react with the airtight sealant to form a bonded closed-loop support frame or metal profile closed-loop support frame groove bottom, and the closure of the glass groove walls on both sides Structural sealant ring;

   (C) Or the two glass plates constituting the spaced interlayer cavity correspond to each other in outline shape and size, at least two glasses are printed by glass frit paste, and then made by sintering method; sintered glass frit paste dots are made for support Bump, or sintered glass powder paste frame at the same time to make a ring-shaped sealing frame support, the ring-shaped sealing frame support and the support bumps are of equal height; or two glass plates are provided with a ring-shaped sealing frame support of the same height as the bumps; or two The edge of the glass plate is provided with a ring-shaped sealing frame support that is equal to the relative support of the raised point and the total height; the sintered glass powder paste, the ring-shaped sealing frame support, or the glass tempering;

   On one of the two glass plates, or on the support of the ring-shaped sealing frame, there are provided two sides of the connection, connected and sealed by connecting fasteners and airtight sealants;

   The two glass plates support the airtight sealant coated on the sealing surface by the edge of the glass plate along the ring-shaped sealing frame, and the two glass plates and the ring-shaped closed frame are in point contact, or line contact and surface contact with the closing and bonding together ;

   The peripheral groove of the hollow laminated glass plate is filled with structural sealant that does not chemically react with the airtight sealant to form a bonded closed-loop support frame or metal profile closed-loop support frame groove bottom, and the closure of the glass groove walls on both sides Structural sealant ring;

   (D) Or the two glass plates that make up the interlayer cavity correspond to each other in outline shape and size. At least one of the two glass plates is provided with a support that is evenly distributed by bonding. The glass plate is connected as a whole; between the edges of the two glass plates, there is a glass plate ring-shaped sealing frame support corresponding to the contour shape, size and size of the two glass plates complementary to the glass plate edge. The height of the support of the sealing frame is equal to the support of a ring-shaped closed glass plate with an equal height; or between the edges of the two glass plates, the processing shape and the two glass plates are complementary in outline shape, size and edge of the glass plate Correspondingly, the support height of the ring-shaped sealing frame of the glass plate and the relative support of the support are superimposed on the total height of the ring-shaped closed glass plate ring-shaped sealing frame.

   On one of the two glass plates, or on the closed-loop sealing support frame, there are two sides of the connection, which are connected and sealed by connecting fasteners and airtight sealants;

   Corresponding two contour shapes and sizes, one or two of the glass plates with adhesive support and flat glass or adhesive support glass plates, including strip-shaped or "U"-shaped glass through the edge of the glass plate Plate ring seal frame support, cover and seal two glass plates; or closed-loop seal support frame with inverted “U” shaped profile with inverted side profile, closed-loop support including welding and airtight sealant bonding Frame; or metal profile closed-loop supporting frame is formed by continuous bending, or plug-in bonding molding, or welding molding, in which the cross-section is inverted "U" shaped profile at the airtight sealant adhesive connection, with an enlarged Plug-and-fill patch corresponding to the shape of the adhesive joint on the sealing connection surface;

   The supporting connection angle of the ring-shaped sealing frame on the edge of the glass plate is opposite to each other, and the connection is sealed by bonding or welding; the two glass plates and the ring-shaped closed frame are brought into point contact, or line contact and surface contact cover together;

   The peripheral groove of the hollow laminated glass plate is filled with structural sealant that does not chemically react with the airtight sealant to form a bonded closed-loop support frame or metal profile closed-loop support frame groove bottom, and the closure of the glass groove walls on both sides Structural sealant ring;

   After that, at least one blank of the glass plate is sent into the vacuum furnace, heated and evacuated, and the vacuum furnace is cooled by moist air, and then the furnace is opened, and the double-adhesive adhesive-sealed glass partition cavity vacuum-regulated thermal insulation glass plate is prepared.
2. A method for manufacturing the double-adhesive adhesive-sealed glass partition cavity vacuum-controlled thermal insulation glass plate of the product of claim 1, comprising a glass plate, an adhesive sealant, and a vacuum furnace, characterized in that: between two glass plates The supporting frame is spaced apart by a hollow interlayer. Two glass plates are bonded to the closed-loop support frame or metal profile closed-loop support. The sealing cover and the surface are provided with an airtight sealant. The peripheral groove of the hollow laminated glass plate is filled with airtight The sealant is a structural sealant that does not produce a chemical reaction, forming a closed structure sealant ring that bonds the closed-loop support frame or metal profile closed-loop support frame groove, and the glass groove walls on both sides; it is made into a hollow laminated glass blank;

   After that, place at least one blank laminated glass blank into the vacuum furnace with a supporting base, fixed supporting fixture or tray; the glass tray of the bonding furnace, or with improved glass and glass, glass and metal, Ultrasonic transducer with bonding quality of metal and double glue; close the vacuum furnace door and evacuate the hollow laminated glass plate blank in the vacuum furnace; all the gas in the airtight sealant and structural sealant is discharged;

   When the vacuum degree is reached and the vacuum time is set, the high-humidity air is introduced into the vacuum furnace, and the exhaust check valve provided on the mouth of the connected sealing pipe is closed instantly; the air generates pressure and is quickly compacted under the action of the air pressure Softened airtight sealant and structural sealant layer, and make it stick and solidify;

   Through the above process, the quality of the glass and stainless steel bonded by the airtight sealant and the structural sealant is improved; the vacuum furnace door is opened, and the insulated glass plate body is provided with a hollow inlet and exhaust communication sealing pipe, and the glass plate body is provided with a periphery There are two kinds of ring-shaped closed adhesive sealing tapes, and insulating and lighting glass plates with adjustable vacuum degree of the hollow glass interlayer;

   Or put at least one piece of hollow laminated glass sheet blank horizontally into a vacuum furnace with a supporting base, fixed support fixture or tray; close the vacuum furnace door and heat and vacuum the hollow laminated glass sheet blank in the vacuum furnace; hot melt gas The gas in the tight sealant and structural sealant is completely discharged;

   When the heating temperature, vacuum degree and set evacuation time are reached, high-humidity air is introduced into the vacuum furnace, and the exhaust check valve provided at the mouth of the connected sealing pipe is closed instantly; the air absorbs heat and expands to generate pressure, and the stainless steel frame Under the action of air pressure, the hot-melt airtight sealant and structural sealant layer in the softened state are quickly compacted and allowed to release heat and solidify. After that, or the cooling device provided in the vacuum furnace is turned on to cool the vacuum furnace;

   Or the high-humidity air is fed into the vacuum furnace, and the exhaust check valve provided on the mouth of the connected sealing pipe is instantly closed; the air absorbs heat, heats up and expands, and generates pressure. Under the action of air pressure, the hot-melt air-tightness is compacted quickly Sealant and structural sealant layer, and let it radiate and solidify. After that, release the hot air and fill it with cold air to cool the vacuum furnace, or turn on the cooling device inside the vacuum furnace to cool the vacuum furnace. The structural sealant will Natural cooling and solidification;

   Through the above process, improve the bonding quality of glass and hot-melt airtight sealant and structural sealant; when the temperature of the vacuum furnace is reduced to 50℃-55℃, open the vacuum furnace door to make the insulating glass plate body with hollow Intake and exhaust communication sealing pipe fittings, there are two kinds of ring-shaped closed adhesive sealing tapes on the periphery of the glass plate body, and the insulating hollow glass plate with adjustable vacuum degree of the glass hollow interlayer.
3. The double-adhesive bonding and sealing glass space cavity vacuum-controlled thermal insulation glass plate, including the glass plate and the bonding sealant, is characterized by:

   (A) The two glass plates forming the spaced interlayer cavity correspond to each other in outline shape and size. At least one of the two glass plates is provided with a glass plate integrated with evenly distributed convex support points Embossed glass plate with raised frame support belt; raised frame support belt with the height of raised frame support belt and dot matrix raised support point; or between the edges of two glass plates The two glass plates are complementary in contour shape and size to the edge of the glass plate. The height of the raised frame support band and the relative support of the dot matrix raised support points are superimposed on the total height of the raised frame support band; on the two glass plates One of them is provided with two sides of the communication, connected and sealed by connecting fasteners and airtight sealants;

   Corresponding to the two contour shapes and sizes, the embossed glass plate with dot matrix raised support points and raised frame support bands, after applying the airtight sealant on the raised frame support bands, or on the dot matrix convex After applying transparent glue on the supporting points and applying airtight sealant on the raised frame support tape, the two glass plates are sealed and bonded by complementary snap-fit bonding;

   The peripheral groove of the hollow laminated glass plate is filled with a structural sealant that does not react chemically with the airtight sealant to form a bonded raised frame support with a grooved bottom, and a closed structural sealant ring on both sides of the glass groove wall ; Or on the periphery of the two glass plates covered with two glass plates, and sealed by an airtight sealant, an airtight sealing ring with a metal thin strip with good plasticity used as an isolation sealing layer is bonded;

   The outer periphery of the hollow laminated glass plate is covered with a closed-loop corrugated stainless steel frame with an inverted “U” section. The grooves of the corrugated stainless steel frame are filled with structural sealant that does not chemically react with the airtight sealant; The self-elasticity of the inverted “U”-shaped closed-loop corrugated stainless steel frame is stretched with the outer periphery of the hollow laminated glass plate body, and the self-rebound of the closed-loop corrugated stainless steel frame is used to make the cross section of the inverted “U”-shaped closed-loop corrugated stainless steel frame , And tightly adhere to the outer periphery of the hollow laminated glass plate;

   Or the outer periphery of the hollow laminated glass plate body is wrapped with a closed-loop stainless steel frame coated with a structural sealant. The closed-loop stainless steel frame is fitted with a hollow laminated glass plate structure to protect the frame, made of glass Blank board

   (B) Or the two glass plates forming the spaced interlayer cavity correspond to each other in outline shape and size, and at least one of the two glass plates is provided with a lattice depression support point for mold pressing and stretching And the embossed glass plate of the concave frame support belt; between the edges of the two glass plates, there is a concave frame support belt with the height of the concave frame support belt and the dot matrix concave support point; or two glass plates On the edge, there is a concave frame support belt, the height of the concave frame support belt is the same height as the dot matrix concave support point; or the height of the concave frame support belt and the edge of the two glass plates are provided with the dot matrix concave support The total height of the relative support of the points is equal to the total height;

   One of the two glass plates is provided with two sides of the connection, connected and sealed by connecting fasteners and airtight sealants;

   Corresponding to the two contour shapes and sizes, the embossed glass plate with dot matrix recessed support points and recessed frame support belts, after applying airtight sealant on the recessed frame support belts, or recessed in the dot matrix After applying transparent glue on the support points and applying airtight sealant on the concave frame support belt, the two concave border support belts of the two glass plates are complementarily snapped and sealed;

   The peripheral groove of the hollow laminated glass plate is filled with a structural sealant that does not react chemically with the airtight sealant to form a bonded bottom frame support grooved bottom, and a closed structural sealant ring on both sides of the glass groove wall ;

   Or on the periphery of the two glass plates covered with two glass plates, and sealed by an airtight sealant, a layer of metal tape with good plasticity is used as an airtight sealing ring for the isolation sealing layer;

   The outer periphery of the hollow laminated glass plate is covered with a closed-loop corrugated stainless steel frame with an inverted “U” section. The grooves of the corrugated stainless steel frame are filled with structural sealant that does not chemically react with the airtight sealant; The self-elasticity of the inverted “U”-shaped closed-loop corrugated stainless steel frame is stretched with the outer periphery of the hollow laminated glass plate body, and the self-rebound of the closed-loop corrugated stainless steel frame is used to make the cross section of the inverted “U”-shaped closed-loop corrugated stainless steel frame , And tightly adhere to the outer periphery of the hollow laminated glass plate;

   Or the outer periphery of the hollow laminated glass plate body is wrapped with a closed-loop stainless steel frame coated with a structural sealant. The closed-loop stainless steel frame is fitted with a hollow laminated glass plate structure to protect the frame, made of glass Blank board

   After that, at least one blank of the glass plate is sent into the vacuum furnace, which is heated and evacuated; after that, the vacuum furnace is cooled by humid air and then opened, to obtain a double-adhesive adhesive sealed glass partition cavity vacuum-regulated thermal insulation glass plate.
4. A method for manufacturing the double-adhesive adhesive-sealed glass partition cavity vacuum-controlled thermal insulation glass plate of the product of claim 1, comprising a glass plate, an adhesive sealant, and a vacuum furnace, characterized in that the two contour shapes and sizes are mutually Correspondingly, one of the two glass plates is provided with two sides of the connection, and is connected and sealed by connecting fasteners and airtight sealants; the two glass plates are provided with embossing of lattice support points and frame support bands Glass plate, after applying airtight sealant on the frame support belt, or after applying transparent glue on the lattice support point, after applying airtight sealant on the frame support belt, the frame support belt of the two glass plates Complementary buckling, bonding and sealing;

   The peripheral groove of the hollow laminated glass plate is filled with structural sealant that does not chemically react with the airtight sealant to form a bonded frame support with a grooved bottom, and a closed structural sealant ring on both sides of the glass groove wall. Into a blank glass plate;

   After that, place at least one blank laminated glass blank into the vacuum furnace with a supporting base, fixed supporting fixture or tray; the glass tray of the bonding furnace, or with improved glass and glass, glass and metal, Ultrasonic transducer with metal and double adhesive bonding quality; close the vacuum furnace door and evacuate the hollow laminated glass plate blank in the vacuum furnace; the gas in the airtight sealant and structural sealant is completely discharged; in stainless steel and glass, The capillary action of the contact gap between glass and glass, stainless steel and stainless steel, and the air-tight sealant and structural sealant exhaust gas under the effect of their own cohesion, the airtight sealant, structural sealant and glass bonding surface, stainless steel bonding The surface is fully immersed and wetted to achieve the adhesion of the airtight sealant and structural sealant to the glass and stainless steel frame;

   At the same time, due to the deeper design of the "U" shaped closed-loop stainless steel frame groove, the corresponding closed-loop structure sealant layer is also longer, so the formed adhesive connection sealant layer is thicker, making the structural sealant and glass and stainless steel High bonding strength and good airtight sealing performance;

   After reaching the vacuum degree and setting the evacuation time, the high-humidity air is introduced into the vacuum furnace, and the exhaust check valve provided at the mouth of the connected sealing pipe is closed instantly; the air generates pressure, and the stainless steel frame is quickly under the action of the air pressure Compact and soften the airtight sealant and the structural sealant layer, and make it stick and solidify;

   Through the above process, the quality of the glass and stainless steel bonded by the airtight sealant and the structural sealant is improved; the vacuum furnace door is opened, and the insulated glass plate body is provided with a hollow inlet and exhaust communication sealing pipe, and the glass plate body is provided with a periphery There are two kinds of ring-shaped closed adhesive sealing tape and stainless steel closed-loop protective frame, and the insulating hollow glass plate with adjustable vacuum degree of the glass hollow interlayer;

   Or put at least one piece of hollow laminated glass sheet blank horizontally into a vacuum furnace with a supporting base, fixed support fixture or tray; close the vacuum furnace door and heat and vacuum the hollow laminated glass sheet blank in the vacuum furnace; hot melt gas The gas in the tight sealant and the structural sealant is completely discharged; the capillary action of the contact gap between stainless steel and glass, glass and glass, stainless steel and stainless steel, and the hot melt airtight sealant and structural sealant after exhausting gas in itself Under the effect of cohesion, the hot-melt airtight sealant, structural sealant and glass bonding surface, and stainless steel bonding surface are fully immersed and wetted to achieve the bonding of hot-melt airtight sealant and structural sealant to the glass and stainless steel frame;

   At the same time, due to the deeper design of the "U" shaped closed-loop stainless steel frame groove, the corresponding closed-loop structure sealant layer is also longer, so the formed adhesive connection sealant layer is thicker, making the structural sealant and glass and stainless steel High bonding strength and good airtight sealing performance;

   When the heating temperature, vacuum degree and set evacuation time are reached, high-humidity air is introduced into the vacuum furnace, and the exhaust check valve provided at the mouth of the connected sealing pipe is closed instantly; the air absorbs heat and expands to generate pressure, and the stainless steel frame Under the action of air pressure, the hot-melt airtight sealant and structural sealant layer in the softened state are quickly compacted and allowed to release heat and solidify. After that, or the cooling device provided in the vacuum furnace is turned on to cool the vacuum furnace;

   Or the high-humidity air is introduced into the vacuum furnace, and the exhaust check valve provided on the mouth of the connected sealing pipe is closed instantly; the air absorbs heat and expands to generate pressure, and the stainless steel frame is quickly compacted and softened under the action of air pressure. The airtight sealant and the structural sealant layer are allowed to release heat and solidify. After that, the hot air is discharged and the cold air is filled to cool the vacuum furnace, or the cooling device provided in the vacuum furnace is turned on to cool the vacuum furnace. The stainless steel frame The structural sealant inside will naturally cool down and solidify;

   Through the above process, the quality of glass and stainless steel bonding by hot-melt airtight sealant and structural sealant is improved; when the temperature of the vacuum furnace is reduced to 50℃-55℃, the vacuum furnace door is opened to make an insulating glass plate body. There are hollow air inlet and exhaust joint sealing pipe fittings. There are two ring-shaped closed adhesive sealing tapes and stainless steel closed-loop protective frames on the periphery of the glass plate body. The insulating hollow glass plate with adjustable vacuum degree of the glass hollow interlayer.
5. The double-adhesive sealed glass partition cavity vacuum-controlled insulating glass plate according to claim 1 or 2, characterized in that the glass plate includes glass original sheet, tempered glass, textured glass, embossed glass, halogenated glass, milled glass Sand glass, coated glass, the functional film of coated glass includes antireflection film, metal film, decorative film; if the surface of the glass panel is compounded with the coating, the coating must be removed at the bonding surface of the glass panel.
6. According to claim 1 or 2, the double-adhesive sealed glass partition cavity vacuum controlled thermal insulation glass plate is characterized in that: the embossed glass plate and the corrugated glass plate are flat glass formed by hot pressing and stretching of the corresponding mold, or The flat glass is blown and stretched by heating with positive and negative pressure in the corresponding mold; the original glass of bumps is flat printed glass produced by the calendering method, and the surface of a calender roll on the glass calender is engraved with shape and size A series of pits that are equal and arranged according to the dot matrix of the bump supporters are used as the printing pattern of the bumps;

   Bumped embossed glass plate is a glass plate that is rolled at a suitable temperature position in the glass tin bath when the original flat glass sheet is produced by the glass calender; the surface of a calender roll on the glass calender used is engraved There are a series of pits with uniform shape and size, and arranged in a dot matrix of the bump support; the embossed glass plate of the bump is cut, edged and tempered;

   Or the embossed glass plate is the original flat glass edging and shaping, heated by the tempering furnace, the convex point is calendered by the glass calender, the supporting frame is bent, and tempered after forming; one calender on the glass calender used The surface of the roller is engraved with a series of pits of uniform shape and size, and arranged in a dot matrix of the convex support;

   Or convex cladding glass plate or corrugated glass plate is the glass plate in the glass tin bath at a suitable temperature position in the production of flat glass original sheet, the glass concave point is rolled by the glass calender; the surface of a calender roll on the glass calender used The upper part is engraved with a series of convex tips of uniform shape and size, and arranged according to the lattice of the concave support; the concave embossed glass plate is cut, edged and tempered;

   Or the convex cladding glass plate or corrugated glass plate after edging and shaping, heated by the tempering furnace, the convex point is stretched by the glass mold, the supporting frame is bent, and after forming, it is tempered;

   Or the bump glass plate is the original glass, which is made by printing glass powder paste and then sintering method; that is, first print the low-temperature glass powder paste on a flat glass according to the dot array pattern of the bump support, and then The flat glass is fed into a tempering sintering furnace and heated to a suitable temperature of the melting point of the glass frit paste, so that the glass frit paste accumulation body is transformed into glass bumps fused to the surface of the flat glass, and then the support frame is bent to be tempered deal with;

   The support is a support coated with an adhesive on at least one end, and includes a high-hard glass support, a high-hard metal support, a high-hard ceramic support, a columnar or spherical or a ring-shaped lattice support, which is equal to or close to the height of the raised frame support belt Arranged; or supported by a support insulation material pad with an aerogel insulation pad bonded to the end support surface, the surface of the support aerogel insulation pad at both ends of the insulation material pad, coated with hot melt adhesive, or Glass glue, or ultraviolet curing glue, or water glass glue;

   The tempered glass panel with appropriate thickness flat glass according to the design size is cut, edging and tempered as raw materials; the glass bonding surface needs to be degreased, cleaned and dried.
7. The double-adhesive sealed glass partition cavity vacuum-controlled insulating glass plate according to claim 1 or 2, characterized in that: the opening in the hollow laminated glass plate body is provided on the glass panel, or is provided on the raised frame support The belt and the raised frame support belt; the connected sealing pipe is a pipe with a thread profile on the outer wall of the "T" section with a stop tube, and the pipe thread is correspondingly provided with a root with a flute and a tapered upward spiral The cap is screwed and sealed on the hollow laminated glass plate body by airtight sealant and nut, or the pipe fittings with thread on the outer wall of the pipe, the pipe fitting thread is correspondingly provided with a nut whose root is toothed and tapered upward, It is tightly sealed on the hollow laminated glass plate by airtight sealant and nut; the joint sealing pipe is provided with a fastening seal pipe corresponding to the opening of the glass plate, and the inlet and exhaust pipe heads are fastened by airtight sealant The sealing pipe is locked and fixed on the opening of the inlet and exhaust pipe head of the glass plate, the cross section is "T" shaped with a stopper, a ventilation groove is provided on the stopper, and a threaded pipe is provided on the outer wall of the tube Or magnetic materials.
8. The double-adhesive adhesive-sealed glass partition cavity vacuum-controlled insulating glass plate according to claim 1 or 2, characterized in that: the ring-shaped closed glass support frame is bonded by a first airtight sealant; the first airtight The sealant includes butyl sealant, such as polyisobutylene adhesive, hot-melt butyl adhesive; the second sealant is cured weathering structural sealant, including elastic sealant for insulating glass, such as polysulfide, silicone, polyurethane Category; hot-melt structural sealants include hot-melt polyisobutylene glue, hot-melt butyl glue.
9. The double-adhesive sealed glass partition cavity vacuum-regulated thermal insulation glass panel according to claim 1 or 2, characterized in that: a raised frame support belt corresponding to the size of the glass panel is made, the height of the raised frame support belt, and The width of the sealing surface of the airtight sealant is determined according to the design size; the surface of the raised frame support belt is sealed with airtight sealant, which must be degreased, cleaned and dried; the raised frame support belt is made of glass The rectangular glass strip or metal strip with equal thickness and edging edges is bonded to the raised frame support belt formed on the edge of the glass plate by airtight sealant; or the raised frame support belt is a rectangular glass strip or metal strip , Adhesive molding by airtight sealant;

   Or the supporting frame of the raised frame is a "U" shaped metal profile whose outer width corresponds to the width of the edge of the glass plate, and is formed by including hot melt welding and laser welding;

   Or the supporting frame of the raised frame is a "U" shaped metal profile whose outer width corresponds to the width of the edge of the glass plate, and is formed by bonding with an airtight sealant; the cross section is an inverted "U" shaped profile at the place where the airtight sealant is bonded. There is an airtight sealant with an enlarged seal connection surface corresponding to the shape of the airtight sealant at the inverted "U" profile.

   Or the supporting frame of the raised frame is a "T" shaped metal profile whose outer width is slightly larger than the width of the edge of the insulated lighting glass plate, and is formed by air-tight sealant bonding; the corner connection of the "T" shaped metal profile is provided with a supplementary corner adhesive Patch

   A thin plastic belt with good plasticity that extends the bonding thickness of the airtight sealant is an aluminum belt or a stainless steel belt;

   The outer periphery of the hollow laminated glass body is covered with a closed-loop corrugated stainless steel frame with an inverted "U" shape; the "U" corrugated stainless steel groove profile is a stainless steel strip that is formed by stamping and stretching of the mold, or "U" corrugated stainless steel The groove profile is a stainless steel strip, which is rolled and formed by a rolling mill; the closed-loop corrugated stainless steel frame is a "U"-shaped corrugated stainless steel profile, which is made by bending welding or cutting and welding.

   The inverted "U" shaped closed-loop corrugated stainless steel frame groove must be deoiled, cleaned, and dried when used;

   The outer periphery of the hollow laminated glass plate body is wrapped with a closed-loop stainless steel frame with a cross section of "L" and an anti-"L" shaped stainless steel frame. The protective frame is formed by a hollow laminated glass plate; the "L" shaped stainless steel profile is a stainless steel strip, Stamping and drawing by die, or "L" shaped stainless steel profiles are stainless steel strips, rolled and formed by a rolling mill; closed-loop "L" shaped stainless steel frames are "L" shaped stainless steel profiles, which are welded by bending, or Cutting and welding stainless steel frame;

   "L" shaped stainless steel profiles must be degreased, cleaned, and dried.
10. The method for using a double-adhesive sealed glass partition cavity vacuum-controlled thermal insulation glass plate according to claim 1 or 2, wherein at least one glass frame supports complementary snap-fitting double-adhesive bonded stainless steel frame vacuum-controlled glass The intake and exhaust pipes may be provided with vacuum meters and vacuum valves. The vacuum meters may be artificial intelligence vacuum meters. The vacuum valves may be artificial intelligence vacuum valves. The vacuum valves may be welded, bonded or screwed through three-way or four-way fittings. The cap sealing pipe is bolted and connected in parallel with the main intake and exhaust pipes;

    The other port of the main inlet and exhaust pipe three-way or four-way pipe is connected to the vacuum valve, and the vacuum valve is connected to the one interface of the dryer. The dryer is equipped with an electric heating dehumidification device and an air exhaust valve;

    One of the interfaces of the dryer is connected in parallel with the mother pipe and the three-way or four-way fittings, the vacuum valve and the low thermal conductivity gas including argon and carbon dioxide cylinders; at the same time, the dryer also passes through the mother pipe and the three-way or four-way respectively Pipe fittings and vacuum valves are connected with high thermal conductivity gas including hydrogen and helium cylinders; also connected with mother pipe and three-way or four-way pipe fittings, vacuum valve and atmospheric air inlet pipe; main inlet and exhaust pipes are through three-way or four-way pipe fittings The other interface is connected to a vacuum valve. The vacuum valve is connected to the vacuum pump set through a pipeline. A vacuum meter is provided on the main intake and exhaust pipelines. Manual, automatic or artificial intelligence controls the opening and closing of the vacuum pump set; Vacuum control glass system with bonded stainless steel frame;

    The vacuum pump set is equipped with two parallel vacuum pumps for rough pumping and fine pumping. When the rough pumping pump reaches the set vacuum, the rough pumping pump is turned off and the fine pumping pump is started until the set vacuum is pumped off. When the vacuum pump is turned off; when the vacuum degree When it drops to the set value, start the vacuum pump set again;

    The glass frame supports the complementary buckling double glue bonded stainless steel frame vacuum control glass. After the vacuum degree of the glass is reduced to the set value, the vacuum valve is automatically closed, and the vacuum pump measures the glass frame support. Vacuum degree, judge whether the device leaks vacuum, and automatically open the vacuum valve when the vacuum drops to the set value;

    The glass frame supports complementary snap-fit double-glued stainless steel frame vacuum control glass system. According to the design requirements, the system can achieve good heat dissipation by passing hydrogen or helium gas with high thermal conductivity gas into the system;

    By passing air into the system, the conventional heat dissipation of the device is achieved;

    By introducing argon or carbon dioxide with low thermal conductivity gas into the system, the conventional heat preservation of the device is achieved;

    By vacuuming the system, a good thermal insulation of the device is achieved.