CN219034541U - Composite glass door and window - Google Patents

Abstract

The utility model provides a composite glass door and window, which comprises an existing glass door and window and a vacuum glass component, wherein the existing glass door and window comprises an existing door and window frame and existing glass; the vacuum glass component comprises a vacuum glass unit, and structural adhesive is arranged at the edge of the vacuum glass component and used for fixedly sealing the vacuum glass component and the existing door and window frame; a spacing bar is arranged between the vacuum glass component and the existing glass; the size of the vacuum glass assembly is smaller than the size of the visible face of the existing glass. The sound insulation performance of the vacuum glass is higher than that of the traditional hollow glass by more than 5dB, meanwhile, the structure is formed by flexibly connecting the vacuum glass with the original frame, the sound insulation performance of the structure is further improved, and meanwhile, the heat insulation performance of the existing window is improved by more than one time after the components are added to the inner surface and the outer surface of the existing outer window due to the existing heat insulation performance of the vacuum glass, and the sound insulation performance is improved by 5-10dB.

Description

Composite glass door and window

Technical Field

The utility model relates to the field of glass doors and windows, in particular to a composite glass door and window with a vacuum glass component installed on the existing glass door and window through a reinforcing structure.

Background

With the popularization and deep penetration of the concept of green life and health preservation, more and more people begin to pay attention to the problem of living comfort. Two important indicators of living room comfort are thermal comfort and acoustic comfort. Most commonly, the comfort level of living is improved by installing glass on building doors and windows to keep out wind, reduce noise and insulate heat. Most of the existing doors and windows adopt single-layer glass or hollow glass, and along with the technical innovation of the doors and windows, the existing building doors and windows can not meet the requirements of living comfort, become weak links of sound insulation and heat insulation of the whole building, and the improvement of the performance of the existing building doors and windows becomes a problem to be solved urgently. The existing solution is to form a hollow cavity by attaching a layer of glass to the existing window glass, and the modification can generate resonance between the existing glass and the additional glass to influence the sound insulation effect of the door and window curtain wall.

Disclosure of Invention

In view of the problems of the prior art, it is an object of the present utility model to provide a composite glass door and window comprising an existing glass door and window and a vacuum glass assembly, the existing glass door and window comprising an existing door and window frame and an existing glass; the vacuum glass assembly comprises a vacuum glass unit, and structural adhesive is arranged at the edge of the vacuum glass assembly and used for fixedly sealing the vacuum glass assembly and the existing door and window frame; a spacing bar is arranged between the vacuum glass component and the existing glass; the size of the vacuum glass component is smaller than the size of the visible surface of the existing glass.

Further, the vacuum glass component is connected with the spacing bar through butyl rubber.

Further, the structural adhesive is arranged around the vacuum glass unit and used for fixedly sealing the vacuum glass unit and the existing door and window frame; the butyl rubber is arranged between the spacing bar and the vacuum glass unit; the spacing bar is connected with the existing door and window frame through the structural adhesive or the butyl adhesive.

Further, a gap is provided between the spacer bar and the existing glass.

Further, the butyl rubber is arranged between the spacer bar and the existing glass.

Further, the vacuum glass assembly further comprises U-shaped connecting pieces, and the vacuum glass units are embedded in the two opposite U-shaped connecting pieces; the U-shaped connecting piece is connected with the existing door and window frame through butyl rubber, and the U-shaped connecting piece is fixedly sealed on two sides of the butyl rubber through the structural rubber; the butyl rubber is arranged between the inner side of the U-shaped connecting piece and the spacing bar, and the outer side of the U-shaped connecting piece and the outer side edge of the vacuum glass unit are connected with the structural rubber.

Further, the vacuum glass assembly further comprises a U-shaped connecting piece, one end of the vacuum glass unit is provided with the U-shaped connecting piece, the U-shaped connecting piece is arranged between the vacuum glass unit and the existing glass, the other end of the vacuum glass unit is provided with the spacing bar, the spacing bar is arranged between the vacuum glass unit and the existing glass, and the spacing bar is connected with the existing glass through the butyl rubber.

Further, the vacuum glass assembly further comprises at least one L-shaped connector.

Further, the L-shaped connecting piece is arranged between the existing glass and the vacuum glass unit, and the L-shaped connecting piece is close to the inner corner of the vacuum glass unit; the structural adhesive is arranged around the vacuum glass unit and used for fixedly sealing the vacuum glass unit and the existing door and window frame; one side of the L-shaped connecting piece is connected with the vacuum glass unit through the butyl rubber, and the other side of the L-shaped connecting piece is connected with the existing door and window frame through the butyl rubber.

Further, the L-shaped connecting pieces are four; the spacer bar is connected with the inner side of at least one L-shaped connecting piece through the butyl rubber.

Further, the number of the L-shaped connecting pieces is two, and the spacing bars are connected with the vacuum glass units through the butyl rubber.

Further, the spacer bar is connected with the inner side of at least one L-shaped connecting piece through the butyl rubber.

Further, the existing glass is single-piece glass, hollow glass, laminated glass or vacuum glass.

Further, the vacuum glass assembly comprises buckling strips, wherein the buckling strips are arranged on the periphery of the vacuum glass assembly.

Further, the connector is connected with the existing door and window frame through rivets or screws.

The composite glass door and window has the following technical effects:

1. butyl rubber and structural adhesive form two seals, and the spacer bar contains a drying agent, so that the tightness of the cavity can be fully ensured, and the service life is prolonged.

2. The structure utilizes the existing door and window frame when the existing glass door and window is reformed, the existing glass can be single glass, hollow glass, laminated glass or vacuum glass, and the vacuum glass component is installed by utilizing the existing door and window frame, so that the structure is rapid and efficient to reform and has wide application range.

3. The sound insulation performance of the vacuum glass is higher than that of the traditional hollow glass by more than 5dB, meanwhile, the structure is flexibly connected with the original frame, the sound insulation performance of the structure is further improved, and meanwhile, the heat insulation performance of the existing glass door and window is improved by more than one time and the sound insulation performance is improved by 5-10dB after the vacuum glass component is added to the existing glass door and window.

Drawings

FIG. 1 is a schematic view of a composite glass door and window according to embodiment 1 of the present utility model;

FIG. 2 is a schematic view of a composite glass door and window according to embodiment 2 of the present utility model;

FIG. 3 is a schematic view of a composite glass door and window according to embodiment 3 of the present utility model;

FIG. 4 is a schematic view of a composite glass door and window according to embodiment 4 of the present utility model;

FIG. 5 is a schematic view of a composite glass door and window according to embodiment 5 of the present utility model;

FIG. 6 is a schematic view of a composite glass door and window according to embodiment 6 of the present utility model;

FIG. 7 is a schematic view of a composite glass door and window according to embodiment 7 of the present utility model;

FIG. 8 is another schematic view of a composite glass door and window according to embodiment 4 of the present utility model;

1. a buckling strip; 2. a vacuum glass unit; 3. structural adhesive; 4. butyl rubber; 4-1, first butyl rubber; 4-1-1, spacer butyl rubber; 4-2, second butyl rubber; 4-3, third butyl rubber; 4-4, fourth butyl rubber; 4-5 parts of fifth butyl rubber; 4-6, sixth butyl rubber; 4-7, seventh butyl rubber; 4-8, eighth butyl rubber; 5. a spacer bar; 6. existing door and window frames; 7. existing glass; 8. a U-shaped connecting piece; 9. an L-shaped connector; 10. a gasket; 11. and (5) pulling the rivet.

Detailed Description

In order to clearly illustrate the design concept of the present utility model, the present utility model will be described with reference to examples.

In order that those skilled in the art will better understand the solution of the present utility model, the following description will clearly and fully describe the solution of the present utility model with reference to the accompanying drawings in which it is to be understood that the examples described are only some, but not all, examples of the present utility model. All other embodiments obtained by those skilled in the art based on the examples of this utility model without making any inventive effort shall fall within the scope of protection of this utility model.

In the description of the present embodiment, the orientation or positional relationship indicated by the terms are based on the orientation or positional relationship shown in the drawings, and are merely for convenience of description and simplification of description, and are not indicative or implying that the apparatus or element to be referred must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

In the following description, "inner" is a side closer to the existing glass 7, and "outer" is a side farther from the existing glass 7.

The utility model provides a composite glass door and window, comprising an existing glass door and window and a vacuum glass component, wherein the existing glass door and window comprises an existing door and window frame 6 and an existing glass 7; the vacuum glass component comprises a vacuum glass unit 2, and structural adhesive 3 is arranged at the edge of the vacuum glass component, wherein the structural adhesive 3 is used for fixedly sealing the vacuum glass component and the existing door and window frame 6; a spacing bar 5 is arranged between the vacuum glass component and the existing glass 7, a drying agent is arranged in the spacing bar 5, the size of the vacuum glass component is smaller than that of the visible surface of the existing glass 7, and the vacuum glass component is connected with the spacing bar 5 through a first butyl adhesive 4-1. The existing door and window frame 6 is utilized when the existing glass door and window is reformed, the vacuum glass component is installed by utilizing the existing door and window frame 6, the reformation is rapid and efficient, and the application range is wide.

Example 1

As shown in fig. 1, the present embodiment provides a composite glass door and window, including an existing glass door and window and a vacuum glass assembly (for clarity of illustration, fig. 1 adopts a part of schematic view, parts are not designated to be symmetrical therewith), the existing glass door and window including an existing door and window frame 6 and an existing glass 7; the vacuum glass component comprises a vacuum glass unit 2, and structural adhesive 3 is arranged at the edge of the vacuum glass component, wherein the structural adhesive 3 is used for fixedly sealing the vacuum glass component and the existing door and window frame 6; a spacer 5 is arranged between the vacuum glass component and the existing glass 7, a drying agent is arranged in the spacer 5, the size of the vacuum glass component is smaller than the size of the visible surface of the existing glass 7, the vacuum glass unit 2 is vacuum glass, the vacuum glass unit can also comprise laminated glass arranged on the outer side of the vacuum glass, and the existing glass 7 is single-piece glass, hollow glass, laminated glass or vacuum glass. The existing door and window frame 6 of the embodiment further comprises buckling strips 1, the buckling strips 1 are arranged on the outer edge of the periphery of the vacuum glass component, the buckling strips 1 are connected with the vacuum glass unit 2 through structural adhesive 3, and the structural adhesive 3 is arranged on the periphery of the vacuum glass unit 2 and used for fixedly sealing the vacuum glass unit 2 and the existing door and window frame 6; butyl rubber 4-1 is arranged between the spacing bar 5 and the vacuum glass unit 2; the spacing bar 5 is connected with the buckling bar 1 through the spacing bar butyl rubber 4-1-1. A gap is reserved between the spacing bar 5 and the existing glass 7 so as to improve the heat preservation and insulation performance of the composite glass door and window.

Example 2

As shown in fig. 2, the present embodiment provides a composite glass door and window comprising an existing glass door and window and a vacuum glass assembly, the existing glass door and window comprising an existing door and window frame 6 and an existing glass 7; the vacuum glass component comprises a vacuum glass unit 2, and structural adhesive 3 is arranged at the edge of the vacuum glass component, wherein the structural adhesive 3 is used for fixedly sealing the vacuum glass component and the existing door and window frame 6; a spacer 5 is arranged between the vacuum glass component and the existing glass 7, a drying agent is arranged in the spacer 5, the size of the vacuum glass component is smaller than the size of the visible surface of the existing glass 7, the vacuum glass unit 2 is vacuum glass, the vacuum glass unit can also comprise laminated glass arranged on the outer side of the vacuum glass, and the existing glass 7 is single-piece glass, hollow glass, laminated glass or vacuum glass. The existing door and window frame 6 also comprises a buckling strip 1, the two sides of the vacuum glass unit 2 are respectively provided with a spacing strip 5, the spacing strips 5 are directly arranged on the structural adhesive 3 at the two sides of the vacuum glass unit 2, the spacing strips 5 are connected with the vacuum glass unit 2 through a first butyl adhesive 4-1, the spacing strips 5 are connected with the existing glass 7 through a second butyl adhesive 4-2, and the spacing strips 5 are connected with the buckling strip 1 through the structural adhesive.

Example 3

As shown in fig. 3, the present embodiment provides a composite glass door and window comprising an existing glass door and window and a vacuum glass assembly, the existing glass door and window comprising an existing door and window frame 6 and an existing glass 7; the vacuum glass component comprises a vacuum glass unit 2, and structural adhesive 3 is arranged at the edge of the vacuum glass component, wherein the structural adhesive 3 is used for fixedly sealing the vacuum glass component and the existing door and window frame 6; the vacuum glass assembly comprises a vacuum glass unit 2 and U-shaped connecting pieces 8, wherein the vacuum glass unit 2 is embedded in the two opposite U-shaped connecting pieces 8, a gasket 10 is arranged between the vacuum glass unit 2 and one of the U-shaped connecting pieces 8, a spacing bar 5 is arranged between the vacuum glass assembly and the existing glass 7, and a drying agent is arranged in the spacing bar 5; the existing door and window frame 6 of the embodiment further comprises buckling strips 1, the buckling strips 1 are arranged on the outer edges of the periphery of the vacuum glass component and are connected with the vacuum glass component through structural adhesive 3 and butyl adhesive, U-shaped connecting pieces 8 are connected with the buckling strips 1 through third butyl adhesive 4-3 and fourth butyl adhesive 4-4, and the outer sides of the third butyl adhesive 4-3 and the fourth butyl adhesive 4-4 are fixedly sealed with the U-shaped connecting pieces 8 through the structural adhesive 3; butyl rubber 4-1 is arranged between the inner side of the U-shaped connecting piece 8 and the spacing bar 5. The U-shaped connecting piece 8 in this embodiment is a U-shaped plastic piece, and a gap is left between the spacer bar 5 and the existing glass 7, so as to improve the heat insulation performance of the composite glass door and window. In order to strengthen the connection strength of the U-shaped connector 8 to the existing door and window frame 6, the U-shaped connector 8 may be attached to the existing door and window frame 6 by means of blind rivets or screws.

Example 4

As shown in fig. 4, the present embodiment provides a composite glass door and window comprising an existing glass door and window and a vacuum glass assembly, the existing glass door and window comprising an existing door and window frame 6 and an existing glass 7; the vacuum glass component comprises a vacuum glass unit 2, and structural adhesive 3 is arranged at the edge of the vacuum glass component, wherein the structural adhesive 3 is used for fixedly sealing the vacuum glass component and the existing door and window frame 6; the vacuum glass assembly comprises a vacuum glass unit 2, a U-shaped connecting piece 8 is arranged at one end of the vacuum glass unit 2, the U-shaped connecting piece 8 is arranged between the vacuum glass unit 2 and the existing glass 7, the U-shaped connecting piece 8 is connected with the vacuum glass unit 2 through fourth butyl rubber 4-4, the U-shaped connecting piece 8 is connected with the existing glass 7 through sixth butyl rubber 4-6, and the U-shaped connecting piece 8 is connected with the existing door and window frame 6 through third butyl rubber 4-3. As shown in fig. 8, in order to strengthen the connection strength of the U-shaped connector 8 to the existing door and window frame 6, the U-shaped connector 8 may be connected to the existing door and window frame 6 by means of a blind rivet 11 or a screw. The other end of the vacuum glass unit 2 is provided with a spacing bar 5, the spacing bar 5 is arranged between the vacuum glass unit 2 and the existing glass 7, a spacing bar butyl rubber 4-1-1 is arranged between the spacing bar 5 and the existing door and window frame 6, and the spacing bar 5 is connected with the existing glass 7 through a sixth butyl rubber 4-6.

Example 5

As shown in fig. 5, the present embodiment provides a composite glass door and window, including an existing glass door and window and a vacuum glass component, where the existing glass door and window includes an existing door and window frame 6 and an existing glass 7, and the existing door and window frame 6 further includes a buckle strip 1, where the buckle strip 1 is disposed at the periphery of the vacuum glass component; the vacuum glass assembly comprises a vacuum glass unit 2, structural adhesive 3 is arranged at the edge of the vacuum glass assembly, and the structural adhesive 3 is arranged around the vacuum glass unit 2 and used for fixedly sealing the vacuum glass unit 2 and the buckling strip 1; the vacuum glass assembly comprises a vacuum glass unit 2 and L-shaped connecting pieces 9, wherein the number of the L-shaped connecting pieces 9 is four, and the L-shaped connecting pieces 9 are L-shaped plastic pieces; the L-shaped connecting piece 9 is arranged between the existing glass 7 and the vacuum glass unit 2, the L-shaped connecting piece 9 is arranged on two sides of the vacuum glass unit 2, and the existing door and window frames 6 close to the two sides are connected through the butyl rubber 4. The spacing bar 5 is arranged on one L-shaped connecting piece 9 through fifth butyl rubber 4-5, one side of the L-shaped connecting piece 9 is connected with the vacuum glass unit 2 through seventh butyl rubber 4-7, and the other side of the L-shaped connecting piece 9 is connected with the existing door and window frame 6 through eighth butyl rubber 4-8. The L-shaped connecting piece 9 and the existing glass 7 can be directly connected through butyl rubber 4, and in order to strengthen the connection strength of the L-shaped connecting piece 9 and the existing door and window frame 6, the L-shaped connecting piece 9 can be connected to the existing door and window frame 6 through a pull rivet or a screw.

Example 6

As shown in fig. 6, the present embodiment provides a composite glass door and window, including an existing glass door and window and a vacuum glass component, where the existing glass door and window includes an existing door and window frame 6 and an existing glass 7, and the existing door and window frame 6 further includes a buckle strip 1, where the buckle strip 1 is disposed at the periphery of the vacuum glass component; the vacuum glass assembly comprises a vacuum glass unit 2, structural adhesive 3 is arranged at the edge of the vacuum glass assembly, and the structural adhesive 3 is arranged around the vacuum glass unit 2 and used for fixedly sealing the vacuum glass unit 2 and the buckling strip 1; the vacuum glass assembly comprises a vacuum glass unit 2 and L-shaped connecting pieces 9, wherein the number of the L-shaped connecting pieces 9 is two, and the L-shaped connecting pieces 9 are L-shaped plastic pieces; the L-shaped connecting piece 9 is arranged between the existing glass 7 and the vacuum glass unit 2, the L-shaped connecting piece 9 is arranged on two sides of the vacuum glass unit 2, and the existing door and window frames 6 close to the two sides are connected through the butyl rubber 4. One side of the vacuum glass unit 2 is provided with an L-shaped connecting piece 9, the other side is provided with a spacing bar 5,L type connecting piece 9 which is connected with the vacuum glass unit 2 through a seventh butyl rubber 4-7 and is connected with the existing door and window frame 6 through an eighth butyl rubber 4-8. The spacing bars 5 are connected with the existing door and window frames 6 through spacing bar butyl rubber 4-1-1. The L-shaped connecting piece 9 and the existing glass 7 can be directly connected through the butyl rubber 4 with a gap. In order to strengthen the connection strength of the L-shaped connector 9 to the existing door and window frame 6, the L-shaped connector 9 may be connected to the existing door and window frame 6 by means of blind rivets or screws.

Example 7

As shown in fig. 7, the present embodiment provides a composite glass door and window, including an existing glass door and window and a vacuum glass component, where the existing glass door and window includes an existing door and window frame 6 and an existing glass 7, and the existing door and window frame 6 further includes a buckle strip 1, where the buckle strip 1 is disposed at the periphery of the vacuum glass component; the vacuum glass assembly comprises a vacuum glass unit 2, structural adhesive 3 is arranged at the edge of the vacuum glass assembly, and the structural adhesive 3 is arranged around the vacuum glass unit 2 and used for fixedly sealing the vacuum glass unit 2 and the buckling strip 1; the vacuum glass assembly comprises a vacuum glass unit 2 and L-shaped connecting pieces 9, wherein the number of the L-shaped connecting pieces 9 is four, and the L-shaped connecting pieces 9 are L-shaped plastic pieces; the L-shaped connecting piece 9 is arranged between the existing glass 7 and the vacuum glass unit 2, the L-shaped connecting piece 9 is arranged on two sides of the vacuum glass unit 2, and the existing door and window frames 6 close to the two sides are connected through the butyl rubber 4. The spacing bar 5 is arranged at the inner sides of the two L-shaped connecting pieces 9 through fifth butyl rubber 4-5, the L-shaped connecting pieces 9 are connected with the vacuum glass unit 2 through seventh butyl rubber 4-7, and the other sides of the L-shaped connecting pieces 9 are connected with the existing door and window frames 6 through eighth butyl rubber 4-8. The L-shaped connecting piece 9 and the existing glass 7 can be directly connected through the butyl rubber 4 with a gap. In order to strengthen the connection strength of the L-shaped connector 9 to the existing door and window frame 6, the L-shaped connector 9 may be connected to the existing door and window frame 6 by means of blind rivets or screws.

In the embodiment, the butyl rubber 4 and the structural rubber 3 are adopted to form two seals, and the desiccant is contained in the spacing bar 5, so that the sealing performance and the service life of the cavity can be fully ensured.

The sound insulation performance of the vacuum glass is higher than that of the traditional hollow glass by more than 5dB, meanwhile, the structure is formed by flexibly connecting the vacuum glass with the original frame, the sound insulation performance of the structure is further improved, and meanwhile, the heat insulation performance of the existing window is improved by more than one time after the components are added to the inner surface and the outer surface of the existing outer window due to the existing heat insulation performance of the vacuum glass, and the sound insulation performance is improved by 5-10dB.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments in accordance with the present application.

Finally, it is to be understood that the above embodiments are merely exemplary embodiments employed for the purpose of illustrating the principles of the present utility model, however, the present utility model is not limited thereto. Various modifications and improvements may be made by those skilled in the art without departing from the principles and spirit of the utility model, and such modifications and improvements are also considered within the scope of the utility model.

Claims (12)

1. A composite glass door and window comprising an existing glass door and window and a vacuum glass assembly, wherein the existing glass door and window comprises an existing door and window frame and an existing glass; the vacuum glass assembly comprises a vacuum glass unit, and structural adhesive is arranged at the edge of the vacuum glass assembly and used for fixedly sealing the vacuum glass assembly and the existing door and window frame; a spacing bar is arranged between the vacuum glass component and the existing glass; the size of the vacuum glass component is smaller than that of the visible surface of the existing glass;

the vacuum glass component is connected with the spacing bar through butyl rubber;

the vacuum glass assembly further comprises buckling strips, wherein the buckling strips are arranged on the periphery of the vacuum glass assembly;

the buckling strip is connected with the vacuum glass unit through the structural adhesive, and the structural adhesive is arranged around the vacuum glass unit and used for fixedly sealing the vacuum glass unit and the existing door and window frame.

2. The composite glass door and window according to claim 1, wherein the structural adhesive is disposed around the vacuum glass unit for sealing the vacuum glass unit and the existing door and window frame; the butyl rubber is arranged between the spacing bar and the vacuum glass unit; the spacing bar is connected with the existing door and window frame through the structural adhesive or the butyl adhesive.

3. The composite glass door and window of claim 2, wherein a gap is provided between the spacer bar and the existing glass.

4. The composite glass door and window of claim 2, wherein the butyl rubber is disposed between the spacer bar and the existing glass.

5. The composite glass door and window of claim 1, wherein the vacuum glass assembly further comprises a U-shaped connector, the vacuum glass unit being embedded in two opposing U-shaped connectors; the U-shaped connecting piece is connected with the existing door and window frame through the butyl rubber, and the U-shaped connecting piece is fixedly sealed outside the butyl rubber through the structural rubber; the butyl rubber is arranged between the inner side of the U-shaped connecting piece and the spacing bar, and the outer side of the U-shaped connecting piece and the outer side edge of the vacuum glass unit are connected with the structural rubber.

6. The composite glass door and window according to claim 1, wherein the vacuum glass assembly further comprises a U-shaped connector, wherein the U-shaped connector is disposed at one end of the vacuum glass unit and disposed between the vacuum glass unit and the existing glass, the spacer is disposed at the other end of the vacuum glass unit and disposed between the vacuum glass unit and the existing glass, and the spacer is connected with the existing glass through the butyl rubber.

7. The composite glass door and window of claim 1, wherein the vacuum glass assembly further comprises at least one L-shaped connector.

8. The composite glass door and window of claim 7, wherein the L-shaped connector is disposed between the existing glass and the vacuum glass unit, and the L-shaped connector is proximate an inside corner of the vacuum glass unit; the structural adhesive is arranged around the vacuum glass unit and used for fixedly sealing the vacuum glass unit and the existing door and window frame; one side of the L-shaped connecting piece is connected with the vacuum glass unit through the butyl rubber, and the other side of the L-shaped connecting piece is connected with the existing door and window frame through the butyl rubber.

9. The composite glass door and window according to claim 8, wherein the L-shaped connectors are four; the spacer bar is connected with the inner side of at least one L-shaped connecting piece through the butyl rubber.

10. The composite glass door and window according to claim 8, wherein the number of the L-shaped connecting pieces is two, and the spacer bar is connected with the vacuum glass unit through the butyl rubber.

11. The composite glass door and window according to claim 10, wherein said spacer bar is joined to the inner side of at least one of said L-shaped connectors by said butyl rubber.

12. The composite glass door and window of claim 1, wherein the existing glass is monolithic glass, hollow glass, laminated glass, or vacuum glass.

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