CN215947128U - Super-thick SGP laminated glass structure - Google Patents

Abstract

The utility model discloses an ultra-thick SGP laminated glass structure, which comprises a first substrate part, a second substrate part and an interlayer part, wherein one side of the interlayer part is attached to the first substrate part, and the other side of the interlayer part is attached to the second substrate part; the first glass substrate portion includes: the first super-thick glass substrate, a first molding-back limiting strip and a first molding-back inclined plane; the first super-thick glass substrate is of a rectangular structure, the first type-back limiting strips are mounted on the first super-thick glass substrate, and the size of the circumference of the outer side wall surface of each first type-back limiting strip is the same as that of the circumference of the outer side wall surface of the first super-thick glass substrate.

Description

Super-thick SGP laminated glass structure

Technical Field

The utility model relates to the technical field of laminated glass, in particular to an ultra-thick SGP laminated glass structure.

Background

The SGP laminated glass is produced by more than 2 sheets of glass and SGP films through a certain production process, and is widely used as very reliable safety glass in the field of buildings, particularly in some important explosion-proof places.

The existing super-thick SGP laminated glass is generally characterized in that an SGP film is directly clamped between two glass substrates, and the surface of each glass substrate is smooth, so that the SGP film is easy to slide, the production quality is influenced, the production cost is improved, and the production efficiency is low.

SUMMERY OF THE UTILITY MODEL

In order to achieve the purpose, the utility model is realized by the following technical scheme: an ultra-thick SGP laminated glass structure comprises a first substrate part, a second substrate part and an interlayer part, wherein one side of the interlayer part is attached to the first substrate part, and the other side of the interlayer part is attached to the second substrate part;

the first glass substrate portion includes: the first super-thick glass substrate, a first molding-back limiting strip and a first molding-back inclined plane;

the first super-thick glass substrate is of a rectangular structure, the first time type limiting strip is installed on the first super-thick glass substrate, the size of the circumference of the outer side wall surface of the first time type limiting strip is the same as that of the circumference of the outer side wall surface of the first super-thick glass substrate, and the first time type inclined surface is arranged on the inner side wall surface of the first time type limiting strip.

Preferably, the second substrate portion includes: the second super-thick glass substrate, a second clip limiting strip and two second clip inclined planes;

the second super-thick glass substrate is of a rectangular structure, the second-turn-shaped limiting strip is installed on the first super-thick glass substrate, the circumferential dimension of the outer side wall surface of the second-turn-shaped limiting strip is smaller than that of the outer side wall surface of the second super-thick glass substrate, and the two second-turn-shaped inclined surfaces are arranged on the first-turn-shaped limiting strip.

Preferably, the sandwich portion comprises: the device comprises an SGP film, a first mounting groove and a second mounting groove;

SGP film one side laminating in first super thick glass substrate, SGP film opposite side laminating in the super thick glass substrate of second, first mounting groove is seted up on SGP film a lateral wall face, just first mounting groove and the spacing phase-match of first time type, the second mounting groove is seted up on another lateral wall face of SGP film, just the spacing phase-match of second time type of second mounting groove and second.

Preferably, the size of the total thickness of the first super-thick glass substrate and the first reversion limiting strip is the same as the size of the thickness of the second super-thick glass substrate.

Preferably, the thickness dimension of the first super-thick glass substrate and the thickness dimension of the second super-thick glass substrate are both larger than the thickness dimension of the SGP film.

Preferably, the SGP film is an SGP ionomer intermediate film.

Advantageous effects

The utility model provides an ultra-thick SGP laminated glass structure, which has the following beneficial effects: two clip-type limiting strips are arranged between the two super-thick glass substrates, so that the SGP film is limited, the SGP film is prevented from sliding when super-thick SGP laminated glass is produced, the production quality is ensured, the production cost is controlled, and the production efficiency is improved.

Drawings

Fig. 1 is a schematic front sectional view of an ultra-thick SGP laminated glass structure according to the present invention.

Fig. 2 is a schematic bottom view of a first glass substrate portion of an ultra-thick SGP laminated glass structure according to the present invention.

Fig. 3 is a schematic top view of a second glass substrate portion of an ultra-thick SGP laminated glass structure according to the present invention.

Fig. 4 is an enlarged view of a portion of the ultra-thick SGP laminated glass structure of the present invention at a in fig. 1.

In the figure: 1-a first ultra-thick glass substrate; 2-first time type limit strip; 3-a first reversion slope; 4-a second ultra-thick glass substrate; 5-a second clip-shaped limiting strip; 6-a second square bevel; 7-SGP film; 8-a first mounting groove; 9-a second mounting groove.

Detailed Description

All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example (b): referring to fig. 1-4, an SGP laminated glass structure with ultra-thick thickness includes a first substrate portion, a second substrate portion and an interlayer portion, wherein one side of the interlayer portion is attached to the first substrate portion, and the other side of the interlayer portion is attached to the second substrate portion;

wherein, it is required to be noted that: the first substrate part, the second substrate part and the interlayer part are combined to form the super-thick SGP laminated glass;

in particular implementations, the first glass substrate portion may preferably adopt the following structure, which includes: the glass substrate comprises a first ultra-thick glass substrate 1, a first reversion limiting strip 2 and a first reversion inclined plane 3; the first super-thick glass substrate 1 is of a rectangular structure, the first time-varying limiting strip 2 is installed on the first super-thick glass substrate 1, the size of the circumference of the outer side wall surface of the first time-varying limiting strip 2 is the same as that of the outer side wall surface of the first super-thick glass substrate 1, and the first time-varying inclined surface 3 is arranged on the inner side wall surface of the first time-varying limiting strip 2;

wherein, it is required to be noted that: the first-type-back limiting strip 2 on the first super-thick glass substrate 1 is used for limiting the position of the interlayer part, so that the SGP film 7 is prevented from moving when super-thick SGP laminated glass is produced, the accuracy of the position of the SGP film 7 is ensured, and the first-type-back inclined plane 3 is used for protecting the SGP film 7;

in particular implementations, the second glass substrate portion may preferably adopt the following structure, which includes: the glass substrate comprises a second super-thick glass substrate 4, a second clip-shaped limiting strip 5 and two second clip-shaped inclined planes 6; the second super-thick glass substrate 4 is of a rectangular structure, the second double-shaped limiting strip 5 is installed on the first super-thick glass substrate 1, the size of the circumference of the outer side wall surface of the second double-shaped limiting strip 5 is smaller than that of the circumference of the outer side wall surface of the second super-thick glass substrate 4, and the two second double-shaped inclined surfaces 6 are arranged on the first double-shaped limiting strip 2;

wherein, it is required to be noted that: the second double-type limiting strip 5 on the second super-thick glass substrate 4 is used for preventing the interlayer part from moving between the first super-thick glass substrate 1 and the second super-thick glass substrate 4, preventing the SGP film 7 from moving when super-thick SGP laminated glass is produced, and ensuring the accuracy of the position of the SGP film 7, and the two second double-type inclined planes 6 are used for protecting the SGP film 7;

in a specific implementation, the sandwich portion may preferably adopt the following structure, which includes: an SGP film 7, a first mounting groove 8 and a second mounting groove 9; one side of the SGP film 7 is attached to the first super-thick glass substrate 1, the other side of the SGP film 7 is attached to the second super-thick glass substrate 4, the first mounting groove 8 is formed in the wall surface of one side of the SGP film 7, the first mounting groove 8 is matched with the first clip limiting strip 2, the second mounting groove 9 is formed in the wall surface of the other side of the SGP film 7, and the second mounting groove 9 is matched with the second clip limiting strip 5;

wherein, it is required to be noted that: first mounting groove 8 and second mounting groove 9 on SGP film 7 match first time type spacing strip 2 and the spacing strip 5 of second time type respectively, the super thick SGP laminated glass processing of being convenient for.

Preferably, the size of the total thickness of the first ultra-thick glass substrate 1 and the first reversion limiting strip 2 is the same as the size of the thickness of the second ultra-thick glass substrate 4.

Preferably, the thickness dimension of each of the first super-thick glass substrate 1 and the second super-thick glass substrate 4 is larger than the thickness dimension of the SGP film 7.

Preferably, the SGP film 7 is an SGP ionomer intermediate film.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The super-thick SGP laminated glass structure is characterized by comprising a first substrate part, a second substrate part and an interlayer part, wherein one side of the interlayer part is attached to the first substrate part, and the other side of the interlayer part is attached to the second substrate part;

the first substrate portion includes: the first super-thick glass substrate, a first molding-back limiting strip and a first molding-back inclined plane;

the first super-thick glass substrate is of a rectangular structure, the first time type limiting strip is installed on the first super-thick glass substrate, the size of the circumference of the outer side wall surface of the first time type limiting strip is the same as that of the circumference of the outer side wall surface of the first super-thick glass substrate, and the first time type inclined surface is arranged on the inner side wall surface of the first time type limiting strip.

2. The super thick SGP sandwich glass structure of claim 1, wherein said second substrate portion comprises: the second super-thick glass substrate, a second clip limiting strip and two second clip inclined planes;

the second super-thick glass substrate is of a rectangular structure, the second-turn-shaped limiting strip is installed on the first super-thick glass substrate, the circumferential dimension of the outer side wall surface of the second-turn-shaped limiting strip is smaller than that of the outer side wall surface of the second super-thick glass substrate, and the two second-turn-shaped inclined surfaces are arranged on the first-turn-shaped limiting strip.

3. The super thick SGP laminated glass structure according to claim 2, wherein said interlayer portion comprises: the device comprises an SGP film, a first mounting groove and a second mounting groove;

SGP film one side laminating in first super thick glass substrate, SGP film opposite side laminating in the super thick glass substrate of second, first mounting groove is seted up on SGP film a lateral wall face, just first mounting groove and the spacing phase-match of first time type, the second mounting groove is seted up on another lateral wall face of SGP film, just the spacing phase-match of second time type of second mounting groove and second.

4. The super-thick SGP laminated glass structure as recited in claim 2, wherein the first super-thick glass substrate and the first reversion stopper have a total thickness dimension which is the same as the thickness dimension of the second super-thick glass substrate.

5. The super-thick SGP laminated glass structure according to claim 3, wherein the thickness dimension of each of said first and second super-thick glass substrates is greater than the thickness dimension of the SGP film.

6. The super thick SGP laminated glass structure according to claim 3, wherein said SGP film is SGP ionomer interlayer.

Images