CN115788248B - Fireproof glass sealing structure, fireproof glass door and fireproof glass window - Google Patents

Abstract

The invention discloses a fireproof glass sealing structure, a fireproof glass door and a fireproof glass window, which comprise a steel section and fireproof glass, wherein a first baffle is transversely arranged in the steel section, three groups of concave grooves are continuously formed in the middle of the first baffle, the three groups of grooves of the first baffle are connected with the bottom of the steel section through a third baffle, and the edges of notch at the top end of the steel section are connected with the two ends of the first baffle through a second baffle; the fireproof glass is sleeved in the notch of the steel section bar and between the first partition plate and the second partition plate, and a sealing structure capable of selectively controlling the expansion size by heating is arranged between the steel section bar and the glass plate. The invention has novel structure, realizes a sealing structure which is tightly connected with the frame by elastic extrusion, can select a heating means to enhance sealing in the middle of use, and is a fireproof glass sealing structure, a fireproof glass door and a fireproof glass window, and the sealing structure can be controlled in size and is very flexible and practical.

Description

Fireproof glass sealing structure, fireproof glass door and fireproof glass window

Technical Field

The invention relates to the field of glass doors, in particular to a fireproof glass sealing structure, a fireproof glass door and a fireproof glass window.

Background

In addition to the functions of heat insulation and fire prevention, the fire-proof glass door has more places needing to prevent toxic and harmful smoke and gas produced by fire, and when in installation and use, gaps at the movable joint of the door and the frame are frequently focused, other relevant smoke prevention or alarm facilities such as additional smoke prevention adhesive tapes and the like are adopted, the installation and use party can process the gaps, the tightness between the peripheral frames of the fire-proof glass factory can be important, the installation and application party can not process the inside of the gaps, the peripheral frames of most of the existing heat-proof and fire-proof glass doors still use the sealing structure of the common steel profile sealing window, the sealing strip is easy to deform, the sealing is not tight, the smoke leakage is caused, the risks exist, the use party is completely unadjustable and uncontrollable, in addition, when in transportation and installation, the internal glass is easy to have a tiny gap position (the gap position cannot be directly found or focused by an inner eye when in installation and use), the small looseness of the glass in the frame is easy to be caused, the tightness of the glass is influenced or the overall quality effect is reduced, the fireproof glass door and window are two or more layers of glass which are tempered at high temperature, the periphery of the existing glass is directly sealed with the frame, the prior glass is rigid, the glass is loose or the frame structure is too tight or too loose or the stress point is unbalanced according to the principle of the breaking of the tempered glass, and the single-layer glass or multiple layers of glass are directly broken when in installation and use or in transportation, so in order to solve the problems, we propose a sealing structure which is tightly connected with the frame by elastic extrusion, and the middle of the user can select a fireproof glass sealing structure, a fireproof glass door and a fireproof glass window which can enhance the sealing control by adopting means in the user.

Disclosure of Invention

The fireproof glass sealing structure and the fireproof glass door provided by the invention solve the problems, realize a sealing structure which is tightly connected with glass and a frame by elastic extrusion, and can be used for enhancing sealing control by adopting a means in the middle of a user.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the fireproof glass sealing structure comprises a steel section and fireproof glass, wherein a first partition plate is transversely arranged in the steel section, three groups of concave grooves are continuously formed in the middle of the first partition plate, the three groups of grooves of the first partition plate are connected with the bottom of the steel section through a third partition plate, and the edges of notch at the top end of the steel section are connected with the two ends of the first partition plate through a second partition plate;

fireproof glass cup joints in steel section notch, between first baffle and the second baffle, just be provided with between steel section and the glass board and be heated expansion seal structure: the first sealing rubber tube is sleeved between the second partition plate and the glass plate, the second sealing rubber tube is sleeved in the groove, sealing gaskets are sleeved between the top ends of the three groups of second sealing rubber tubes in a covering mode, heating films are arranged in the second sealing rubber tubes, and the fireproof glass is in pressure connection with the sealing gaskets.

As a preferable technical scheme of the invention, the outer wall of the steel section is provided with a plurality of first side strips, the first side strips are obliquely arranged, and two sides of the third partition plate are respectively provided with a plurality of groups of second side strips.

As a preferable technical scheme of the invention, the first sealing rubber tube is internally provided with a spacer block for increasing structural strength.

As a preferable technical scheme of the invention, structural sealant is arranged between the top end of the steel section and the glass plate.

As a preferable technical scheme of the invention, one group of the three groups of second sealing rubber pipes, which is positioned in the middle, is relatively large in diameter, and the sealing gasket is matched and sleeved with the second sealing rubber pipes.

As a preferable technical scheme of the invention, the fireproof glass consists of two toughened glass plates, a parting bead between the two toughened glass plates, glass sealant and middle fireproof glue, or the fireproof glass is crystal silicon fireproof glass and is formed by alternately overlapping a plurality of layers of 5mm toughened glass and 7mm crystal silicon fireproof glue.

As a preferable technical scheme of the invention, a power switch connected with the heating film is arranged outside the frame to control whether the heating film is heated or not or the temperature is controlled.

The fireproof door based on the fireproof glass sealing structure is characterized by comprising two layers of fireproof glass or a fireproof glass door synthesized by combining multiple layers of fireproof glass with a sealing structure.

The fireproof window based on the fireproof glass sealing structure is characterized in that the fireproof glass window is synthesized by combining two layers of fireproof glass or multiple layers of fireproof glass with the sealing structure.

The application method of the fireproof glass is characterized by comprising the following steps:

1) The sealing structure is combined with two layers of fireproof glass or a fireproof glass window and a fireproof glass door which are combined by multiple layers of fireproof glass, when the looseness of glass and a frame is measured in the middle of transportation, installation or use, a heating film is adopted for heating, so that the first sealing rubber tube and the second sealing rubber tube are heated and expanded to enhance the sealing property and the protection property, and the expansion of the first sealing rubber tube and the second sealing rubber tube is controlled by the heating temperature and the heating time, so that the sealing glass is more suitable for the environment with slightly lower air temperature;

2) After the sealing device is installed and used for a period of time, when the glass and the frame are loosened or fire is found, an external heating high-temperature means is adopted, so that the sealing performance is enhanced by the expansion of the first sealing rubber tube and the second sealing rubber tube after being heated.

The beneficial effects of the invention are as follows:

1. the first baffle, the recess, the second baffle, the third baffle uses the glass limit as the center, be the adjustment of giving off the form, reinforce the support of inside framework, simultaneously with the big both sides little second sealing rubber tube in centre and the little concave curved sealed pad cup joint the combination setting, reach and reinforce sealed and make glass limit four peripheral surfaces and frame formation have and take little elastic connection structure, reduce toughened glass's cracked, and be provided with the heating film in the second sealing rubber tube, simultaneously in later stage installation, need when using or transporting, the use side can realize selectively adopting the means of heating and make it improve the leakproofness.

2. This sealed glass prevents fire door, window increase air contact area through the first strake that increases air contact area on the steel section bar outer wall, and increase steel section bar inside air heat conduction efficiency through the second strake, and when the conflagration for this sealed frame is under the condition of not contacting with open flame, improves air heat conduction efficiency in advance, makes first sealed rubber tube and the sealed rubber tube expansion reinforcing leakproofness of being heated, avoids the flue gas to leak outward.

3. After the glass cement packaged by the double-layer or multi-layer fireproof glass is solidified, the sealing gasket belt is slightly concaved and is contracted inwards to form an arc-shaped indent, the diameters of a group of second sealing rubber pipes positioned in the middle of the sealing rubber pipes are relatively larger, the second sealing rubber pipes with small diameters at two sides are arranged and designed, and the sealing gasket arc is combined with the sizes of the second sealing rubber pipes to be matched and sleeved, so that the sealing gasket is tightly attached to the end face of the whole fireproof glass, the sealing effect at the periphery is effectively improved, and a micro-elastic structure is formed to improve the adjustment and protection required in actual installation.

4. The first sealing rubber tube and the second sealing rubber tube are tubular, and the heating film is arranged in the first sealing rubber tube and the second sealing rubber tube for controlling heating, so that the first sealing rubber tube and the second sealing rubber tube are heated and expanded to enhance the sealing property and the protection property, and the expansion of the first sealing rubber tube and the second sealing rubber tube is controlled by the heating temperature and the heating time, so that the flexible use is realized, and the sealing rubber tube is more suitable for an environment with slightly low air temperature; after the glass is installed and used for a period of time, when the glass and the frame are loosened or in case of fire, an external heating high-temperature means can be adopted, so that the sealing performance is enhanced by the expansion of the first sealing rubber tube and the second sealing rubber tube due to heating, and the glass and the frame are very flexible and can be used in a selective and controllable manner.

5. The fireproof glass door and window based on the structure has the advantages that smoke prevention tightness is completely guaranteed, glass is low in breakage, and the fireproof glass door and window are very flexible and practical.

This fire prevention glass door, window seal structure have effectually solved current fire prevention glass door sealing strip all around after being yielding probability cause sealed not tight and lead to the flue gas leakage problem, and inside from taking form extrusion elastic structure, and the use later stage optional use, and inflation controllability.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic view of a slice structure according to the present invention.

Fig. 3 is an exploded view of the structure of fig. 2 of the present invention.

Fig. 4 is a schematic diagram of the assembly structure of embodiment 2 of the present invention.

Fig. 5 is a schematic structural view of the fire-resistant glass in example 2 of the present invention.

Reference numerals in the drawings: 1. a steel section bar; 101. a first edging; 102. a first separator; 103. a groove; 104. a second separator; 105. a third separator; 106. a second edging; 2. a first sealing rubber tube; 201. a spacer block; 202. structural sealant; 3. a second sealing rubber tube; 301. a sealing gasket; 4. a glass plate; 401. a parting bead; 402. and (5) glass sealant.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Example 1

Referring to fig. 1-3, a fireproof glass sealing structure comprises a steel section 1 and fireproof glass, wherein a first partition plate 102 is transversely arranged in the steel section 1, three groups of concave grooves 103 are continuously formed in the middle of the first partition plate 102, the three groups of grooves 103 of the first partition plate 102 are connected with the bottom of the steel section 1 through a third partition plate 105, the edges of the notch at the top end of the steel section 1 are connected with the two ends of the first partition plate 102 through a second partition plate 104, the fireproof glass is sleeved in the notch of the steel section 1, between the first partition plate 102 and the second partition plate 104, and a thermal expansion sealing structure is arranged between the steel section 1 and a glass plate 4: the first sealing rubber tube 2 is sleeved between the second partition plate 104 and the glass plate 4, the second sealing rubber tube 3 is sleeved in the groove 103, the sealing gasket 301 is sleeved between the top ends of the three groups of second sealing rubber tubes 3 in a covering mode, fireproof glass is in pressure connection with the sealing gasket 301, heating films are arranged in the first sealing rubber tube 2 and the second sealing rubber tube 3, a power switch connected with the heating films is arranged outside the frame, and whether the heating films are heated or not and the temperature and the heating time are controlled.

When glass and a frame are loose during transportation, installation or use, a power switch is used for starting a heating film to heat at a certain temperature, and the heating film is generally heated at 60-70 ℃, so that the second sealing rubber tube is heated and expanded to enhance the sealing property and the protection property, the heating film can adopt graphene heating temperature, the overall temperature is low, and the heating film can uniformly heat, thereby realizing effective control and enhancement of the sealing property. The connection of the heating film and the control switch and the control of the heating time according to the system belong to the prior art, and are not further described herein.

Or adopt other outer high temperature heat conduction, through optimizing the heat conduction structure of steel section bar 1, make first sealed rubber tube 2 and second sealed rubber tube 3 when this window frame does not contact with the naked light, just can be heated expansion reinforcing leakproofness, avoid the flue gas to leak outward, the material of its first sealed rubber tube 2 and second sealed rubber tube 3 belongs to the rubber material that can realize micro-expansion of heating commonly used, also belong to current rubber material, not limited to one, during the use, the factory provides the rubber material that uses, provide expansion coefficient, and use heating time for the user reference.

The high-temperature heating of the fire-resistant heat-conducting material comprises heat conduction formed by contact with open fire or high temperature in the case of fire, so that the sealing performance can be enhanced by heating expansion, and the leakage of smoke can be avoided.

Referring to fig. 2, the outer wall of the steel section 1 is provided with a plurality of first side strips 101, the first side strips 101 are arranged in an inclined manner, the inclined design reduces the extending distance of the first side strips 101 along the vertical direction of the side wall of the steel section 1, two sides of the third partition 105 are provided with a plurality of groups of second side strips 106, a spacer block 201 for increasing the structural strength is arranged in the first sealing rubber tube 2, and structural sealant 202 is arranged between the top end of the steel section 1 and the glass plate 4. The first partition plate 102, the groove 103, the second partition plate 104 and the third partition plate 105 strengthen the strengthening support of the inner frame body, are combined with the second sealing rubber tube 3, and achieve the strengthening sealing and supporting effects.

The diameters of a group of second sealing rubber pipes 3 positioned in the middle of the three groups of second sealing rubber pipes 3 are relatively larger, the sealing gasket 301 is matched and sleeved with the second sealing rubber pipes 3, the sealing gasket 301 is provided with a slightly concave arc shape, and the arc shape of the sealing gasket 301 is matched with the size combination of the second sealing rubber pipes 3, so that the sealing gasket 301 is tightly attached to the bottom end face of the whole fireproof glass, an extrusion elastic structure is effectively formed, and effective protection toughened glass is achieved.

Referring to fig. 2, the steel section 1 of the sealing window is in a symmetrical structure, no distinction between the inner side and the outer side can be used for bidirectional fire prevention during installation, when a fire disaster occurs at one side of the sealing window, the first side strip 101 which increases the air contact area on the outer walls of the steel section 1 and the steel section 1 improves the air heat conduction efficiency under the condition that the steel section 1 is not contacted with open fire (but toxic smoke is generated), the heat in the fire disaster area is led into the steel section 1 through air, the heat is conducted to the second sealing rubber tube 3 through the first partition plate 102 and the third partition plate 105, the air heat conduction efficiency is improved in the steel section 1 through the second side strip 106, the second sealing rubber tube 3 is heated, the air in the second sealing rubber tube 3 expands to expand the second sealing rubber tube 3, the sealing of the four frames is enhanced, and the air in the first sealing rubber tube 2 expands to strengthen the side surface of the sealing glass plate 4 through heating;

after solidification, the glass cement packaged by the double-layer fireproof glass or the multi-layer glass can shrink inwards by a small amount to form an arc-shaped indent, the diameters of a group of second sealing rubber pipes 3 positioned in the middle of the three groups of second sealing rubber pipes 3 are relatively larger, the second sealing rubber pipes 3 with small diameters at two sides are arranged and designed, and the arc of the sealing gasket 301 is matched with the design of the second sealing rubber pipes 3 in a sleeved mode, so that the sealing gasket 301 is tightly attached to the end face of the whole fireproof glass, the sealing effect is improved, and the micro-elastic structure is formed to improve adjustment and protection required in actual installation.

This sealed window increases air contact area through the first strake 101 that increases air contact area on the steel section bar 1 outer wall, and increases the inside air heat conduction efficiency of steel section bar 1 through second strake 106 for this sealed frame is under the condition of not contacting with open flame, improves air heat conduction efficiency, makes first sealed rubber tube 2 and the sealed rubber tube 3 thermal expansion reinforcing leakproofness of second, avoids the flue gas to leak outward. The non-energized heating is realized, and in emergency, the expansion can be realized through external heat to improve the tightness.

The first sealing rubber tube 2 and the second sealing rubber tube 3 are tubular, are arranged in multiple holes, can respectively control and respectively protect the heating films, are connected in multiple arc surfaces, are tightly connected in a coating manner, and have an elastic structure and an expansion coefficient so as to achieve a certain elastic space, thereby being more beneficial to control and use.

The first partition board 102, the groove 103, the second partition board 104 and the third partition board 105 are arranged in an sporadic mode by taking the glass edge as the center, support of the inner frame body is strengthened, and meanwhile, the inner frame body is combined with the second sealing rubber pipe 3 with the large middle and the small two sides and the slightly concave arc-shaped sealing gasket 301 to strengthen the sealing connection structure.

In this embodiment, the fire-proof glass is composed of two glass plates 4, a spacer 401 between the glass plates 4, and a glass sealant 402.

The sealing structure plays several roles, namely, the sealing structure is used for reinforcing the stable support, reinforcing the sealing structure, improving the controllability of the sealing property of the reinforced glass frame body after being installed or used, and improving the protection of the reinforced glass frame body. The adjustable and controllable device completely realizes the adjustment and controllability of the user, ensures the quality and ensures the safe use.

Example 2

Referring to fig. 4 and 5, the difference from embodiment 1 is that the fire-proof glass is crystal silicon fire-proof glass, and 4 pieces of 5mm thickness toughened glass plates are adopted to fill 7mm thickness crystal silicon fire-proof glue to be overlapped, so that the fire resistance and heat insulation performance of the device are improved. Further enhancing its fire resistance.

Example 3

A fireproof door based on the fireproof glass sealing structure is a fireproof glass door synthesized by combining two layers of fireproof glass or multiple layers of fireproof glass with the sealing structure.

Example 4

A fireproof window based on the fireproof glass sealing structure is a fireproof glass window synthesized by combining two layers of fireproof glass or multiple layers of fireproof glass with the sealing structure.

Example 5

The application method of the fireproof glass comprises the following steps:

1) The sealing structure is combined with two layers of fireproof glass or a fireproof glass window and a fireproof glass door which are combined by multiple layers of fireproof glass, when the looseness of glass and a frame is measured in the middle of transportation, installation or use, a heating film is adopted for heating, so that the first sealing rubber tube and the second sealing rubber tube are heated and expanded to enhance the sealing property and the protection property, and the expansion of the first sealing rubber tube and the second sealing rubber tube is controlled by the heating temperature and the heating time, so that the sealing structure is more suitable for the environment with slightly low air temperature;

2) After the glass is installed and used for a period of time, when the glass and the frame are loosened or when fire disaster happens, an external heating high-temperature means is adopted, so that the first sealing rubber tube and the second sealing rubber tube are heated and expanded, and the tightness is enhanced.

The first baffle plate, the groove, the second baffle plate and the third baffle plate of the structure take the glass edge as the center, are in the sporadic adjustment, strengthen the support of the inner frame body, are sleeved and combined with the second sealing rubber tube with the big middle and the small two sides and the slightly concave arc sealing gasket, so as to strengthen the sealing, lead the four peripheral surfaces of the glass edge and the frame to form a connection structure with slight elasticity, reduce the fragmentation of toughened glass, and the first sealing rubber tube and the second sealing rubber tube are internally provided with heating films, and simultaneously realize the requirement of later installation, use or transportation, and the use can realize the improvement of the sealing property by adopting a heating means selectively.

According to the sealing glass fireproof door and window, the air contact area is increased through the first side strip with the air contact area increased on the outer wall of the steel section bar, and the air heat conduction efficiency in the steel section bar is increased through the second side strip, so that the sealing frame can improve the air heat conduction efficiency in advance under the condition that the sealing frame is not contacted with open fire in a fire disaster, the sealing performance is enhanced by the thermal expansion of the first sealing rubber tube and the second sealing rubber tube, and the leakage of smoke is avoided.

After the glass cement packaged by the double-layer or multi-layer fireproof glass is solidified, the sealing gasket belt is slightly concaved to form an arc concave, the diameters of one group of second sealing rubber pipes positioned in the middle of the three groups of second sealing rubber pipes are relatively larger, the second sealing rubber pipes with small diameters at two sides are arranged and designed, and the sealing gasket arc and the second sealing rubber pipes are combined in size and matched in a sleeved mode, so that the sealing gasket is tightly attached to the end face of the whole fireproof glass, the sealing effect of the periphery is effectively improved, and a micro-elastic structure is formed to improve adjustment and protection required in actual installation.

The first sealing rubber tube and the second sealing rubber tube are tubular, and the heating film is arranged in the first sealing rubber tube and the second sealing rubber tube for controlling heating, so that the first sealing rubber tube and the second sealing rubber tube are heated and expanded to enhance the sealing property and the protection property, and the expansion of the first sealing rubber tube and the second sealing rubber tube is controlled by the heating temperature and the heating time, so that the flexible use is realized, and the sealing rubber tube is more suitable for an environment with slightly low air temperature; after the glass is installed and used for a period of time, when the glass and the frame are loosened or in case of fire, an external heating high-temperature means can be adopted, so that the sealing performance is enhanced by the expansion of the first sealing rubber tube and the second sealing rubber tube due to heating, and the glass and the frame are very flexible and can be used in a selective and controllable manner.

The fireproof glass door and window based on the structure has the advantages that smoke prevention tightness is completely guaranteed, glass is low in breakage, and the fireproof glass door and window are very flexible and practical.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (9)

1. The utility model provides a fire prevention glass frame inner seal structure, includes steel section bar (1) and fire prevention glass, its characterized in that, transversely put first baffle (102) in steel section bar (1), just the middle part of first baffle (102) is provided with three sets of concave recess (103) in succession, connect through third baffle (105) between the bottom of steel section bar (1) in three sets of recess (103) department of first baffle (102), connect through second baffle (104) between notch edge in steel section bar (1) top and the both ends of first baffle (102);

fireproof glass cup joints in steel section bar (1) notch, between first baffle (102) and second baffle (104), just be provided with between steel section bar (1) and glass board (4) and select thermal expansion seal structure: a first sealing rubber pipe (2) is sleeved between the second partition plate (104) and the glass plate (4), a second sealing rubber pipe (3) is sleeved in the groove (103), sealing gaskets (301) are sleeved between the top ends of the three groups of second sealing rubber pipes (3), heating films are arranged in the first sealing rubber pipe (2) and the second sealing rubber pipe (3), and the fireproof glass is in pressure connection with the sealing gaskets (301);

the first partition board, the groove, the second partition board and the third partition board are arranged in an emission shape by taking the glass edge as the center, support of the inner frame body is strengthened, the second sealing rubber pipe with the large middle and the small two sides and the concave arc-shaped sealing gasket are sleeved and combined, so that the sealing is strengthened, and the four peripheral surfaces of the glass edge and the frame form an elastic connection structure;

the diameters of one group of second sealing rubber pipes (3) positioned in the middle of the three groups of second sealing rubber pipes (3) are relatively larger, and the sealing gaskets (301) are matched and sleeved with the second sealing rubber pipes (3) in an arrayed and matched manner; the second sealing rubber tube is internally provided with a heating film, and a user can selectively adopt a heating means to improve the sealing performance during later installation, use or transportation.

2. The sealing structure in the fireproof glass frame according to claim 1, wherein a plurality of first side strips (101) are arranged on the outer wall of the steel section bar (1), the first side strips (101) are obliquely arranged, and a plurality of groups of second side strips (106) are arranged on two sides of the third partition board (105).

3. A sealing structure in a fire-proof glass frame according to claim 1, characterized in that a spacer (201) for increasing structural strength is provided in the first sealing rubber tube (2).

4. The sealing structure in the fireproof glass frame according to claim 1, wherein structural sealant (202) is arranged between the top end of the steel section bar (1) and the glass plate (4).

5. The sealing structure in the fireproof glass frame according to claim 1, wherein the fireproof glass is composed of two toughened glass plates (4) and a parting strip (401) between the toughened glass plates (4), glass sealant (402) and middle fireproof glue, or the fireproof glass is crystal silicon fireproof glass and is formed by alternately overlapping a plurality of layers of 5mm toughened glass and 7mm crystal silicon fireproof glue.

6. The sealing structure in a fireproof glass frame according to claim 1, wherein a power switch connected with the heating film is arranged outside the frame, and whether the heating film is heated or the temperature is controlled.

7. A fireproof door based on the sealing structure in the fireproof glass frame according to any one of claims 1 to 6, which is characterized by a fireproof glass door synthesized by combining two layers of fireproof glass or multiple layers of fireproof glass with the sealing structure.

8. A fire-proof glass window based on the sealing structure in the fire-proof glass frame according to any one of claims 1-6, which is characterized in that the fire-proof glass window is synthesized by combining two layers of fire-proof glass or multiple layers of fire-proof glass with the sealing structure.

9. A method of using the sealing structure in a fire-resistant glass frame according to any one of claims 1 to 6, comprising the steps of:

1) The sealing structure is combined with two layers of fireproof glass or a fireproof glass window and a fireproof glass door which are combined by multiple layers of fireproof glass, when the looseness of glass and a frame is measured in the middle of transportation, installation or use, a heating film is adopted for heating, so that the second sealing rubber tube is heated and expanded to enhance the sealing property and the protection property, the expansion of the second sealing rubber tube is controlled through the heating temperature and time, and the sealing rubber tube is more suitable for the environment with slightly low air temperature;

2) After the glass is installed and used for a period of time, when the glass and the frame are loosened or when fire disaster happens, an external heating high-temperature means is adopted, so that the first sealing rubber tube and the second sealing rubber tube are heated and expanded, and the tightness is enhanced.