CN217760741U - Novel inorganic silicon fireproof glass super large observation window - Google Patents

Abstract

The utility model provides a novel inorganic silicon fire prevention glass super large observation window, including compound fire prevention glass, first receiving fire face section bar, second receiving fire face section bar and back of the body fire face section bar. The composite fireproof glass comprises at least two pieces of toughened glass, and the toughened glass is connected through inorganic silicon fireproof glue; the first fire-receiving surface section bar is connected with the first surface of the composite fireproof glass; reinforcing connecting pieces are arranged at two ends of the second fire-receiving surface profile, the second fire-receiving surface profile is connected with the first fire-receiving surface profile through the reinforcing connecting pieces, and the second fire-receiving surface profile is connected with the first surface of the composite fireproof glass; the both ends of back of the body shop section bar are provided with clamping connection spare, and back of the body shop section bar is connected with compound fire prevention glass's second face, and back of the body shop section bar is connected with first face of being fired section bar and second face of being fired section bar respectively through clamping connection spare. The utility model discloses a novel inorganic silicon fire prevention glass super large observation window can increase glass panels's volume, improves daylighting and observation effect to have good thermal-insulated and fire behavior.

Description

Novel inorganic silicon fireproof glass super-large observation window

Technical Field

The utility model relates to a construction engineering technical field, in particular to novel inorganic silicon fire prevention glass super large observation window.

Background

The observation window is generally installed on the wall body of a cabin, a laboratory, a dust-free vehicle or a warehouse for storing dangerous chemicals, so that outdoor or indoor conditions can be observed through transparent glass on the observation window, the observation window also has a certain daylighting effect, and electric energy for illumination can be saved. However, the traditional observation window frame has a simple structure, the strength of the window frame is insufficient, and the window frame cannot bear an oversized glass panel with large volume and heavy weight, so that the lighting and observation areas of the observation window are limited; traditional observation window is when meetting high temperature, and the window frame is out of shape easily and is collapsed, and fire behavior is poor, and ordinary glass panel's heat-proof quality is poor, ignites indoor article easily, can not obstruct heating power and protect indoor people or article effectively when the conflagration.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, the utility model provides a novel inorganic silicon fire prevention glass super large observation window can strengthen the bearing capacity of window frame, increases glass panels's volume, improves daylighting and observation effect, promotes glass panels's thermal-insulated ability, has good fire behavior.

According to the utility model discloses novel inorganic silicon fire prevention glass super large observation window, include:

the composite fireproof glass comprises at least two pieces of toughened glass, and the toughened glass is connected through inorganic silicon fireproof glue;

the first fire-receiving surface section bar is connected with the first surface of the composite fireproof glass;

the two ends of the second fire-receiving surface section are provided with reinforcing connecting pieces, the second fire-receiving surface section is connected with the first fire-receiving surface section through the reinforcing connecting pieces, and the second fire-receiving surface section is connected with the first surface of the composite fireproof glass;

the back fire surface profile is provided with clamping connecting pieces at two ends and connected with the second surface of the composite fireproof glass, and the back fire surface profile is connected with the first fire surface profile and the second fire surface profile respectively through the clamping connecting pieces.

According to the utility model discloses a novel inorganic silicon fire prevention glass super large observation window has following beneficial effect at least:

the utility model discloses a novel inorganic silicon fire prevention glass super large observation window includes compound fire prevention glass, first receives fire face section bar and second receives fire face section bar, wherein, compound fire prevention glass includes at least two piece toughened glass, and toughened glass passes through inorganic silicon fire prevention glue to be connected, can improve the heat-proof quality of the utility model through setting up polylith toughened glass, when avoiding the conflagration, heating power causes injury or damage to indoor people or article, improves the fire behavior of the utility model; the first fire-receiving surface section bar is connected with the first surface of the composite fireproof glass, the two ends of the second fire-receiving surface section bar are provided with the reinforced connecting pieces, the second fire-receiving surface section bar is connected with the first fire-receiving surface section bar through the reinforced connecting pieces, the second fire-receiving surface section bar is connected with the first surface of the composite fireproof glass, the first fire-receiving surface section bar and the second fire-receiving surface section bar are connected through the reinforced connecting pieces, and are not easy to deform and shift when receiving high temperature, so that the fireproof performance of the utility model can be improved, and a glass panel with large volume and heavy quality can be supported; the both ends of back of the body flame side section bar are provided with clamping connection spare, and back of the body flame side section bar is connected with compound fire prevention glass's second face, and back of the body flame side section bar is connected with the both ends of first surface of receiving flame side section bar and the both ends of second surface of receiving flame side section bar respectively through clamping connection spare, and firm in connection is stable, can support the compound fire prevention glass of bulky, the heavy multilayer glass panel structure of quality. The first fire-receiving surface section bar and the second fire-receiving surface section bar are connected with the back fire-receiving surface section bar to form a frame for clamping the composite fireproof glass, and the frame is stable in structure, not easy to shift at high temperature and good in fireproof performance.

According to some embodiments of the utility model, toughened glass's quantity is four, toughened glass's shape is square, adjacent two toughened glass passes through inorganic silicon fire prevention glue connects.

According to some embodiments of the utility model, strengthen the connecting piece and include the base and insert the post, the base with the second receives the hot face section bar to connect, insert the post with the base is connected, insert the post the axis with the second receives the hot face section bar's length direction parallel, first receiving hot face section bar is provided with the mounting hole, insert the post and wear to locate in the mounting hole.

According to some embodiments of the utility model, press from both sides tight connecting piece and include resistance to compression swivel nut, bolt and nut, be provided with first screw on the first face section bar that receives fire, be provided with the second screw on the second face section bar that receives fire, be provided with the third screw on the face section bar of being away from the fire, first face section bar that receives fire with the face section bar of being away from the fire is through wearing to locate first screw the resistance to compression swivel nut the third screw with the nut bolted connection, the second receive the face section bar that is away from the fire with the face section bar of being away from the fire is through wearing to locate the second screw the resistance to compression swivel nut the third screw with the nut bolted connection.

According to some embodiments of the utility model, first face section bar that receives fire is close to compound fire prevention glass's one side is provided with the edge first fire prevention groove that receives face section bar length direction to set up, be provided with first fire prevention expansion seal strip in the first fire prevention groove, first fire prevention expansion seal strip is kept away from the one side in first fire prevention groove with compound fire prevention glass connects.

According to some embodiments of the utility model, the second receives the fire surface section bar to be close to compound fire prevention glass's one side is provided with the edge the second fire prevention groove that the second received fire surface section bar length direction to set up, be provided with second fire prevention expansion seal strip in the second fire prevention groove, second fire prevention expansion seal strip is kept away from the one side in second fire prevention groove with compound fire prevention glass connects.

According to some embodiments of the utility model, the back of the body hot side section bar is including pressing a section bar and a closing cap section bar, press the section bar one side with compound fire prevention glass connects, the third screw set up in press on the section bar, the closing cap section bar set up in press the section bar to keep away from compound fire prevention glass's one side and with press the section bar lock.

According to the utility model discloses a some embodiments, press the crooked third fire prevention groove that forms in both sides of pasting section bar width direction, be provided with third fire prevention inflation sealing strip in the third fire prevention groove, third fire prevention inflation sealing strip is kept away from the one side in third fire prevention groove with compound fire prevention glass connects.

According to the utility model discloses a some embodiments, the width direction's of closing cap section bar both sides are provided with the cardboard, the cardboard is close to press the one side of pasting the section bar to be provided with the edge the draw-in groove that closing cap section bar length direction set up, the outer wall embedding of third fire prevention groove extremely in the draw-in groove.

According to some embodiments of the utility model, a novel inorganic silicon fire prevention glass super large observation window still includes that first glass magnesium is dull and stereotyped and second glass magnesium is dull and stereotyped, first glass magnesium is dull and stereotyped with the dull and stereotyped edge of second glass magnesium compound fire prevention glass's circumference sets up, first glass magnesium is dull and stereotyped one side with first fire surface section bar is connected, first glass magnesium is dull and stereotyped another side with back of the body fire surface section bar is connected, the dull and stereotyped one side of second glass magnesium with the second is connected by fire surface section bar, the dull and stereotyped another side of second glass magnesium with back of the body fire surface section bar is connected.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is an overall schematic view of a novel inorganic silicon fire-proof glass oversized observation window provided by an embodiment of the invention;

FIG. 2 isbase:Sub>A cross-sectional view taken along line A-A of FIG. 1;

FIG. 3 is a cross-sectional view taken along line B-B of FIG. 1;

FIG. 4 is an enlarged view of a portion C of FIG. 2;

fig. 5 is a partially enlarged view of a portion D in fig. 3.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, if there are first, second and third descriptions, they are only used for distinguishing technical features, but they are not interpreted as indicating or implying relative importance or implicitly indicating the number of indicated technical features or implicitly indicating the precedence of the indicated technical features.

In the description of the present invention, unless there is an explicit limitation, the words such as setting, installation, connection, etc. should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above words in combination with the specific contents of the technical solution.

The novel inorganic silicon fireproof glass super large observation window provided by the embodiment of the invention is described in detail below with reference to the accompanying drawings.

Referring to fig. 1, an embodiment of the present invention provides a novel inorganic silicon fire-resistant glass oversized observation window, which comprises a composite fire-resistant glass 100, a first fire-receiving surface profile 200, a second fire-receiving surface profile 300 and a back fire-receiving surface profile 400. Composite fire prevention glass 100 includes two piece at least toughened glass 110, and toughened glass 110 passes through inorganic silicon fire prevention glue 120 and connects, can improve through setting up polylith toughened glass 110 the utility model discloses a heat-proof quality, when avoiding the conflagration, heating power causes injury or damage to indoor people or article, improves the utility model discloses a fire behavior. The first fire-receiving surface profile 200 is connected with the first surface of the composite fireproof glass 100, the second fire-receiving surface profile 300 is connected with the first surface of the composite fireproof glass 100, reinforcing connecting pieces 310 are arranged at two ends of the second fire-receiving surface profile 300, and the second fire-receiving surface profile 300 is connected with the first fire-receiving surface profile 200 through the reinforcing connecting pieces 310 and is not easy to deform and shift when subjected to high temperature; the clamping connecting pieces 410 are arranged at the two ends of the back fire surface section bar 400, the back fire surface section bar 400 is connected with the second surface of the composite fireproof glass 100, and the back fire surface section bar 400 is respectively connected with the two ends of the first fire receiving surface section bar 200 and the two ends of the second fire receiving surface section bar 300 through the clamping connecting pieces 410, so that the connection is firm and stable; first receiving fire face section bar 200 and second receiving fire face section bar 300 and back of the body fire face section bar 400 are connected and are formed the frame of compound fire prevention glass 100 of centre gripping, can support bulky, the heavy glass panels of quality, with the utility model discloses a compound fire prevention glass 100 cooperation is used, has increased daylighting and observation area, meets flame burning or keeps stable structure and good thermal-insulated effect under high temperature environment, has good fire behavior.

Further, toughened glass 110's quantity is four, and toughened glass 110's shape is square, and two adjacent toughened glass 110 pass through inorganic silicon fire prevention glue 120 and connect, and square toughened glass 110 has stable structure, can make the second that sets up in toughened glass 110 edge receive hot face section bar 300 and first receiving hot face section bar 200 mutually perpendicular, has strengthened the stability of connecting, and difficult emergence is shifted and is varied under high temperature, improves fire behavior.

Further, the first fire-receiving surface profile 200 and the second fire-receiving surface profile 300 are square pipe profiles, and the first fire-receiving surface profile 200 and the second fire-receiving surface profile 300 are made of galvanized steel, so that the fire-receiving surface profile has the advantages of high hardness, corrosion resistance and high temperature resistance. The reinforced connecting piece 310 comprises a base 311 and an inserting column 312, the base 311 is connected with the inner wall of the second fire-receiving surface section bar 300, the inserting column 312 is fixed on the base 311, the axis of the inserting column 312 is parallel to the length direction of the second fire-receiving surface section bar 300, correspondingly, the first fire-receiving surface section bar 200 is provided with a mounting hole 210, and the inserting column 312 is arranged in the mounting hole 210 in a penetrating manner, so that the first fire-receiving surface section bar 200 and the second fire-receiving surface section bar 300 are stably and firmly connected and are not easy to shift, and the bearing capacity and the high temperature resistance of a frame formed by the first fire-receiving surface section bar 200 and the second fire-receiving surface section bar 300 are enhanced.

Further, the clamping connection member 410 includes a compression-resistant threaded sleeve 411, a bolt 412 and a nut 413, the first fire-receiving surface profile 200 is provided with a first screw hole 220, the second fire-receiving surface profile 300 is provided with a second screw hole 320, and the back fire-receiving surface profile 400 is provided with a third screw hole 420. The compression-resistant screw sleeve 411 is communicated with the first screw hole 220 and the third screw hole 420, the bolt 412 penetrates through the first screw hole 220, the compression-resistant screw sleeve 411 and the third screw hole 420 and is locked and fixed by the nut 413, so that the first fire-receiving surface profile 200 is stably connected with the back fire surface profile 400, and the compression-resistant screw sleeve 411 is arranged between the first fire-receiving surface profile 200 and the back fire surface profile 400 to play a role in supporting the first fire-receiving surface profile 200 and the back fire surface profile 400 and prevent the first fire-receiving surface profile 200 and the back fire surface profile 400 from being flattened; similarly, the compression-resistant screw sleeve 411 is communicated with the second screw hole 320 and the third screw hole 420, the bolt 412 is inserted into the second screw hole 320, the compression-resistant screw sleeve 411 and the third screw hole 420 and is locked and fixed by the nut 413, so that the second fire-receiving surface profile 300 is stably connected with the back fire surface profile 400, and the compression-resistant screw sleeve 411 is arranged between the second fire-receiving surface profile 300 and the back fire surface profile 400, plays a role in supporting the second fire-receiving surface profile 300 and the back fire surface profile 400, and prevents the second fire-receiving surface profile 200 and the back fire surface profile 400 from being flattened. The fastness of being connected between back of a fire face section bar 400 and first fire face section bar 200 and the second fire face section bar 300 has been strengthened to resistance to compression swivel nut 411, bolt 412 and nut 413, improves the support ability of frame, prevents that the frame from taking place to warp and collapsing at high temperature, improves the fire behavior of this embodiment.

Further, one side of the first fire-receiving surface profile 200, which is close to the composite fire-proof glass 100, is provided with a first fire-proof groove 230 which is arranged along the length direction of the first fire-receiving surface profile 200, a first fire-proof expansion sealing strip 240 is arranged in the first fire-proof groove 230, one side, which is far away from the first fire-proof groove 230, of the first fire-proof expansion sealing strip 240 is connected with the composite fire-proof glass 100, the first fire-proof expansion sealing strip 240 can improve the friction force between the first fire-receiving surface profile 200 and the composite fire-proof glass 100, and can prevent the composite fire-proof glass 100 from falling off, when high temperature is encountered, the first fire-proof expansion sealing strip 240 expands and fills the gap between the first fire-receiving surface profile 200 and the composite fire-proof glass 100, and when fire occurs, smoke can be prevented from entering into the room from the outside, and favorable conditions are created for escape. In this embodiment, the number of the first fireproof grooves 230 is two, and the first fireproof grooves 230 are disposed on two sides of the first fireproof surface profile 200 in the width direction of the surface close to the composite fireproof glass 100.

Further, a second fire-proof groove 330 is formed in one side, close to the composite fire-proof glass 100, of the second fire-receiving surface profile 300, the second fire-proof groove 330 is formed in the second fire-proof groove 330, a second fire-proof expansion sealing strip 340 is arranged in the second fire-proof groove 330, one side, far away from the second fire-proof groove 330, of the second fire-proof expansion sealing strip 340 is connected with the composite fire-proof glass 100, similarly, the second fire-proof expansion sealing strip 340 can improve friction force between the second fire-receiving surface profile 300 and the composite fire-proof glass 100, and can prevent the composite fire-proof glass 100 from falling off. In this embodiment, the number of the second fireproof grooves 330 is two, and the second fireproof grooves 330 are disposed on two sides of the second fire-receiving surface section 300 in the width direction of the surface close to the composite fireproof glass 100.

Further, back of body fire face section bar 400 is including pressing section bar 430 and closing cap section bar 440, presses the one side of pasting section bar 430 to be connected with compound fire prevention glass 100, and third screw 420 sets up on pressing section bar 430, and closing cap section bar 440 sets up in pressing section bar 430 and keeping away from the one side of compound fire prevention glass 100 and with pressing section bar 430 lock together. The pressing and pasting section bar 430 is a plate-shaped section bar, and the pressing and pasting section bar 430 is made of galvanized steel, so that the pressing and pasting section bar has the advantages of high hardness, corrosion resistance and high temperature resistance. The pressing section bar 430 is connected with the first fire receiving surface section bar 200 and the second fire receiving surface section bar 300 through the clamping connecting piece 410, and is easy to install. The cover section bar 440 is used for shielding the pressing section bar 430 and the clamping connecting piece 410, plays a role of decoration, protects the pressing section bar 430 and the clamping connecting piece 410, prevents the pressing section bar 430 and the clamping connecting piece 410 from being corroded to influence the stability of the frame, and prolongs the service life of the embodiment.

Further, the two sides of the width direction of the pressing section bar 430 are bent to form a third fire prevention groove 450, a third fire prevention expansion sealing strip 460 is arranged in the third fire prevention groove 450, and one surface, far away from the third fire prevention groove 450, of the third fire prevention expansion sealing strip 460 is connected with the composite fireproof glass 100. Third fire prevention inflation sealing strip 460 can improve and press the frictional force between section bar 430 and the compound fire prevention glass 100, prevents that compound fire prevention glass 100 from taking place to drop, when meetting high temperature, and third fire prevention inflation sealing strip 460 expands and fills and presses the space between section bar 430 and the compound fire prevention glass 100, can prevent smog from entering into indoor from outdoor when the conflagration breaing out, creates the advantage for fleing.

Specifically, two sides of the width direction of the cover section bar 440 are provided with clamping plates 441, one surface of each clamping plate 441, which is close to the pressing section bar 430, is provided with a clamping groove 442 arranged along the length direction of the cover section bar 440, the outer wall of the third fire prevention groove 450 is embedded into the clamping groove 442, and the cover section bar 440 is buckled on the pressing section bar 430 through the clamping grooves 442. The cover profile 440 is made of aluminum alloy, has the advantages of low density and light weight, and is easily fastened on the pressing and attaching profile 430.

Further, a first glass magnesium flat plate 610 and a second glass magnesium flat plate 620 are arranged on the circumference of the composite fire-proof glass 100. One surface of the first glass fiber and magnesium panel 610 is connected with the first fire-proof expansion sealing strip 240 in the first fire-proof groove 230 on the side of the first fire-receiving surface section bar 200 far away from the composite fire-proof glass 100, and the other surface of the first glass fiber and magnesium panel 610 is connected with the third fire-proof expansion sealing strip 460 in the third fire-proof groove 450 of the cover section bar 440 far away from the composite fire-proof glass 100; one side of the second glass magnesium flat plate 620 is connected with the second fire-proof expansion sealing strip 340 in the second fire-proof groove 330 of one side of the second fire-receiving surface section bar 300 far away from the composite fire-proof glass 100, and the other side of the second glass magnesium flat plate 620 is connected with the third fire-proof expansion sealing strip 460 in the third fire-proof groove 450 of the cover section bar 440 far away from the composite fire-proof glass 100. The first glass magnesium flat plate 610 and the second glass magnesium flat plate 620 are arranged along the circumferential direction of the embodiment, so that gaps between the first fire receiving surface section bar 200 and the second fire receiving surface section bar 300 and the back fire surface section bar 400 are filled, smoke is prevented from entering from the edge of the embodiment in case of fire, the fireproof performance of the embodiment is improved, the first glass magnesium flat plate 610 and the second glass magnesium flat plate 620 also have the characteristics of fire resistance, water resistance and flame retardance, the frame of the embodiment can be stable and durable, the composite fireproof glass 100 with large bearing volume and heavy weight can be borne, and the lighting and observation area of the embodiment is increased.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims (10)

1. The utility model provides a novel inorganic silicon fire prevention glass super large observation window which characterized in that includes:

the composite fireproof glass comprises at least two pieces of toughened glass, and the toughened glass is connected through inorganic silicon fireproof glue;

the first fire-receiving surface section bar is connected with the first surface of the composite fireproof glass;

the two ends of the second fire-receiving surface section are provided with reinforcing connecting pieces, the second fire-receiving surface section is connected with the first fire-receiving surface section through the reinforcing connecting pieces, and the second fire-receiving surface section is connected with the first surface of the composite fireproof glass;

the back fire surface profile is provided with clamping connecting pieces at two ends and connected with the second surface of the composite fireproof glass, and the back fire surface profile is connected with the first fire surface profile and the second fire surface profile respectively through the clamping connecting pieces.

2. The novel inorganic silicon fireproof glass oversized observation window according to claim 1, characterized in that the number of the toughened glass is four, the shape of the toughened glass is square, and two adjacent toughened glass are connected through the inorganic silicon fireproof glue.

3. The novel inorganic silicon fireproof glass oversized observation window according to claim 1, characterized in that the reinforcing connecting piece comprises a base and an inserting column, the base is connected with the second fire-receiving surface profile, the inserting column is connected with the base, the axis of the inserting column is parallel to the length direction of the second fire-receiving surface profile, the first fire-receiving surface profile is provided with an installation hole, and the inserting column is arranged in the installation hole in a penetrating manner.

4. The novel inorganic silicon fireproof glass ultra-large observation window of claim 1, wherein the clamping connection piece comprises a compression-resistant threaded sleeve, a bolt and a nut, the first fire-receiving surface section bar is provided with a first screw hole, the second fire-receiving surface section bar is provided with a second screw hole, the back fire-receiving surface section bar is provided with a third screw hole, the first fire-receiving surface section bar and the back fire-receiving surface section bar are connected through the first screw hole, the compression-resistant threaded sleeve, the third screw hole and the nut by the bolt, and the second fire-receiving surface section bar and the back fire-receiving surface section bar are connected through the second screw hole, the compression-resistant threaded sleeve, the third screw hole and the nut by the bolt.

5. The novel inorganic silicon fireproof glass ultra-large observation window according to claim 1, wherein a first fireproof groove is formed in one surface, close to the composite fireproof glass, of the first fireproof surface profile, a first fireproof expansion sealing strip is arranged in the first fireproof groove, and one surface, far away from the first fireproof groove, of the first fireproof expansion sealing strip is connected with the composite fireproof glass.

6. The novel inorganic silicon fireproof glass ultra-large observation window according to claim 1, wherein a second fireproof groove is formed in one surface, close to the composite fireproof glass, of the second fireproof surface profile, a second fireproof expansion sealing strip is arranged in the second fireproof groove, and one surface, far away from the second fireproof groove, of the second fireproof expansion sealing strip is connected with the composite fireproof glass.

7. The novel inorganic silicon fireproof glass ultra-large observation window of claim 4, wherein the back fire profile comprises a pressing profile and a cover profile, one side of the pressing profile is connected with the composite fireproof glass, the third screw hole is formed in the pressing profile, and the cover profile is arranged on one side, away from the composite fireproof glass, of the pressing profile and is fastened with the pressing profile.

8. The novel inorganic silicon fireproof glass ultra-large observation window according to claim 7, wherein the two sides of the pressing section bar in the width direction are bent to form a third fireproof groove, a third fireproof expansion sealing strip is arranged in the third fireproof groove, and one surface of the third fireproof expansion sealing strip, which is far away from the third fireproof groove, is connected with the composite fireproof glass.

9. The novel inorganic silicon fireproof glass ultra-large observation window according to claim 8, wherein clamping plates are arranged on two sides of the cover profile in the width direction, clamping grooves are arranged on one surface of each clamping plate close to the pressing profile along the length direction of the cover profile, and the outer wall of the third fire prevention groove is embedded into the clamping grooves.

10. The novel inorganic silicon fireproof glass ultra-large observation window according to claim 1, characterized in that, the novel inorganic silicon fireproof glass ultra-large observation window further comprises a first glass magnesium flat plate and a second glass magnesium flat plate, the first glass magnesium flat plate and the second glass magnesium flat plate are arranged along the circumferential direction of the composite fireproof glass, one surface of the first glass magnesium flat plate is connected with the first fire-receiving surface section, the other surface of the first glass magnesium flat plate is connected with the back fire surface section, one surface of the second glass magnesium flat plate is connected with the second fire-receiving surface section, and the other surface of the second glass magnesium flat plate is connected with the back fire surface section.

Images