CN117468612B - Single-installation and double-installation fireproof glass partition structure, fireproof glass and installation method of fireproof glass - Google Patents

Abstract

The invention discloses a single-double installation fireproof glass partition structure, fireproof glass and an installation method thereof, wherein the fireproof glass and the fireproof partition assembly comprise a main steel keel, a single-glass keel buckle cover, a pressing plate and a cover plate; the main steel joist of this structure is four-wing shape and the setting of many concave sides that four corners extend, not only realized fire prevention glass's many connection port, a plurality of fire prevention thermal-insulated cavitys that do not communicate with each other have been realized simultaneously, reach square and the curved steel column body stable structure of knot of many supporting points again, reach and improve horizontal anticollision, vertical firm shape steel column body stable structure, reach outside effective thermal-insulated fire prevention, its cavity can open at any time or the lid closes, can realize the extension installation of electronic article networking electronic part, can singly, two arbitrary transformation installation fire prevention glass's partition structure, realize flexibility, the steadiness of installation, realize multi-functional combination in an organic whole, whole outside is mainly with the lock joint and not extravagant material and hand labor, flexibility, practicality of comparison.

Description

Single-installation and double-installation fireproof glass partition structure, fireproof glass and installation method of fireproof glass

Technical Field

The invention relates to the technical field of fireproof partitions, in particular to a single-installation and double-installation fireproof glass partition structure, fireproof glass and an installation method thereof.

Background

At present, along with the improvement of people fire control consciousness, the fire resistance of the building is higher and higher, and the glass partition is a main component for transparent isolation between indoor and outdoor or between the two chambers, if the partition is fireproof, the fire can be effectively isolated outdoors or in a certain room, and the fire is prevented from spreading.

However, the existing fireproof partition structure cannot be used for installing single-group fireproof glass and double-group fireproof glass in an arbitrary changing manner, so that the practicability of the fireproof partition structure is reduced, in addition, as the profile columns are generally hollow single cavities, the stability and the fireproof performance of the profile columns cannot meet better requirements, and some of the profile columns are multi-cavity and cannot be effectively applied or opened, and other expansion uses cannot be facilitated, therefore, the fireproof glass partition structure capable of being used for installing single-group fireproof steel and double-group fireproof steel in an arbitrary changing manner, the fireproof glass and the installation method thereof are provided, and the electronic fireproof glass is formed by expansion, so that the photovoltaic fireproof glass is very practical, and the problems are solved.

Disclosure of Invention

The invention aims to provide a fireproof glass partition structure for solving the problems in the prior art.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the single-installation and double-installation fireproof glass partition structure comprises connection of fireproof glass I and fireproof sectional materials, and is characterized in that the fireproof sectional materials comprise fireproof partition components, and the fireproof partition components comprise main steel keels, single-glass keel buckle covers, pressing plates and cover plates;

The main steel joist is four-wing-shaped with four corners extending, one symmetrical double-side part is provided with a long concave opening, the other symmetrical double-side part is provided with an M-shaped notch to form a notch I and a notch II, and each corner is processed by arc angles; the caliber diameter of the notch I is smaller than the inner diameter of the cavity;

The single glass keel buckle cover is U-shaped, a buckle is arranged in the single glass keel buckle cover, the single glass keel buckle cover is in cladding buckling connection with the main steel keel, and the single glass keel buckle cover is buckled with the notch I through the buckle;

The two sides of the pressing plate are provided with convex openings, the convex openings correspond to the concave openings in two phases, the width of the pressing plate is equal to the width of the M-shaped concave opening side of the main steel keel, and the surface of the pressing plate is provided with a first injection hole;

the cover plate is in a shape of a straight line, and clamping edges which are in cladding and buckling connection with the long concave opening and the pressing plate are arranged on two sides of the cover plate;

the main steel keel is provided with an M-shaped notch surface to be connected with the fireproof glass I on one side or on two sides, so that the single-installation fireproof glass and the double-installation fireproof glass are selected.

When the single side of the main steel joist is connected with the first fireproof glass at one side, the main steel joist is arranged on one side of the first fireproof glass and is connected with the first notch through a first expansion bolt, a single-glass joist buckle cover is arranged on the other outer sides of the main steel joist, a pressing plate is arranged on the other side of the first fireproof glass through a group of first expansion bolts, the first fireproof glass is arranged between the main steel joist and the mounting pressing plate, a cover plate is arranged on the outer side of the pressing plate and is buckled, two groups of fireproof expansion sealing strips are arranged between the main steel joist and the first fireproof glass and are bonded, and two groups of fireproof expansion sealing strips are bonded between the pressing plate and the first fireproof glass to form a multi-cavity fireproof steel structure of the single-side fireproof glass layer;

When the two sides of the notch surface of the M-shaped main steel joist are respectively connected with fireproof glass, a group of first expansion bolts, a mounting pressing plate and a fireproof expansion sealing strip are respectively adopted on the two sides to be connected and bonded with the fireproof glass, a cover plate is arranged on the outer side of the pressing plate, and meanwhile two side surfaces of a long concave opening are respectively buckled with the cover plate.

The main steel joist steel is stamped and formed, the forming opening is formed, fireproof glue can be injected into the forming opening to seal the forming opening, the forming opening and the first expansion bolt 4 can be connected in a mode that the two ends of the forming opening can be connected, and the forming opening and the first expansion bolt can also be directly connected through the second bolt, so that flexible connection is realized, and practicability is improved.

The main steel joist is four-wing-shaped with four corners extending, one symmetrical double-side part is provided with a long concave opening, and the other symmetrical double-side part is provided with an M-shaped notch, so that an outer periphery multi-cavity structure is formed.

The first fireproof glass is double-layer glass injected with fireproof glue, and the inner side surface of one layer of glass of the first fireproof glass is provided with an electronic film or a photovoltaic battery pack film.

The formed outer periphery multi-cavity structure is characterized in that the cavity can be provided with an electronic part, and the electronic part comprises a temperature sensor, an electronic glass power wire, an electronic glass controller, a photovoltaic power generation patch cord or a photovoltaic power switching part;

the temperature sensor is used for monitoring the temperature of the inner cavity of the fireproof partition at any time so as to remotely monitor the condition of the partition temperature in real time and realize early warning;

the electronic glass power line and the electronic glass controller are connected with the electronic film on the inner side surface of one layer of glass of the fireproof glass I so as to realize the use of the electronic glass;

The photovoltaic power generation patch cord or the photovoltaic power supply piece is connected with the photovoltaic cell pack membrane on the inner side surface of one layer of glass of the fireproof glass, so that the photovoltaic glass is used.

The method for installing the single-double selectively installed fireproof glass comprises the steps of installing the single-double installed fireproof glass partition structure and the connection, injecting fireproof glue between the pressing plate glass bodies through the first injection hole after the installation connection, and reinforcing fireproof heat insulation performance.

The electronic fireproof glass is characterized in that the single-layer and double-layer installation fireproof glass partition structure is adopted, an electronic film is arranged on the inner side surface of one layer of glass of the fireproof glass, and an electronic glass power line and an electronic glass controller are connected with the electronic film on the inner side surface of one layer of glass of the fireproof glass so as to realize the use of the electronic glass, so that the electronic fireproof glass is formed.

A photovoltaic fire-proof glass is formed by the single-installation fire-proof glass partition structure and the double-installation fire-proof glass partition structure, wherein photovoltaic cell group membranes are arranged on the inner side surface of one layer of glass of the fire-proof glass, and a photovoltaic power generation patch cord or a photovoltaic switching power supply piece is connected with the photovoltaic cell group membranes on the inner side surface of one layer of glass of the fire-proof glass to realize the use of the photovoltaic glass and form the photovoltaic fire-proof glass.

Compared with the prior art, the invention has the beneficial effects that:

The main steel joist of the structure is four-wing-shaped with four extending corners and is provided with a plurality of concave edges, so that a plurality of connecting ports of fireproof glass are realized, meanwhile, a section structure of a plurality of fireproof heat-insulation cavities which are not communicated is realized, a steel column stabilizing structure formed by combining a square shape with a curved arc shape with a plurality of supporting points is realized, a transverse anti-collision and longitudinal stabilizing steel column stabilizing structure is improved, four-wing-shaped with four extending corners and the arrangement of a plurality of concave edges are realized, a plurality of different cavities are realized, heat insulation and fireproof are realized, the cavities of the main steel joist can be opened or covered at any time, a plurality of different cavities are provided with electronic pieces, a waterproof and safe protection embedding effect is also realized, the expansion installation of the electronic networking electronic pieces is realized, the fireproof partition component structure is realized, the installation of the fireproof glass can be selectively carried out at any time, or one end of the installation is additionally arranged after the installation is carried out, the multifunctional combination is realized, the fireproof performance of the fireproof glass partition is ensured, the installation flexibility and the stability are realized, the whole exterior is buckled into a main body, and the main body, the structure is not used, and the labor force is relatively flexible and practical.

The main steel joist steel is formed by stamping and is provided with a forming opening, and the forming opening can be filled with fireproof glue for sealing. The connection between the forming port and the first expansion bolt can be realized in a mode that both ends of the forming port can be connected, so that the connection flexibility is further improved.

The electronic membrane or the photovoltaic cell group membrane is arranged on the inner side surface of the fireproof glass, and the formed outer periphery multi-cavity structure is adopted, the cavity can be provided with an electronic part to form the electronic fireproof glass or form the photovoltaic fireproof glass, so that the intelligence and the applicability of the fireproof glass are improved, and the original singleness is broken.

The structure-based fireproof glass installation method simply realizes the single-cavity and double-cavity fireproof steel-shaped material fireproof glass partition, and can be used for the expansion installation of electronic parts.

Drawings

FIG. 1 is a schematic view of a single-sided fire-resistant glass partition of the present invention.

Fig. 2 is a schematic structural view of another single-sided fire-resistant glass of the present invention.

Fig. 3 is a schematic structural view of a double-sided fire-resistant glass according to the present invention.

Fig. 4 is a schematic structural view of a main steel keel according to the invention.

Fig. 5 is a schematic structural view of a cover plate in the present invention.

Fig. 6 is a schematic structural view of a single glass keel cover according to the invention.

FIG. 7 is a schematic view of the combination of the platen and the cover plate according to the present invention.

FIG. 8 is a schematic side and elevation view of a platen according to the present invention.

Wherein: 1. fireproof glass I; 2. a main steel keel; 21. a long concave port 21; 22. a notch I; 23. a notch II; 3. a single glass keel buckle cover; 31. a buckle; 4. a first expansion bolt; 5. a pressing plate; 51. a boss; 52, injecting a first hole; 6. a cover plate; 61. clamping edges; 7. fireproof expansion sealing strips; 10. fireproof glass; 12. forming a mouth; 13. and a second bolt.

Detailed Description

Example 1

In one embodiment, as shown in fig. 1-7, a single-installation and double-installation fireproof glass partition structure comprises a fireproof glass 1 and a fireproof section bar, wherein the fireproof section bar comprises a fireproof partition assembly, and the fireproof partition assembly comprises a main steel keel 2, a single-glass keel buckle cover 3, a pressing plate 5 and a cover plate 6;

The main steel joist 2 is four-wing-shaped with four corners extending, one symmetrical double-side part is provided with a long concave opening 21, the other symmetrical double-side part is provided with an M-shaped notch to form a notch I22 and a notch II 23, and each corner is processed by arc angles; the caliber diameter of the notch I22 is smaller than the inner diameter of the cavity;

the single glass keel buckle cover 3 is U-shaped, a buckle 31 is arranged in the single glass keel buckle cover 3 is in cladding buckling connection with the main steel keel 2, and the buckle 31 is in buckling connection with the notch I22;

The two sides of the pressing plate 5 are provided with the raised openings 51, the raised openings 51 correspond to the second notch 23, the width of the pressing plate 5 is equal to the width of the M-shaped notch side of the main steel keel 2, the surface of the pressing plate 5 is provided with the first injection hole 52, and the holes are discontinuous and discontinuous, so that glue injection at any position is facilitated;

The cover plate 6 is in a shape of a straight line, and two sides of the cover plate are provided with clamping edges 61 which are in cladding and buckling connection with the long concave opening 21 and the pressing plate 5;

The main steel keel 2 is provided with an M-shaped notch surface to be connected with the fireproof glass 1 on one side or on two sides, so that the single-installation and double-installation fireproof glass can be selected.

The main steel joist 2 steel is formed by stamping and is provided with a forming opening 12, and the forming opening 12 can be filled with fireproof glue for sealing. The main steel joist 2 is four-wing-shaped with four corners extending, one symmetrical double-sided part is provided with a long concave opening 21, the other symmetrical double-sided part is provided with an M-shaped notch to form an outer periphery multi-cavity structure, and the cavity can be provided with electronic components, including a temperature sensor, an electronic glass power cord, an electronic glass controller, a photovoltaic power generation patch cord or a photovoltaic power conversion power component (the electronic components are not shown in the figure).

The first fireproof glass 1 is double-layer glass filled with fireproof glue, and can also be single-piece fireproof glass, such as the fireproof glass 10 shown in the figure.

The temperature sensor is used for monitoring the temperature of the inner cavity of the fireproof partition at any time so as to remotely monitor the condition of the partition temperature in real time and realize early warning;

The electronic glass power line and the electronic glass controller are connected with the electronic film on the inner side surface of one layer of glass of the fireproof glass 1 so as to realize the use of the electronic glass;

the photovoltaic power generation patch cord or the photovoltaic power supply piece is connected with the photovoltaic cell pack membrane on the inner side surface of one layer of glass of the fireproof glass 1 so as to realize the use of the photovoltaic glass.

Example 2

Based on the structure of embodiment 1, when main steel joist 2 unilateral and fire prevention glass 1 carry out unilateral and are connected, main steel joist 2 sets up in one side of fire prevention glass 1, is connected with notch one 22 through first expansion bolts 4, other outsides of main steel joist 2 set up single glass joist buckle closure 3, the opposite side of fire prevention glass 1 is through a set of first expansion bolts 4 installation clamp plate 5, and fire prevention glass 1 locates between main steel joist 2 and the installation clamp plate 5 to the outside of clamp plate 5 is provided with apron 6 lock joint, be provided with two sets of fire prevention expansion seal strip 7 bonding between main steel joist 2 and fire prevention glass 1, be provided with two sets of fire prevention expansion seal strip 7 bonding between clamp plate 5 and fire prevention glass 1 also, form the multicavity fire prevention steel structure on unilateral fire prevention glass layer.

The fireproof expansion sealing strip 7 is a sealing strip which expands again when meeting high temperature, is an existing material, and can also be made of graphite raw materials.

Due to the arrangement of the forming openings 12, the connection with the first expansion bolts 4 can be realized in a way that both ends can be connected, as shown in fig. 1, while fig. 2 can be realized in a way that the second bolts 13 are connected, so that the connection flexibility is further improved.

Example 3

Based on the structure of embodiment 1, when main steel joist 2 is the notch face both sides of M shape respectively with fire prevention glass is connected, both sides adopt a set of first expansion bolts 4 respectively, installation clamp plate 5, fire prevention expansion seal strip 7 and fire prevention glass 1 are connected, bond, and the connection detail is unanimous like the main steel joist 2 of embodiment 2 is connected with fire prevention glass 1, both sides installation back the outside of clamp plate 5 sets up apron 6, is equipped with long concave mouth 21 both sides face respectively with apron 6 lock joint realization whole simultaneously, this connection has omitted the lock joint of single glass joist buckle closure 3.

Example 4

According to the structural foundation, the fireproof glass 1 is double-layer glass, the inner side surface of one layer of glass is provided with an electronic film, and the electronic glass power line and the electronic glass controller are connected with the electronic film on the inner side surface of one layer of glass of the fireproof glass 1 so as to realize the use of the electronic glass and form the electronic fireproof glass.

Example 5

The fireproof glass I1 is double-layer glass, the inner side surface of one layer of glass is provided with a photovoltaic cell group membrane, and the photovoltaic power generation patch cord or the photovoltaic power supply piece is connected with the photovoltaic cell group membrane on the inner side surface of one layer of glass of the fireproof glass I1 so as to realize the use of the photovoltaic glass and form the photovoltaic fireproof glass.

Example 6

The method for installing the single-double selectively installed fireproof glass comprises the steps of installing and connecting the single-double installed fireproof glass partition structure, injecting fireproof glue between the pressing plate 5 and the glass body through the first injection hole 52 after the installation and connection, and combining the fireproof glue with the fireproof expansion sealing strip to further strengthen fireproof, smoke-proof and heat-insulating performances.

The main steel joist of the structure is four-wing-shaped with four extending corners and is provided with a plurality of concave edges, so that a plurality of connecting ports of fireproof glass are realized, meanwhile, a section structure of a plurality of fireproof heat-insulation cavities which are not communicated is realized, a steel column stabilizing structure formed by combining a square shape with a curved arc shape with a plurality of supporting points is realized, the transverse anti-collision and longitudinal stabilizing steel column stabilizing structure is improved, the four-wing-shaped with four extending corners and the arrangement of the concave edges are realized, a plurality of different cavities are realized, the heat insulation and fireproof are realized, the cavities can be opened or covered at any time, the electronic parts are arranged in the plurality of different cavities, the waterproof and safe protection embedding effect is also realized, the expansion installation of the electronic parts networking is realized, the fireproof partition assembly structure is realized, the installation of the fireproof glass can be selected at any time, or one end installation is additionally arranged after the installation of the fireproof partition assembly is realized, the fireproof performance of the fireproof glass partition is ensured, the installation flexibility and the stability are realized, the whole exterior is mainly fastened without wasting materials and labor force, and the installation is flexible and practical.

The main steel joist is four-wing-shaped with four extending corners and is provided with a plurality of concave edges, so that a plurality of connecting ports of the fireproof glass are realized, meanwhile, a section bar structure of a plurality of fireproof heat-insulating cavities which are not communicated is realized, a steel column stable structure formed by combining a square shape with a plurality of supporting points in a curved arc shape is realized, and the cavities around the main steel joist can be opened or covered at any time to form a novel supporting column.

The electronic membrane or the photovoltaic cell group membrane is arranged on the inner side surface of the fireproof glass, and the formed outer periphery multi-cavity structure is adopted, the cavity can be provided with an electronic part to form the electronic fireproof glass or form the photovoltaic fireproof glass, so that the intelligence and the applicability of the fireproof glass are improved, and the original singleness is broken.

The structure-based fireproof glass installation method simply realizes the single-cavity and double-cavity fireproof steel-shaped material fireproof glass partition, and can be used for the expansion installation of electronic parts.

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 (6)

1. The single-double installation fireproof glass partition structure comprises a fireproof glass I (1) and a fireproof section bar which are connected, and is characterized in that the fireproof section bar comprises a fireproof partition assembly, and the fireproof partition assembly comprises a main steel keel (2), a single-glass keel buckle cover (3), a pressing plate (5) and a cover plate (6);

The main steel keel (2) is four-wing-shaped with four corners extending, one symmetrical double-side part is provided with a long concave opening (21), the other symmetrical double-side part is provided with an M-shaped notch to form a notch I (22) and a notch II (23), and each corner is processed by arc angles; the caliber diameter of the notch I (22) is smaller than the inner diameter of the cavity;

The single glass keel buckle cover (3) is U-shaped, a buckle (31) is arranged in the single glass keel buckle cover (3) is in cladding buckling connection with the main steel keel (2), and the buckle (31) is in buckling connection with the notch I (22);

The two sides of the pressing plate (5) are provided with convex openings (51), the convex openings (51) correspond to the second concave openings (23), the width of the pressing plate (5) is equal to the width of the M-shaped concave opening side of the main steel keel (2), and the surface of the pressing plate (5) is provided with a first injection hole (52);

The cover plate (6) is in a shape of a straight line, and clamping edges (61) which are in cladding and buckling connection with the long concave opening (21) and the pressing plate (5) are arranged on two sides of the cover plate;

The main steel keel (2) is provided with an M-shaped notch surface to be connected with the fireproof glass I (1) on one side or two sides, so that the single-side and double-side installation of the fireproof glass is realized;

The main steel keel (2) is formed by stamping steel, and is provided with a forming opening (12);

The main steel keel (2) is four-wing-shaped with four corners extending, one symmetrical double-side part is provided with a long concave opening (21), and the other symmetrical double-side part is provided with an M-shaped notch to form an outer periphery multi-cavity structure;

the first fireproof glass (1) is double-layer glass injected with fireproof glue, and an electronic film or a photovoltaic battery pack film is arranged on the inner side surface of one layer of glass of the first fireproof glass (1);

The cavity of the formed peripheral multi-cavity structure is provided with an electronic part, which comprises a temperature sensor, an electronic glass power wire, an electronic glass controller, a photovoltaic power generation patch cord or a photovoltaic power switching part;

the temperature sensor is used for monitoring the temperature of the inner cavity of the fireproof partition at any time so as to remotely monitor the condition of the partition temperature in real time and realize early warning;

the electronic glass power line and the electronic glass controller are connected with the electronic film on the inner side surface of one layer of glass of the fireproof glass I (1) so as to realize the use of the electronic glass;

the photovoltaic power generation patch cord or the photovoltaic power supply piece is connected with the photovoltaic cell pack membrane on the inner side surface of one layer of glass of the fireproof glass I (1) so as to realize the use of the photovoltaic glass.

2. The single-double installation fireproof glass partition structure according to claim 1, wherein when the single side of the main steel keel (2) is connected with the first fireproof glass (1) through the single side, the main steel keel (2) is arranged on one side of the first fireproof glass (1) and is connected with the first notch (22) through the first expansion bolts (4), the other outer sides of the main steel keel (2) are provided with the single-glass keel buckle cover (3), the other side of the first fireproof glass (1) is provided with the pressing plate (5) through the first expansion bolts (4), the first fireproof glass (1) is arranged between the main steel keel (2) and the mounting pressing plate (5), the outer sides of the pressing plate (5) are provided with the cover plate (6) in a buckling mode, two groups of fireproof expansion sealing strips (7) are arranged between the main steel keel (2) and the first fireproof glass (1) to be bonded, and the pressing plate (5) and the first fireproof glass (1) are provided with two groups of fireproof expansion sealing strips to be bonded to form a single-side fireproof glass layer multi-cavity steel structure.

3. The single-installation and double-installation fireproof glass partition structure according to claim 1, wherein when two sides of the notch surface of the main steel keel (2) in an M shape are respectively connected with fireproof glass, two sides of the main steel keel are respectively connected and bonded with the fireproof glass 1 through a group of first expansion bolts (4), an installation pressing plate (5) and a fireproof expansion sealing strip (7), a cover plate (6) is arranged on the outer side of the pressing plate (5), and two side surfaces of the long concave opening (21) are respectively buckled with the cover plate (6).

4. The method for installing the single-double selectively installed fireproof glass is characterized by comprising the single-double installed fireproof glass partition structure according to any one of claims 1-3, and further comprising the step of injecting fireproof glue between glass bodies of a pressing plate (5) through a first injection hole (52) after installation connection, so that fireproof and heat-insulating performance is enhanced.

5. The electronic fire-proof glass is characterized by comprising the single-installation fire-proof glass partition structure and the double-installation fire-proof glass partition structure according to any one of claims 1-3, wherein an electronic film is arranged on the inner side surface of one layer of glass of the fire-proof glass I (1), and an electronic glass power line and an electronic glass controller are connected with the electronic film on the inner side surface of one layer of glass of the fire-proof glass I (1) so as to realize the use of the electronic glass and form the electronic fire-proof glass.

6. The single-installation and double-installation fireproof glass partition structure is characterized by comprising the single-installation and double-installation fireproof glass partition structure as claimed in any one of claims 1-3, wherein photovoltaic cell group membranes are arranged on the inner side surface of one layer of glass of the fireproof glass I (1), and a photovoltaic power generation patch cord or a photovoltaic power supply element is connected with the photovoltaic cell group membranes on the inner side surface of one layer of glass of the fireproof glass I (1) so as to realize the use of the photovoltaic glass and form the photovoltaic fireproof glass.