CN214941350U - Composite heat-insulating fireproof glass partition structure - Google Patents

Abstract

The utility model discloses a composite heat-insulating fireproof glass partition structure, which belongs to the field of heat-insulating fireproof glass, and comprises a heat-insulating layer, wherein the heat-insulating layer is composed of at least two pieces of composite heat-insulating glass, aluminum strips are arranged between the composite heat-insulating glass, the top and the bottom side of the heat-insulating layer are respectively provided with a supporting and installing mechanism which is used for connecting the heat-insulating layer and a wall body, each supporting and installing mechanism comprises a galvanized transverse steel beam and two galvanized steel press plates, two groups of two galvanized transverse steel beams are arranged on one side of the heat-insulating layer, two groups of four galvanized steel press plates are correspondingly arranged on the other side of the heat-insulating layer, each galvanized transverse steel beam corresponds to two galvanized steel press plates, the galvanized transverse steel beams and the galvanized steel press plates are connected through stainless steel screws, the composite heat-insulating fireproof glass partition structure can be realized, and is convenient to install or disassemble, when the glass is mounted or dismounted, the glass is slightly damaged, the fire resistance is good, and the heat insulation and fire prevention performance is good.

Description

Composite heat-insulating fireproof glass partition structure

Technical Field

The utility model relates to a thermal-insulated fire prevention glass field, more specifically say, relate to a compound thermal-insulated fire prevention glass cuts off structure.

Background

The glass partition separates two spaces by using glass, the glass is easily damaged in the process of installation or disassembly of the conventional glass partition, the waste is caused, the fire resistance of the glass partition is poor, and the heat insulation and fire prevention effects are not ideal.

SUMMERY OF THE UTILITY MODEL

1. Technical problem to be solved

To the problem that exists among the prior art, the utility model aims to provide a compound thermal-insulated fire prevention glass cuts off structure, it can realize, and the convenience is in the installation or is dismantled, and during installation or dismantlement, little to glass's damage, and refractiveness well, has fine thermal-insulated fire behavior.

2. Technical scheme

In order to solve the above problems, the utility model adopts the following technical proposal.

The utility model provides a compound thermal-insulated fire prevention glass cuts off structure, includes the insulating layer, the insulating layer has two piece compound insulating glass at least to constitute, be provided with the aluminium strip between the compound insulating glass, insulating layer top and bottom side all are provided with support installation mechanism, support installation mechanism is used for connecting insulating layer and wall body.

Furthermore, every support installation mechanism all includes a horizontal girder steel of zinc-plating and two galvanized steel clamp plates, two sets of two horizontal girder steel of zinc-plating sets up in one side of insulating layer, and two sets of four the corresponding setting of galvanized steel clamp plate is at the opposite side of insulating layer, and every horizontal girder steel of zinc-plating corresponds two galvanized steel clamp plates, connect through the stainless steel screw between horizontal girder steel of zinc-plating and the galvanized steel clamp plate, galvanized steel clamp plate both ends are the S-shaped, horizontal girder steel of zinc-plating and galvanized steel clamp plate carry out the centre gripping to the both sides of insulating layer.

Furthermore, two thick galvanized steel bases are fixedly connected to one side of the galvanized transverse steel beam through small screws, the thick galvanized steel bases are located between the galvanized transverse steel beam and the heat insulation layer, the stainless steel screws penetrate through the thick galvanized steel bases, the positions of the thick galvanized steel bases correspond to those of the galvanized steel pressing plates, and at least three steel beam connecting pieces are arranged between the thick galvanized steel bases and the galvanized steel pressing plates.

Furthermore, supporting beams sleeved on stainless steel screws are arranged between the thick galvanized steel base and the galvanized steel pressing plate, fireproof rubber mats are symmetrically arranged on the two supporting beams, and the two fireproof rubber mats are symmetrically contacted with the heat insulation layer.

Furthermore, a fireproof sealing rubber strip is filled at the position where the thick galvanized steel base is in contact with the heat insulation layer, and a fireproof expansion rubber strip is filled at the position where the galvanized steel pressing plate is in contact with the heat insulation layer.

Furthermore, galvanized steel clamp plate one side is provided with first latch, a set of two be provided with the stainless steel apron on the galvanized steel clamp plate, the relative both sides inner wall of stainless steel apron all is provided with the second latch, the stainless steel apron passes through second latch and first latch and two galvanized steel clamp plate joints.

3. Advantageous effects

Compared with the prior art, the utility model has the advantages of:

(1) when the scheme is installed, the thermal insulation layer is customized and processed, aluminum strips are clamped in the thermal insulation layer, a steel beam connecting piece is used for bottoming, a thick galvanized steel base and a galvanized steel pressing plate are respectively placed on two sides of the thermal insulation layer, stainless steel screws are used for screwing, a galvanized transverse steel beam is screwed on one side of the thick galvanized steel base, then the galvanized steel pressing plate and the thick galvanized steel base support the steel beam connecting piece, fireproof rock wool is filled in the steel beam connecting piece, the steel beam connecting piece is fixed again through another group of stainless steel screws sleeved with supporting beams, the supporting installation mechanisms on the top and the bottom sides are installed by the same method, in the process, the stainless steel screws cannot be screwed and can be screwed to an adjustable state, then the thermal insulation layer is manually supported and placed between the two supporting installation mechanisms, the stainless steel screws are sequentially screwed, but cannot be screwed, and after the stainless steel screws on all parts can be clamped, and the stainless steel cover plate is fastened on the galvanized steel pressing plate, and finally, a fireproof sealing rubber strip is injected into the seam of the thick galvanized steel base and the heat insulation layer, and a fireproof expansion rubber strip is injected into the seam of the galvanized steel pressing plate and the heat insulation layer, so that the installation or the disassembly is convenient, the glass is slightly damaged during the installation or the disassembly, the fire resistance is good, and the heat insulation and fireproof performance is good.

Drawings

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

FIG. 2 is a front view of the present invention;

fig. 3 is an enlarged schematic view of a portion a of fig. 2 according to the present invention;

fig. 4 is an enlarged schematic structural diagram of the present invention at B in fig. 2.

The reference numbers in the figures illustrate:

1. a thermal insulation layer; 2. aluminum strips; 3. galvanizing the transverse steel beam; 4. a galvanized steel platen; 5. stainless steel screws; 6. a thick galvanized steel base; 7. a small screw; 8. a steel beam connector; 9. a support beam; 10. a fireproof rubber mat; 11. a fireproof sealing rubber strip; 12. a fireproof expansion rubber strip; 13. a first latch; 14. a stainless steel cover plate; 15. and a second latch.

Detailed Description

The technical solution in the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiment of the present invention; obviously, the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention based on the embodiments of the present invention.

Example 1:

referring to fig. 1-4, a composite heat-insulating fireproof glass partition structure comprises a heat-insulating layer 1, wherein the heat-insulating layer 1 is composed of at least two pieces of composite heat-insulating glass, aluminum strips 2 are arranged between the pieces of composite heat-insulating glass, supporting and installing mechanisms are arranged on the top and the bottom of the heat-insulating layer 1 and are used for connecting the heat-insulating layer 1 and a wall body, and the heat-insulating fireproof performance can be improved by the multiple layers of composite heat-insulating glass and the aluminum strips 2.

Referring to fig. 2, every supports installation mechanism and all includes horizontal girder steel 3 of a zinc-plating and two zinc-plating steel clamp plate 4, two sets of two zinc-plating horizontal girder steel 3 set up in one side of insulating layer 1, two sets of four corresponding settings of zinc-plating steel clamp plate 4 are at the opposite side of insulating layer 1, every zinc-plating horizontal girder steel 3 corresponds two zinc-plating steel clamp plate 4, connect through stainless steel screw 5 between horizontal girder steel 3 of zinc-plating and the zinc-plating steel clamp plate 4, zinc-plating steel clamp plate 4 both ends are the S-shaped, isomorphism zinc-plating horizontal girder steel 3 and zinc-plating steel clamp plate 4 carry out the centre gripping to the both sides of insulating layer 1, the convenience is installed insulating layer 1, also make things convenient for the dismantlement in later stage.

Referring to fig. 2, one side of the galvanized transverse steel beam 3 is fixedly connected with two thick galvanized steel bases 6 through small screws 7, the thick galvanized steel bases 6 are located between the galvanized transverse steel beam 3 and the thermal insulation layer 1, the stainless steel screws 5 penetrate through the thick galvanized steel bases 6, the positions of the thick galvanized steel bases 6 correspond to those of the galvanized steel pressing plates 4, at least three steel beam connecting pieces 8 are arranged between the thick galvanized steel bases 6 and the galvanized steel pressing plates 4, the steel beam connecting pieces 8 are clamped through the thick galvanized steel bases 6 and the galvanized steel pressing plates 4, the thick galvanized steel bases 6 and the galvanized steel pressing plates 4 are reversely supported through the steel beam connecting pieces 8, the thick galvanized steel bases 6 and the galvanized steel pressing plates 4 are prevented from being bent when being screwed through the stainless steel screws 5, and the fixation of the thermal insulation layer 1 is affected.

Referring to fig. 2, a supporting beam 9 sleeved on a stainless steel screw 5 is arranged between a thick galvanized steel base 6 and a galvanized steel pressing plate 4, two supporting beams 9 are symmetrically provided with fireproof rubber mats 10, the two fireproof rubber mats 10 are symmetrically contacted with a heat insulation layer 1, the heat insulation layer 1 is supported through the supporting beams 9, the heat insulation layer 1 is prevented from sliding downwards, and the heat insulation layer 1 is fixed more firmly.

Referring to fig. 3 and 4, the position where the thick galvanized steel base 6 contacts the thermal insulation layer 1 is filled with a fireproof sealing rubber strip 11, the position where the galvanized steel pressing plate 4 contacts the thermal insulation layer 1 is filled with a fireproof expansion rubber strip 12, and the fireproof performance is improved through the fireproof sealing rubber strip 11 and the fireproof expansion rubber strip 12.

Referring to fig. 2 and 4, a first latch 13 is arranged on one side of each galvanized steel pressing plate 4, a stainless steel cover plate 14 is arranged on each group of two galvanized steel pressing plates 4, second latches 15 are arranged on the inner walls of two opposite sides of each stainless steel cover plate 14, the stainless steel cover plates 14 are clamped with the two galvanized steel pressing plates 4 through the second latches 15 and the first latches 13, and the appearance is improved through the stainless steel cover plates 14.

The working principle is as follows: customizing and processing the heat insulation layer 1, clamping an aluminum strip 2 in the heat insulation layer, bottoming by using a steel beam connector 8, respectively placing a thick galvanized steel base 6 and a galvanized steel pressing plate 4 at two sides, screwing by using a stainless steel screw 5, screwing a galvanized steel beam 3 at one side of the thick galvanized steel base 6, then supporting the galvanized steel pressing plate 4 and the thick galvanized steel base 6 by using a pair of steel beam connectors 8, filling fireproof rock wool in the middle of the steel beam connector 8, fixing again by using another group of stainless steel screws 5 sleeved with a bearing beam 9, installing the top and bottom supporting installation mechanisms by using the same method, wherein in the process, the stainless steel screws 5 cannot be screwed to be adjusted, then manually supporting the heat insulation layer 1 between the two supporting installation mechanisms, screwing the stainless steel screws 5 in sequence, but cannot be screwed, and clamping all the stainless steel screws 5 at each part, and then the stainless steel cover plate 14 is fastened on the galvanized steel pressing plate 4, and finally the fireproof sealing rubber strip 11 is injected into the closing part of the thick galvanized steel base 6 and the heat insulation layer 1, and the fireproof expansion rubber strip 12 is injected into the closing part of the galvanized steel pressing plate 4 and the heat insulation layer 1, so that the installation or the disassembly is convenient, the glass is slightly damaged during the installation or the disassembly, the fire resistance is good, and the heat insulation and fireproof performance is good.

The above description is only the preferred embodiment of the present invention; the scope of the present invention is not limited thereto. Any person skilled in the art should also be able to cover the technical scope of the present invention by replacing or changing the technical solution and the improvement concept of the present invention with equivalents and modifications within the technical scope of the present invention.

Claims (6)

1. The utility model provides a compound thermal-insulated fire prevention glass cuts off structure, includes insulating layer (1), insulating layer (1) has at least two compound thermal-insulated glass to constitute, its characterized in that: an aluminum strip (2) is arranged between the composite heat insulation glass, supporting and installing mechanisms are arranged on the top and the bottom side of the heat insulation layer (1), and the supporting and installing mechanisms are used for connecting the heat insulation layer (1) and a wall body.

2. The composite heat-insulating fire-proof glass partition structure of claim 1, wherein: every support installation mechanism all includes a zinc-plated horizontal girder steel (3) and two zinc-plated steel clamp plate (4), two sets of two zinc-plated horizontal girder steel (3) sets up in one side of insulating layer (1), two sets of four the corresponding setting of zinc-plated steel clamp plate (4) is at the opposite side of insulating layer (1), and every zinc-plated horizontal girder steel (3) corresponds two zinc-plated steel clamp plate (4), connect through stainless steel screw (5) between zinc-plated horizontal girder steel (3) and zinc-plated steel clamp plate (4), zinc-plated steel clamp plate (4) both ends are the S-shaped, zinc-plated horizontal girder steel (3) and zinc-plated steel clamp plate (4) carry out the centre gripping to the both sides of insulating layer (1).

3. The composite heat-insulating fire-proof glass partition structure of claim 2, wherein: the galvanized transverse steel beam is characterized in that two thick galvanized steel bases (6) are fixedly connected to one side of the galvanized transverse steel beam (3) through small screws (7), the thick galvanized steel bases (6) are located between the galvanized transverse steel beam (3) and the heat insulation layer (1), stainless steel screws (5) penetrate through the thick galvanized steel bases (6), the positions of the thick galvanized steel bases (6) correspond to galvanized steel pressing plates (4), and at least three steel beam connecting pieces (8) are arranged between the thick galvanized steel bases (6) and the galvanized steel pressing plates (4).

4. The composite heat-insulating fire-proof glass partition structure of claim 3, wherein: the galvanized steel base is characterized in that supporting beams (9) sleeved on stainless steel screws (5) are arranged between the thick galvanized steel base (6) and the galvanized steel pressing plate (4), the two supporting beams (9) are symmetrically provided with fireproof rubber mats (10), and the two fireproof rubber mats (10) are symmetrically contacted with the heat insulation layer (1).

5. The composite heat-insulating fire-proof glass partition structure of claim 3, wherein: the position where the thick galvanized steel base (6) is in contact with the heat insulation layer (1) is filled with a fireproof sealing rubber strip (11), and the position where the galvanized steel pressing plate (4) is in contact with the heat insulation layer (1) is filled with a fireproof expansion rubber strip (12).

6. The composite heat-insulating fire-proof glass partition structure of claim 2, wherein:

galvanized steel clamp plate (4) one side is provided with first latch (13), a set of two be provided with stainless steel apron (14) on galvanized steel clamp plate (4), the relative both sides inner wall of stainless steel apron (14) all is provided with second latch (15), stainless steel apron (14) are through second latch (15) and first latch (13) and two galvanized steel clamp plate (4) joint.

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