CN214195099U - Glass partition wall structure of built-in tripe of assembled - Google Patents

Glass partition wall structure of built-in tripe of assembled Download PDF

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Publication number
CN214195099U
CN214195099U CN202022435378.8U CN202022435378U CN214195099U CN 214195099 U CN214195099 U CN 214195099U CN 202022435378 U CN202022435378 U CN 202022435378U CN 214195099 U CN214195099 U CN 214195099U
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glass
partition wall
riveting
module
frame
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CN202022435378.8U
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杨治勤
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Hermansdun Guangdong Building Materials Technology Co ltd
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Hermans Dun Guangzhou Building Materials Technology Co ltd
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Abstract

The utility model relates to a glass partition wall structure of built-in tripe of assembled, including lower truss and last truss, be provided with down between truss and the last truss and cut off the module, cut off the module and include double glazing and built-in and double glazing intermediate blind, be provided with the two-way riveting fossil fragments of vertical setting between the adjacent partition module, the both sides of two-way riveting fossil fragments are provided with the elasticity of different specifications and repair the gadget, it has the spring-pressing groove to constitute between two-way riveting fossil fragments and the elasticity repair the gadget, the riveting face of two-way riveting fossil fragments is connected with respectively and is used for supplying gliding sliding frame about the blind, double glazing's inboard is provided with the adhesion layer all around, double glazing has the glass mullion through the adhesion, the glass layer connection has the glass fastener, the glass fastener passes through the spring-pressing groove and is connected with two-way riveting fossil fragments. Through adopting above-mentioned technical scheme, promoted glass partition wall's space utilization's advantage, and reduced the installation cost for glass partition wall is more level and more smooth pleasing to the eye.

Description

Glass partition wall structure of built-in tripe of assembled
Technical Field
The utility model relates to a belong to door and window's technical field, concretely relates to glass partition wall structure of built-in tripe of assembled.
Background
At present, glass doors and windows are mostly adopted in the doors and windows of buildings, so that the appearance is attractive and novel, and the doors and windows are safe and anti-theft. Among the prior art, these glass door and window generally include two kinds of structural style of single glazing door and window structure and double glazing door and window structure, and wherein, single glazing door and window structure is simple and practical, but thermal-insulated sound insulation effect is relatively poor, and double glazing door and window structure has certain thermal-insulated sound insulation function.
However, the assembled double-layer glass partition wall needs to be assembled through a fixing frame, and the fixing frame body is exposed out of the glass wall, so that the partition wall is not smooth and attractive enough and occupies a large space; meanwhile, the assembly cost of the glass partition wall is increased.
SUMMERY OF THE UTILITY MODEL
Not enough to prior art exists, the utility model aims to provide a glass partition wall structure of built-in tripe of assembled has the advantage that has promoted the space utilization of glass partition wall, and has reduced installation cost for glass partition wall is more level and more smooth pleasing to the eye.
In order to achieve the above purpose, the utility model provides a following technical scheme:
a glass partition wall structure with built-in blinds comprises a lower groove frame and an upper groove frame, wherein partition modules are arranged between the lower groove frame and the upper groove frame, each partition module comprises double-layer glass and a blind which is arranged between the double-layer glass in a built-in mode, a vertically arranged two-way riveting keel is arranged between every two adjacent partition modules, elastic trimming parts with different specifications are arranged on two sides of each two-way riveting keel, elastic pressing grooves are formed between the two-way riveting keel and the elastic trimming parts, riveting surfaces of the two-way riveting keel are respectively connected with sliding frames for the blind to slide up and down, the sliding frames are located between the double-layer glass, adhesive layers are arranged on the peripheries of the inner sides of the double-layer glass, the double-layer glass is connected with edge-covered glass vertical frames through the adhesive layers, and glass fasteners for buckling the elastic pressing grooves are clamped in the glass vertical frames, the glass fastener is connected with the bidirectional riveting keel through the elastic pressing groove.
Furthermore, a first sound insulation strip made of EVA materials is arranged between the glass vertical frame and the sliding frame.
Further, the top of lower truss have through screwed connection be used for with cut off the first horizontal bracket that the module is connected, first horizontal bracket with cut off the junction between the module and be provided with the second and give sound insulation the strip, the lower truss has through screwed connection and buries in the interior fossil fragments of ground decorations, the both sides of interior fossil fragments have the support steel pipe of being connected with overhead floor through screwed connection, the below fixedly connected with of interior fossil fragments and the regulation supporting legs that the grade beam is connected, adjust the supporting legs with be provided with the binaural connecting piece between the interior fossil fragments, the both sides of binaural connecting piece add respectively and are equipped with the first mounting that plays the firm effect of enhancement.
Furthermore, the periphery of the adjusting supporting leg is filled with blocky first rock wool, and the periphery of the first rock wool is pasted with a sealing adhesive tape for fixing.
Furthermore, go up the truss and be located the ceiling and the opening sets up downwards, the below sliding connection of going up the truss have be used for with cut off the second horizontal stand that the module is connected, the second horizontal stand with cut off the junction between the module and be provided with the third and give sound insulation the strip, go up the truss with install between the second horizontal stand and play the regulation the spring-loaded fitting of second horizontal stand height.
Furthermore, first fireproof and soundproof rock wool is filled between the upper groove frame and the second horizontal frame.
Furthermore, the upper groove frame is connected with an upper beam lower rail buried in a ceiling through screws, an upper beam upper rail fixed with a floor slab is arranged above the upper beam lower rail, second rock wool in a block shape is connected between the upper beam upper rail and the upper beam lower rail, and fireproof cloth is sealed around the side face among the upper beam upper rail, the second rock wool and the upper beam lower rail.
Furthermore, the both sides face of the lower rail of the roof beam has the connection sign indicating number through screwed connection respectively, the second mounting that plays the enhancement fixed action is installed to the connection sign indicating number, the second mounting is including adjusting the pipe, the both ends of adjusting the pipe are connected with anti-tooth axle head adjusting screw respectively, one of them anti-tooth axle head adjusting screw with the connection sign indicating number is connected, another anti-tooth axle head adjusting screw links to each other with the roof beam.
Furthermore, the adhesion layer comprises a Teflon coating solidified on the double-layer glass through baking varnish, an adhesion promoter is coated above the Teflon coating, and a double-sided adhesive tape connected with the glass mullion (51) is additionally arranged above the adhesion promoter.
To sum up, the utility model discloses following beneficial effect has:
1. the partition wall has good fireproof and soundproof effects by the arrangement of the first soundproof strip, the second soundproof strip, the first rock wool, the second rock wool, the first fireproof soundproof rock wool and the second fireproof soundproof rock wool; meanwhile, the upper rail and the lower rail of the top beam are installed in a buckling mode, the vertical keels are used for strengthening and fixing to form a closed false beam, and fireproof and sound-proof rock wool is filled inside the false beam, so that the sound-proof and fireproof performance of the ground beam is enhanced;
2. the glass fasteners are connected with the bidirectional riveting keels through the elastic pressing grooves, the fixed connection among the double-layer glass, the glass vertical frames, the glass fasteners and the bidirectional riveting keels can be realized without additionally installing screws or welding, and the frame bodies are all concealed inside the double-layer glass during connection, so that the glass partition wall is more smooth and attractive, the space utilization rate is improved, and the economic cost of assembly is reduced; meanwhile, the elastic pressing groove can be adjusted by adjusting the elastic trimming piece, so that the adaptability of the connecting structure is improved;
3. the elastic pressing fitting for adjusting the height of the second horizontal frame is arranged between the upper groove frame and the second horizontal frame, so that the height of the second horizontal frame is adjusted, double-layer glass is assembled more flexibly, and errors in a certain range can be accepted; simultaneously, easily double glazing's installation and dismantlement have promoted the work efficiency of installation.
Drawings
FIG. 1 is a schematic structural view of a lower tank rack of the present embodiment;
FIG. 2 is a schematic structural view of the upper tank rack of the present embodiment;
FIG. 3 is an overall structural view of the present embodiment;
fig. 4 is a structural plan view of the connection structure between adjacent partition modules of this embodiment.
Reference numerals: 11. a lower trough rack; 111. a first horizontal shelf; 12. an upper tank frame; 121. a second horizontal shelf; 122. A spring-loaded fitting; 123. the first fireproof sound insulation rock wool; 2. a partition module; 21. double-layer glass; 211. an adhesive layer; 22. a blind; 3. bidirectionally riveting a keel; 31. an elastic trim member; 32. a spring pressing groove; 4. a sliding frame; 51. a glass mullion; 52. a glass fastener; 61. a first sound insulating strip; 62. a second sound insulating strip; 63. a third sound insulating strip; 71. an inner keel; 72. adjusting the supporting legs; 721. first rock wool; 722. sealing the adhesive tape; 73. supporting the steel pipe; 74. a binaural connector; 75. a first fixing member; 81. a top beam lower rail; 82. the top beam is guided on the rail; 83. Second rock wool; 84. fireproof cloth; 85. a connection code; 86. a second fixing member; 861. adjusting the round pipe; 862. And a screw is adjusted by a reverse thread shaft head.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings and examples.
As shown in fig. 1 and 2, the utility model discloses a glass partition wall structure of built-in tripe of assembled, including lower tank bracket 11 and last tank bracket 12, go up the projection of tank bracket 12 in vertical direction and coincide with the projection of lower tank bracket 11 in vertical direction mutually, the opening sets up relatively between lower tank bracket 11 and the last tank bracket 12, as shown in fig. 3, install between lower tank bracket 11 and the last tank bracket 12 and cut off module 2, cut off module 2 and include double glazing 21 and built-in with the middle of double glazing 21 tripe curtain 22.
As shown in fig. 3 and 4, a vertically arranged bidirectional riveting keel 3 is arranged between adjacent partition modules 2, elastic trimming parts 31 of different specifications are arranged on two sides of the bidirectional riveting keel 3, an elastic pressing groove 32 is formed between the bidirectional riveting keel 3 and the elastic trimming parts 31, a sliding frame 4 for allowing the blind 22 to slide up and down is respectively connected to a riveting surface of the bidirectional riveting keel 3, the sliding frame 4 is located between double-layer glasses 21, an adhesion layer 211 is arranged around the inner side of the double-layer glass 21, the double-layer glass 21 is connected with a covered glass mullion 51 through the adhesion layer 211, a glass fastener 52 for fastening into the elastic pressing groove 32 is clamped on the glass mullion 51, and the glass fastener 52 is connected with the bidirectional riveting keel 3 through the elastic pressing groove 32.
The adhesion layer 211 comprises a teflon coating solidified on the double-layer glass 21 through baking varnish, an adhesion promoter is coated on the teflon coating, and a double-sided adhesive tape connected with the glass mullion 51 is additionally arranged above the adhesion promoter. A first soundproof strip 61 made of EVA material is embedded between the glass mullion 51 and the mullion 4.
As shown in fig. 1 and 2, a first horizontal frame 111 for connecting with the partition module 2 is connected to the upper side of the lower chute frame 11 through a screw, a second sound insulation strip 62 is embedded in a joint between the first horizontal frame 111 and the partition module 2, the lower chute frame 11 is connected with an inner keel 71 embedded in a ground decoration through a screw, two sides of the inner keel 71 are fixedly connected with a support steel pipe 73 for supporting the raised floor through a screw, an adjusting support leg 72 connected with a ground beam is fixedly connected to the lower side of the inner keel 71, first rock wool 721 in a block shape is filled around the adjusting support leg 72, a sealing adhesive tape 722 for fixing is adhered around the first rock wool 721, the axial direction of the adjusting support leg 72 is vertically arranged, a binaural connector 74 is installed between the adjusting support leg 72 and the inner keel 71, and first fixing parts 75 for reinforcing and fixing are respectively added to two sides of the binaural connector 74.
Go up the cell frame 12 and be located the ceiling and the opening sets up downwards, the below sliding connection of going up cell frame 12 has the second horizontal bracket 121 that is used for being connected with wall module 2, it has first fire prevention sound insulation rock wool 123 to go up to fill between cell frame 12 and the second horizontal bracket 121, the junction is inlayed and is had third sound insulation strip 63 between second horizontal bracket 121 and the wall module 2, go up and install between cell frame 12 and the second horizontal bracket 121 and play the spring fitting 122 of adjusting the second horizontal bracket 121 height.
The upper truss 12 is connected with a ceiling beam lower rail 81 buried in a ceiling through screws, a ceiling beam upper rail 82 fixed with a floor slab is arranged above the ceiling beam lower rail 81, second rock wool 83 in a block shape is clamped between the ceiling beam upper rail 82 and the ceiling beam lower rail 81, and fireproof cloth 84 is sealed around the side surface among the ceiling beam upper rail 82, the second rock wool 83 and the ceiling beam lower rail 81.
Two side surfaces of the upper beam lower rail 81 are respectively fixedly connected with a connecting code 85 through screws, a second fixing piece 86 playing a role in reinforcing and fixing is installed on the connecting code 85, the second fixing piece 86 comprises an adjusting circular tube 861, two ends of the adjusting circular tube 861 are respectively connected with a reverse-tooth shaft head adjusting screw 862, one reverse-tooth shaft head adjusting screw 862 is connected with the connecting code 85, and the other reverse-tooth shaft head adjusting screw 862 is connected with the upper beam.
The working conditions and principles of the embodiment are as follows:
when the glass partition wall needs to be installed, the upper truss 12 is fixed to a ceiling and the lower truss 11 is fixed to a ground decoration, the two-way riveting keel 3 is clamped between the upper truss 12 and the lower truss 11, the first horizontal frame 111 is installed on the lower truss 11, the first horizontal frame 111 is leveled through a level meter and fixed to the lower truss 11 through 4.2 & lt16 & gt round-head screws, the elastic pressing fitting 122 is installed on the upper truss 12 and covered with the second horizontal frame 121, and the first fireproof soundproof rock wool 123 is filled between the upper truss 12 and the second horizontal frame 121.
Then, fixedly connecting the upper sliding frame 4 to two riveting surfaces of the two-way riveting keel 3 through screws respectively, clamping the elastic trimming parts 31 to two sides of the two-way riveting keel 3, sliding two ends of the blind 22 up and down along the sliding frame 4, baking finish a Teflon coating on the double-layer glass 21, adding an adhesion promoter on the Teflon coating, adhering a double-sided adhesive tape, clamping the glass vertical frame 51 with the glass fastener 52, then attaching the side surface of the glass vertical frame 51 with the double-sided adhesive tape to realize the fixed connection of the glass vertical frame 51 and the double-layer glass 21, and then placing the bottom end of the double-layer glass 21 to the first horizontal frame 111; meanwhile, the glass fastener 52 is fastened into the elastic pressing groove 32 formed by the two-way riveting keel 3 and the elastic trimming part 31, so that the fixed connection among the double-layer glass 21, the glass mullion 51, the glass fastener 52 and the two-way riveting keel 3 is realized, and the fixed connection can be realized without screws.
Then the top of the double-layer glass 21 is connected to the second horizontal frame 121, and after the double-layer glass 21 abuts against the second horizontal frame 121, the second horizontal frame 121 is pressed and cannot rebound due to the effect of the elastic pressing fitting 122, so that a fixing effect is achieved; at the same time, the installation of the double glazing 21 is facilitated.
The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (9)

1. The utility model provides a glass partition wall structure of built-in tripe of assembled, includes lower truss (11) and last truss (12), be provided with between lower truss (11) and last truss (12) and cut off module (2), cut off module (2) including double glazing (21) and built-in with tripe curtain (22) in the middle of double glazing (21), characterized by: a vertically arranged bidirectional riveting keel (3) is arranged between the adjacent partition modules (2), elastic trimming parts (31) with different specifications are arranged on two sides of the bidirectional riveting keel (3), a spring pressing groove (32) is formed between the bidirectional riveting keel (3) and the elastic trimming piece (31), the riveting surfaces of the two-way riveting keels (3) are respectively connected with a sliding frame (4) for the shutter curtain (22) to slide up and down, the sliding frame (4) is positioned between the double-layer glass (21), the periphery of the inner side of the double-layer glass (21) is provided with an adhesive layer (211), the double-layer glass (21) is connected with a covered edge type glass vertical frame (51) through the adhesive layer (211), the glass vertical frame (51) is clamped with a glass fastener (52) which is used for being buckled into the elastic pressing groove (32), the glass fastener (52) is connected with the bidirectional riveting keel (3) through the elastic pressing groove (32).
2. The assembly internal louver glass partition wall structure of claim 1, wherein: a first sound insulating strip (61) made of EVA material is arranged between the glass vertical frame (51) and the sliding frame (4).
3. The assembly internal louver glass partition wall structure of claim 1, wherein: the utility model discloses a wall module, including wall module (2), lower cell frame (11), first horizontal stand (111) that the top of lower cell frame (11) is used for through screwed connection with cut off first horizontal stand (111) that module (2) are connected, first horizontal stand (111) with cut off junction between module (2) and be provided with second sound insulation strip (62), lower cell frame (11) have through screwed connection and bury in interior fossil fragments (71) of ground decorations, there are support steel pipe (73) of being connected with overhead floor in the both sides of interior fossil fragments (71) through screwed connection, the below fixedly connected with of interior fossil fragments (71) is connected with regulation supporting legs (72) with the grade beam, adjust supporting legs (72) with be provided with binaural connecting piece (74) between interior fossil fragments (71), the both sides of binaural connecting piece (74) add respectively and are equipped with first mounting (75) that play the firm effect of enhancement.
4. The assembly internal louver glass partition wall structure of claim 3, wherein: the periphery of the adjusting supporting leg (72) is filled with blocky first rock wool (721), and sealing adhesive tapes (722) playing a role in fixing are pasted on the periphery of the first rock wool (721).
5. The assembly internal louver glass partition wall structure of claim 1, wherein: go up cell-rack (12) and be located the ceiling and the opening sets up downwards, the below sliding connection of going up cell-rack (12) have be used for with second horizontal bracket (121) that cut off module (2) and be connected, second horizontal bracket (121) with cut off the junction between module (2) and be provided with third sound insulating strip (63), go up cell-rack (12) with install between second horizontal bracket (121) and play to adjust spring pressure accessory (122) of second horizontal bracket (121) height.
6. The assembly internal louver glass partition wall structure of claim 5, wherein: and a first fireproof and soundproof rock wool (123) is filled between the upper groove frame (12) and the second horizontal frame (121).
7. The assembly internal louver glass partition wall structure of claim 5, wherein: the upper groove frame (12) is connected with and buried in a ceiling beam lower rail (81) of a ceiling through screws, an upper beam upper rail (82) fixed with a floor slab is arranged above the ceiling beam lower rail (81), second rock wool (83) in a block shape is connected between the upper beam upper rail (82) and the ceiling beam lower rail (81), and fireproof cloth (84) is sealed around the side face among the upper beam upper rail (82), the second rock wool (83) and the ceiling beam lower rail (81).
8. The assembly internal louver glass partition wall structure of claim 7, wherein: the both sides face of day roof beam lower rail (81) has connection sign indicating number (85) through screwed connection respectively, connect sign indicating number (85) and install second mounting (86) that play and strengthen fixed action, second mounting (86) are including adjusting pipe (861), the both ends of adjusting pipe (861) are connected with anti-tooth axle head adjusting screw (862), one of it anti-tooth axle head adjusting screw (862) with connect sign indicating number (85) and connect, another anti-tooth axle head adjusting screw (862) link to each other with the day roof beam.
9. The assembly internal louver glass partition wall structure of claim 1, wherein: the adhesive layer (211) comprises a Teflon coating solidified on the double-layer glass (21) through baking varnish, an adhesion promoter is coated above the Teflon coating, and a double-sided adhesive tape connected with the glass mullion (51) is additionally arranged above the adhesion promoter.
CN202022435378.8U 2020-10-28 2020-10-28 Glass partition wall structure of built-in tripe of assembled Active CN214195099U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202022435378.8U CN214195099U (en) 2020-10-28 2020-10-28 Glass partition wall structure of built-in tripe of assembled

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202022435378.8U CN214195099U (en) 2020-10-28 2020-10-28 Glass partition wall structure of built-in tripe of assembled

Publications (1)

Publication Number Publication Date
CN214195099U true CN214195099U (en) 2021-09-14

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN202022435378.8U Active CN214195099U (en) 2020-10-28 2020-10-28 Glass partition wall structure of built-in tripe of assembled

Country Status (1)

Country Link
CN (1) CN214195099U (en)

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Address after: 511500 No. 3, No. 1, Chuangxing Avenue, Qingyuan Economic Development Zone, Guangdong Province

Patentee after: Hermansdun (Guangdong) Building Materials Technology Co.,Ltd.

Address before: 510000 1-26, Pingshi East Road, Huacheng street, Huadu District, Guangzhou City, Guangdong Province

Patentee before: Hermans Dun (Guangzhou) Building Materials Technology Co.,Ltd.