CN208792495U - Aluminium Cable Structure glass sunlight house - Google Patents
Aluminium Cable Structure glass sunlight house Download PDFInfo
- Publication number
- CN208792495U CN208792495U CN201821447865.2U CN201821447865U CN208792495U CN 208792495 U CN208792495 U CN 208792495U CN 201821447865 U CN201821447865 U CN 201821447865U CN 208792495 U CN208792495 U CN 208792495U
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- side bar
- girder
- bar component
- rain visor
- cable structure
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Abstract
The utility model discloses a kind of aluminium Cable Structure glass sunlight houses, it is related to building construction technology field, including outdoor upright column, corner upright, main girder components, secondary beam assembly, side bar component and rain visor component, outdoor upright column is set to the lower section of side bar component and is vertically arranged with side bar component, corner upright is set to the junction of two side bar components, main girder components are vertically arranged with time beam assembly and side bar component, and it is arranged to Multicarity integral structure, secondary beam assembly and the perpendicular setting of side bar component, side bar component uses bridge cutoff structure, rain visor component be connected with side bar component and between by connector connection be arranged to ditch, main girder components are set as Multicarity integral structure, with good load bearing stength, side bar component uses bridge cutoff structure, the phenomenon that avoiding winter condensed water, effectively play the effect of heat preservation.
Description
Technical field
The utility model relates to building construction technology fields, and in particular to a kind of aluminium Cable Structure glass sunlight house.
Background technique
Using aluminium square tube or curtain profile at the top of traditional assembled aluminium alloy structural building, connecting portion abuts spiral shell
The modes such as nail or aluminium welding connect, and aluminium alloy extrusions section is too small, cannot achieve large span aluminium Cable Structure glass sunlight house.
At the top of traditional aluminium alloy house and facade separating making, most top braces components do not consider that same top has
The intensity of effect combines, and is only connected at its contact surface position using fasteners such as screws.
Traditional aluminium alloy house whether irregularity degree at solder joint position, not complete enough in these aesthetics such as exposed of screw
Beauty, or from it is heat-insulated, its function of actually using also is unable to satisfy in sound insulation.
Traditional turns with formula aluminium alloy structure house, and top material can only meet waterproof demand, and a small amount of material can have both
Thermal insulation property.
Utility model content
The utility model embodiment is designed to provide a kind of aluminium Cable Structure glass sunlight house, to solve in the prior art without
Method realizes that longspan structure, top and facade separating making cause caused by low bonding strength, junction use welding or screw
Unsightly, the problems such as only meeting waterproof demand, thermal insulation property cannot be taken into account.
To achieve the above object, a kind of aluminium Cable Structure glass sunlight house provided by the embodiment of the utility model, including outdoor upright column,
Corner upright, main girder components, secondary beam assembly, side bar component and rain visor component;
The outdoor upright column is set to the lower section of the side bar component and is vertically arranged with the side bar component;
The corner upright is set to the junction of two side bar components;
The main girder components are vertically arranged with the secondary beam assembly and the side bar component, and are arranged to Multicarity and are integrally tied
Structure;
The secondary beam assembly and the perpendicular setting of side bar component;
The side bar component uses bridge cutoff structure;
The rain visor component be connected with the side bar component and between by connector connection be arranged to ditch.
Further, the main girder components include girder, beam backing member and strengthened beam;
The girder is multi-cavity structure;
The beam backing member is set in the strengthened beam;
The strengthened beam is connected with the girder, and is arranged to be connected with ground by buried plate.
Further, the secondary beam assembly includes secondary beam and secondary beam cover board;
The secondary beam is connect with the girder by aluminum corner brace and roofing nail;
The secondary beam cover board is fastened on the junction of the secondary beam Yu the girder.
Further, the side bar component includes side bar and side bar cover board;
The side bar passes through aluminum corner brace with the girder and the secondary beam and roofing nail is connect;
The side bar cover board is fastened on the junction of the side bar Yu the girder and the side bar and the secondary beam.
Further, two rain visor components are connected by L-type connection sheet with tack, stud.
Further, the rain visor component includes the first rain visor baffle and the second rain visor baffle;
The first occlusion portion is provided on the first rain visor baffle;
The first fixed part matched with first occlusion portion and second is provided on the second rain visor baffle to sting
Conjunction portion;
The second fixed part matched with second occlusion portion is provided on the connector.
Further, the first rain visor baffle is connected with the second rain visor baffle by tack, stud.
Further, the girder is cohesion style panelgirder or superposition girder.
Further, the strengthened beam includes the first strengthened beam and the second strengthened beam;
The first strengthened beam fitting is set to the lower section of the girder;
Second strengthened beam is connected to first strengthened beam towards one end of the side bar component, and is buried by described
Plate is arranged perpendicular to ground.
Further, first strengthened beam is structure as a whole with second strengthened beam.
The utility model embodiment has the beneficial effect that
The aluminium Cable Structure glass sunlight house includes outdoor upright column, corner upright, main girder components, secondary beam assembly, side bar component and prevents
Water eaves component, outdoor upright column are set to the lower section of side bar component and are vertically arranged with side bar component, and corner upright is set to two
The junction of side bar component, main girder components are vertically arranged with time beam assembly and side bar component, and are arranged to Multicarity integral structure,
Secondary beam assembly and the perpendicular setting of side bar component, side bar component use bridge cutoff structure, and rain visor component is connected with side bar component
Ditch is arranged to by connector connection between and, main girder components are set as Multicarity integral structure, have good load-bearing strong
The phenomenon that degree, side bar component uses bridge cutoff structure, avoids winter condensed water, effectively play the effect of heat preservation.
Detailed description of the invention
Fig. 1 is the exploded perspective structural schematic diagram of aluminium Cable Structure glass sunlight house provided by the utility model;
Fig. 2 is that the girder of aluminium Cable Structure glass sunlight house shown in FIG. 1 is the main view of cohesion style panelgirder;
Fig. 3 is that the girder of aluminium Cable Structure glass sunlight house shown in FIG. 1 is the main view for being superimposed girder;
Fig. 4 is the schematic perspective view of the other direction of aluminium Cable Structure glass sunlight house shown in FIG. 1;
Fig. 5 is the schematic perspective view after the assembling of aluminium Cable Structure glass sunlight house shown in FIG. 1;
Fig. 6 is the side view of aluminium Cable Structure glass sunlight house shown in fig. 5;
Fig. 7 is the schematic perspective view of the first strengthened beam of removal of aluminium Cable Structure glass sunlight house shown in FIG. 1;
Fig. 8 is the partial schematic diagram of Fig. 7.
Icon: 1- outdoor upright column;2- corner upright;3- main girder components;4- beam assembly;5- side bar component;6- rain visor
Component;7- connector;8-L type connection sheet;31- girder;32- beam backing member;The first strengthened beam of 33-;The second strengthened beam of 34-;35- is buried
Plate;41- secondary beam;42- secondary beam cover board;51- side bar;52- side bar cover board;61- the first rain visor baffle;The second rain visor of 62- gear
Plate;The first occlusion portion of 611-;The first fixed part of 621-;The second occlusion portion of 622-;The second fixed part of 71-.
Specific embodiment
The following examples illustrate the utility model, but is not intended to limit the scope of the present invention.
As shown in Figures 1 to 8, a kind of aluminium Cable Structure glass sunlight house provided in this embodiment, including outdoor upright column 1, corner are vertical
Column 2, main girder components 3, secondary beam assembly 4, side bar component 5 and rain visor component 6;
Outdoor upright column 1 is set to the lower section of side bar component 5 and is vertically arranged with side bar component 5;
Corner upright 2 is set to the junction of two side bar components 5;
Main girder components 3 are vertically arranged with time beam assembly 4 and side bar component 5, and are arranged to Multicarity integral structure;
Secondary beam assembly 4 and the perpendicular setting of side bar component 5;
Side bar component 5 uses bridge cutoff structure;
Rain visor component 6 be connected with side bar component 5 and between by connector 7 connection be arranged to ditch.
The main girder components 3 of the aluminium Cable Structure glass sunlight house are set as Multicarity integral structure, have good load bearing stength, side
The phenomenon that beam assembly 5 uses bridge cutoff structure, avoids winter condensed water, effectively plays the effect of heat preservation.
Please continue to refer to Fig. 1 to Fig. 8, wherein main girder components 3 include girder 31, beam backing member 32 and strengthened beam;
Girder 31 is multi-cavity structure;
Beam backing member 32 is set in strengthened beam;
Strengthened beam is connected with girder 31, and is arranged to be connected with ground by buried plate 35.
Further, girder 31 is cohesion style panelgirder or superposition girder 31.
Further, strengthened beam includes the first strengthened beam 33 and the second strengthened beam 34;
First strengthened beam 33 is bonded the lower section for being set to girder 31;
Second strengthened beam 34 is connected to the first strengthened beam 33 towards one end of side bar component 5, and by buried plate 35 perpendicular to
Ground setting.
Further, the first strengthened beam 33 is structure as a whole with the second strengthened beam 34.
In this embodiment, which runs through the first strengthened beam using vertical integral structure, beam backing member 32 is pushed up
33 and second strengthened beam 34, girder 31 be multi-cavity structure, main endurance position wall thickness is 3mm, and cohesion style may be selected in girder 31
Panelgirder or superposition girder 31 link together with the first strengthened beam 33, improve the load bearing stength at top, the second strengthened beam 34 passes to
Ground is connect by buried plate 35 with ground, or uses high-strength screw connection with local column, and it is strong to reach enhancing integral house structure
The purpose of degree, while can be realized large span construction.
Please continue to refer to Fig. 1 to Fig. 8, wherein secondary beam assembly 4 includes secondary beam 41 and secondary beam cover board 42;
Secondary beam 41 is connect with girder 31 by aluminum corner brace and roofing nail;
Secondary beam cover board 42 is fastened on the junction of secondary beam 41 Yu girder 31.
In this embodiment, will be masked with the junction of girder 31 by secondary beam cover board 42, make it is specious, and it is existing
Structure is compared, solve the problems, such as because weld connect with screw exposed bring unsightly, out-of-flatness, and further reinforcement
Heat-insulated, sound insulation performance.
Please continue to refer to Fig. 1 to Fig. 8, wherein side bar component 5 includes side bar 51 and side bar cover board 52;
Side bar 51 is connect by aluminum corner brace and roofing nail with girder 31 and secondary beam 41;
Side bar cover board 52 is fastened on the junction of side bar 51 Yu girder 31 and side bar 51 and secondary beam 41.
In this embodiment, side bar 51 uses bridge cutoff structure, avoids winter cold snap from the phenomenon that condensed water occur, reaches
The effect of heat preservation will be masked by side bar cover board 52 with the junction of girder 31 and secondary beam 41, make it is specious, with existing knot
Structure is compared, solve the problems, such as because weld connect with screw exposed bring unsightly, out-of-flatness, and further strengthen
Heat-insulated, sound insulation performance.
Please continue to refer to Fig. 1 to Fig. 8, wherein two rain visor components 6 are connected by L-type connection sheet 8 with tack, stud.
Further, rain visor component 6 includes the first rain visor baffle 61 and the second rain visor baffle 62;
The first occlusion portion 611 is provided on first rain visor baffle 61;
The first fixed part 621 and second matched with the first occlusion portion 611 is provided on second rain visor baffle 62 to sting
Conjunction portion 622;
The second fixed part 71 matched with the second occlusion portion 622 is provided on connector 7.
Further, the first rain visor baffle 61 is connected with the second rain visor baffle 62 by tack, stud.
In this embodiment, the second rain visor baffle 62 first passes through the second occlusion portion 622 and the second fixed part 71 is connected to
On connector 7, the first rain visor baffle 61 is snapped at the first rain visor gear by the first occlusion portion 611 and the first fixed part 621
On plate 61, then the connection between the first rain visor baffle 61 and the second rain visor baffle 62 reinforced by tack, stud, adjacent two
A rain visor component 6 is on the corner connected by L-type connection sheet 8, by above-mentioned connection type, is realized close connection, is avoided out
The case where existing leak.
Although above having made detailed description to the utility model with generality explanation and specific embodiment,
On the basis of the utility model, it can be made some modifications or improvements, this is apparent to those skilled in the art
's.Therefore, these modifications or improvements on the basis of without departing from the spirit of the present invention, belong to the utility model and want
Seek the range of protection.
Claims (10)
1. a kind of aluminium Cable Structure glass sunlight house, which is characterized in that including outdoor upright column, corner upright, main girder components, secondary beam assembly,
Side bar component and rain visor component;
The outdoor upright column is set to the lower section of the side bar component and is vertically arranged with the side bar component;
The corner upright is set to the junction of two side bar components;
The main girder components are vertically arranged with the secondary beam assembly and the side bar component, and are arranged to Multicarity integral structure;
The secondary beam assembly and the perpendicular setting of side bar component;
The side bar component uses bridge cutoff structure;
The rain visor component be connected with the side bar component and between by connector connection be arranged to ditch.
2. aluminium Cable Structure glass sunlight house according to claim 1, which is characterized in that the main girder components include girder, beam lining
Part and strengthened beam;
The girder is multi-cavity structure;
The beam backing member is set in the strengthened beam;
The strengthened beam is connected with the girder, and is arranged to be connected with ground by buried plate.
3. aluminium Cable Structure glass sunlight house according to claim 2, which is characterized in that the secondary beam assembly include secondary beam and time
Beam cover board;
The secondary beam is connect with the girder by aluminum corner brace and roofing nail;
The secondary beam cover board is fastened on the junction of the secondary beam Yu the girder.
4. aluminium Cable Structure glass sunlight house according to claim 2, which is characterized in that the side bar component includes side bar and side
Beam cover board;
The side bar passes through aluminum corner brace with the girder and the secondary beam and roofing nail is connect;
The side bar cover board is fastened on the junction of the side bar Yu the girder and the side bar and the secondary beam.
5. aluminium Cable Structure glass sunlight house according to claim 1, which is characterized in that two rain visor components pass through L-type
Connection sheet is connected with tack, stud.
6. aluminium Cable Structure glass sunlight house according to claim 1, which is characterized in that the rain visor component includes the first waterproof
Eaves baffle and the second rain visor baffle;
The first occlusion portion is provided on the first rain visor baffle;
The first fixed part matched with first occlusion portion and the second occlusion portion are provided on the second rain visor baffle;
The second fixed part matched with second occlusion portion is provided on the connector.
7. aluminium Cable Structure glass sunlight house according to claim 6, which is characterized in that the first rain visor baffle and described
Two rain visor baffles are connected by tack, stud.
8. aluminium Cable Structure glass sunlight house according to claim 2, which is characterized in that the girder is cohesion style panelgirder or superposition
Girder.
9. aluminium Cable Structure glass sunlight house according to claim 2, which is characterized in that the strengthened beam include the first strengthened beam and
Second strengthened beam;
The first strengthened beam fitting is set to the lower section of the girder;
Second strengthened beam is connected to first strengthened beam towards one end of the side bar component, and is hung down by the buried plate
Directly it is arranged in ground.
10. aluminium Cable Structure glass sunlight house according to claim 9, which is characterized in that first strengthened beam and described second
Strengthened beam is structure as a whole.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821447865.2U CN208792495U (en) | 2018-09-05 | 2018-09-05 | Aluminium Cable Structure glass sunlight house |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821447865.2U CN208792495U (en) | 2018-09-05 | 2018-09-05 | Aluminium Cable Structure glass sunlight house |
Publications (1)
Publication Number | Publication Date |
---|---|
CN208792495U true CN208792495U (en) | 2019-04-26 |
Family
ID=66208419
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201821447865.2U Active CN208792495U (en) | 2018-09-05 | 2018-09-05 | Aluminium Cable Structure glass sunlight house |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN208792495U (en) |
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2018
- 2018-09-05 CN CN201821447865.2U patent/CN208792495U/en active Active
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