Summary of the invention
The object of the present invention is to provide a kind of aluminium keel variable cross-section glass balustrade, it is economical and practical, stability is strong, and appearance effect is good.
For achieving the above object, the present invention adopts following technical scheme:
Aluminium keel variable cross-section glass balustrade, it comprises glass, aluminium alloys handrail, variable cross-section Aluminum alloy column, aluminium alloys Connection Block, top aluminium alloy glass fixture, bottom aluminium alloy glass fixture, aluminium corner code; Described variable cross-section Aluminum alloy column is solid post;
Wherein, described aluminium alloys Connection Block is fixed on building floor; The bottom of described variable cross-section Aluminum alloy column is welded on described aluminium alloys Connection Block by aluminium, utilizes screw to pass the bottom of Aluminum alloy column and described aluminium alloys Connection Block, so that described variable cross-section Aluminum alloy column is fixed on described aluminium alloys Connection Block simultaneously;
The top of described variable cross-section Aluminum alloy column is screwed described top aluminium alloy glass fixture, described aluminium alloys handrail is fixed on described top aluminium alloy glass fixture by screw again, thus described variable cross-section Aluminum alloy column and described aluminium alloys handrail is fixed;
Be screwed described aluminium corner code bottom the glass mating face of described variable cross-section Aluminum alloy column, described aluminium corner code fixed described bottom aluminium alloy glass fixture;
After fixing, described top aluminium alloy glass fixture is corresponding with the installing port of described bottom aluminium alloy glass fixture, thus described glass is installed between described top aluminium alloy glass fixture and described bottom aluminium alloy glass fixture.
Preferably, described top aluminium alloy glass fixture comprises flat part, stretches out downward vertically and the be mutually symmetrical two pieces of side plates arranged and the connecting portion up stretched out from described flat part from described flat part;
For gripping described glass between described two pieces of side plates; Screw passes the top of described flat part and described variable cross-section Aluminum alloy column, thus described top aluminium alloy glass fixture is fixed on described variable cross-section Aluminum alloy column; The inner chamber of described aluminium alloys handrail is provided with the intermediate membrane adapted to described connecting portion, and described aluminium alloys handrail through described connecting portion and described intermediate membrane, thus is fixed on described top aluminium alloy glass fixture by screw.
Preferably, the flat part position of the described top aluminium alloy glass fixture after the installation of described aluminium alloys handrail correspondence is provided with opening, is provided with the aluminium alloys buckle closure coordinated with described opening corresponding to described opening; The flat part of described top aluminium alloy glass fixture and described aluminium alloys buckle closure be respectively equipped with identical and can with the fastening structure of described opening adaptation, thus make described aluminium alloys buckle closure can detain over said opening and cover described opening.
Preferably, described aluminium corner code comprises the first aluminium sheet perpendicular to one another and the second aluminium sheet, and described first aluminium sheet is close to described variable cross-section Aluminum alloy column and is fixed, and described second aluminium sheet stretches out outward from described variable cross-section Aluminum alloy column;
Described bottom aluminium alloy glass fixture comprises base plate and to be vertically fixed on described base plate and symmetrically arranged two blocks of side plates, the medial surface of described two blocks of side plates inwardly stretches out separately one piece of corresponding limiting plate near the position of described base plate, between two pieces of described limiting plates and described base plate, define the stopper slot passed for described second aluminium sheet; Described second aluminium sheet is through described stopper slot is fixed by the base plate of screw by described second aluminium sheet and described bottom aluminum plate glass alloy fixture.
As an embodiment, described aluminium alloys Connection Block is Connection Block bottom aluminium alloys,
Bottom described aluminium alloys, Connection Block is fixed on building floor end face; The bottom terminal ends docking aluminium of described variable cross-section Aluminum alloy column is welded in bottom described aluminium alloys on Connection Block, and utilizes screw simultaneously through Connection Block bottom the bottom of described variable cross-section Aluminum alloy column and described aluminium alloys.
As an embodiment, described aluminium alloys Connection Block is aluminium alloys sidepiece Connection Block,
Described aluminium alloys sidepiece connects the side that base is fixed on building floor; The bottom end side face docking aluminium of described variable cross-section Aluminum alloy column is welded in described aluminium alloys sidepiece and connects on base, and utilizes screw simultaneously through Connection Block bottom the bottom of described variable cross-section Aluminum alloy column and described aluminium alloys.
Preferably, described aluminium alloys connects base and is fixed on building floor by swell fixture, described aluminium alloys connect base correspond to described swell fixture through place arrange can with the strip hole of described swell fixture adaptation, described strip hole is close to Connection Block bottom described aluminium alloys and arranges the aluminium alloys meson that the length of side is greater than described strip hole, described swell fixture is fixed on floor through described strip hole again through described aluminium alloys meson.
Preferably, connect on base at described aluminium alloys and be fixed with the biteplate that end face arranges tooth line, and the direction of described tooth line and the adjustable direction of described strip hole vertical; Accordingly, the tooth line coincide with the tooth line of described biteplate is provided with in the bottom surface of described aluminium alloys meson.
Beneficial effect of the present invention is: the column of aluminium keel variable cross-section glass balustrade is variable cross-section, and is solid, only needs surface spraying outside can to obtain good appearance effect; In addition, it adopts concealed design, and the attachment screw between fixture and keel is substantially all hidden, and appearance effect is good.The use of aluminium alloy joist material, reduces expense, economical and practical, can not corrode because of long-time; And being provided with the fastening devices of top, bottom (can be bottom or bottom side), stability is stronger.
Detailed description of the invention
Below in conjunction with accompanying drawing, introduce the preferred embodiments of the present invention in detail.
Fig. 1-Fig. 5 shows a preferred embodiment of the present invention.As Figure 1-Figure 5, the aluminium keel variable cross-section glass balustrade of this embodiment comprises Connection Block 40 bottom glass 10, aluminium alloys handrail 20, variable cross-section Aluminum alloy column 30, aluminium alloys, top aluminium alloy glass fixture 60, bottom aluminium alloy glass fixture 70, aluminium corner code 80.Wherein, variable cross-section Aluminum alloy column 30 is solid post.
Wherein, as Figure 1-Figure 5, the top of variable cross-section Aluminum alloy column 30 is screwed top aluminium alloy glass fixture 60, and top aluminium alloy glass fixture 60 is fixed on aluminium alloys handrail 20 by screw again, thus variable cross-section Aluminum alloy column 30 and aluminium alloys handrail 20 is fixed.
Concrete structure is as follows.
Top aluminium alloy glass fixture 60 comprises flat part 61, stretches out downward vertically and the two pieces of side plates 62,63 arranged that are mutually symmetrical from flat part 61, and from the connecting portion 64 that flat part 61 up stretches out.In the present embodiment, this connecting portion 64 is at a certain angle with flat part 61.Distance between these two pieces of side plates 62,63 is greater than the thickness of glass 10, and for gripping glass 10, the glass method of being adhesively fixed is prior art, does not tire out state at this.Top aluminium alloy glass fixture 60 through the top of flat part 61 with variable cross-section Aluminum alloy column 30, thus is fixed on variable cross-section Aluminum alloy column 30 by screw 65,66; As shown in Figure 3, the flat part of the top aluminium alloy glass fixture of the two fan glass 10 that column about 30 is fixing is connected, and covers on the top of column 30.
The inner chamber of aluminium alloys handrail 20 is provided with the intermediate membrane 21 adapted to connecting portion 64, screw 22 passes connecting portion 64 and this intermediate membrane 21 of top aluminium alloy glass fixture 60, thus the aluminium alloys handrail 20 snapped onto on top aluminium alloy glass fixture 60 is fixed on top aluminium alloy glass fixture 60, and fixed screw is hidden in the inner chamber of aluminium alloys handrail 20, is not emerging in surface.
Preferably, as Fig. 2 a, flat part 61 position of the top aluminium alloy glass fixture 60 after the installation of aluminium alloys handrail 20 correspondence is provided with opening 23, is provided with the aluminium alloys buckle closure 24 coordinated with opening 23 corresponding to opening 23.The flat part 61 of top aluminium alloy glass fixture 60 and aluminium alloys buckle closure 24 be respectively equipped with identical and can with the fastening structure of opening 23 adaptation, thus aluminium alloys buckle closure 24 can be buckled on opening 23 and cover opening 23.
Like this, aluminium alloys buckle closure 24 is buckled in the opening part of aluminium alloys handrail 20, and aluminium alloys handrail 20 is buckled in top aluminium alloy glass fixture 60 and is screwed.The components such as the screw of the connecting portion of top aluminium alloy glass fixture 60 and aluminium alloys handrail 20 and column 30 are hidden, and visual effect is better compared to existing technology, and stability is high.
The erection sequence of above-mentioned aluminium alloys handrail 20, aluminium alloys buckle closure 24, top aluminium alloy glass fixture 60, Aluminum alloy column 30 is: first top aluminium alloy glass fixture 60 screw 65,66 is fixed on Aluminum alloy column 30 top; Then aluminium alloys handrail 20 is buckled on top aluminium alloy glass fixture 60, and with screw 22, aluminium alloys handrail 20 and top aluminium alloy glass fixture 60 is fixed; Then buckle aluminium alloys buckle closure 24 at opening 23 place, position will be kept away with aluminium alloy glass fixture 60 overlapping in aluminium alloys buckle closure 24 end.
Wherein, as Figure 1-Figure 5, bottom the glass mating face of variable cross-section Aluminum alloy column 30, aluminium corner code 80 is fixed, solid bottom aluminium alloy glass fixture 70 again on aluminium corner code 80.
Concrete structure is as follows.
As Fig. 3, aluminium corner code 80 comprises in first aluminium sheet 81(Fig. 1 a perpendicular to one another and showing) and second aluminium sheet 82(Fig. 2 b in show), first aluminium sheet 81 is close to variable cross-section Aluminum alloy column 30 and is screwed, and the second aluminium sheet 82 stretches out outward from variable cross-section Aluminum alloy column 30.
Bottom aluminium alloy glass fixture 70 comprises base plate 71 and to be vertically fixed on base plate 71 and symmetrically arranged two blocks of side plates 72,73, two blocks of side plates 72,73 inwardly stretches out separately one piece of corresponding limiting plate 74 near the position of base plate 71, it is parallel with base plate 71 for 75().The stopper slot 700 passed for the second aluminium sheet 82 is defined between two pieces of limiting plates 74,75 and base plate 71.As shown in Figure 2 b, the second aluminium sheet 82 is passed stopper slot 700 and is fixed with the base plate 71 of bottom aluminium alloy glass fixture 70 by the second aluminium sheet 82 by screw 83.Like this, bottom aluminium alloy glass fixture 70 is just fixed in corner brace 80.Under this structure, limiting plate 74,75 is born mainly stressed, and the screw connected also is hidden, good visual effect.
Distance between above-mentioned two blocks of side plates 72,73 is greater than the thickness of glass 10, and to install in it by glass 10, glass 10 is installed as prior art in fixture 70, tiredly to state at this.Above-mentioned top aluminium alloy glass fixture 60 is corresponding with the installing port of bottom aluminium alloy glass fixture 70, thus glass 10 can be installed between two fixtures 60,70.
Wherein, as Figure 1-Figure 5, the bottom terminal ends of variable cross-section Aluminum alloy column 30 welds with aluminium with the docking mating face 400 of Connection Block bottom aluminium alloys 40; Simultaneously, for strengthening the stability connected, utilize 4 stainless steel screw 42(also can be other suitable number certainly in other embodiment of the present invention) longitudinally through bottom Connection Block bottom aluminium alloys 40 and Aluminum alloy column 30, docking engage and the power can born transversely to make both.After aluminium weldering welding, need to carry out weld to polish flat, then to total spray paint, to reach good visual effect.Bottom above-mentioned aluminium alloys, the connection of Connection Block 40 and Aluminum alloy column 30 and processing procedure are all carried out in factory, to ensure outward appearance and to accelerate site construction.
Wherein, as shown in Fig. 2-Fig. 4, bottom aluminium alloys, Connection Block 40 is fixed on building floor A again.Variable cross-section Aluminum alloy column 30 will keep perpendicular to connecting the fixing floor A of base 40 bottom aluminium alloys.
Preferably, as shown in Figure 5, connecting base 40 bottom aluminium alloys is fixed on building floor A by swell fixture 41, corresponding to swell fixture 41, the strip hole 410 with swell fixture 41 adaptation is set through place, strip hole 410 arranges the aluminium alloys meson 411 that the length of side is greater than strip hole 410, and swell fixture 41 is fixed on floor A through strip hole 410 again through aluminium alloys meson 411.
Preferably, its end face of biteplate 44(connecting end face line with tooth fixing with screw 43 on base 40 bottom aluminium alloys establishes full tooth line, only show the tooth line on four angles in the drawings adaptively), and the direction of tooth line is vertical with the adjustable direction of strip hole 410, to be engaged permanent position.Accordingly, the tooth line coincide with the tooth line of biteplate 44 is provided with in the bottom surface (with the binding face of biteplate 44) of aluminium alloys meson 411.Like this, connect base 40 bottom aluminium alloys can be adjusted to a certain extent relative to the permanent position of building floor A.
Introduce an alternative embodiment of the invention below.
Fig. 6-Fig. 8 shows second embodiment of the present invention, this embodiment and above-mentioned first embodiment unlike: used herein is that aluminium alloys sidepiece is connected base 50, replaces connecting base 40 bottom the aluminium alloys of first embodiment.
Wherein, as shown in Fig. 6, Fig. 7, Fig. 8, aluminium alloys sidepiece is connected base 50 and is fixed on construction wall B by expansion bolt 51.The bottom sidepiece docking aluminium of variable cross-section Aluminum alloy column 30 is welded in aluminium alloys sidepiece and connects on base, and makes variable cross-section Aluminum alloy column 30 be parallel to body of wall.Simultaneously, as shown in Figure 7, Figure 8, utilize 4 stainless steel screw 52(also can be other suitable number certainly in other embodiment of the present invention) connect base 50 through aluminium alloys sidepiece and penetrate into variable cross-section Aluminum alloy column 30 from sidepiece, to make both docking joints and junction can bear horizontal power, it is more firm to connect.
Other part-structures of this second embodiment are identical with first embodiment, are not repeated at this.
From upper, the keel of glass balustrade are aluminium alloys and make, and reduce expense, and prevent the corrosion that brings for a long time; Variable cross-section Aluminum alloy column adopts solid post, only needs can reach good variable cross-section visual effect at end-spray.And the connection of these keel and glass is reliable and stable.Column is substantially all hidden with the screw be connected between handrail, fixture, good visual effect.
Described above is only the preferred embodiments of the present invention, can not limit the scope of the invention with this.Any for equivalents of the present invention and replacement, all within protection scope of the present invention.