CN220414625U - Diamond surface aluminum plate unit type connecting system - Google Patents

Abstract

The application discloses diamond face aluminum plate unit formula connected system, including a plurality of diamond face aluminum plate units of array installation on the wall body, diamond face aluminum plate unit mainly includes unit fossil fragments, unit pendant, panel connecting piece and aluminum plate, aluminum plate adopts the rectangular plate to take the diagonal to turn over the dihedral angle plate structure that forms inwards as the broken line, and one side that aluminum plate turned over turns over the unit fossil fragments through panel connecting piece connection unit fossil fragments, and unit fossil fragments rethread unit pendant articulates on the wall body; the aluminum plates are distributed in an array mode in a horizontal row and a vertical column on the wall, and folding lines of two adjacent horizontal and vertical aluminum plates are all arranged in a crossed mode, so that the aluminum plates are arranged on the wall to form a rugged diamond-face curtain wall structure. The application adopts standard unit formula curtain skeleton system, through the angle and the business turn over conversion of panel connection spare, realizes the installation of diamond face aluminum plate unit curtain, simple structure, simple to operate, saving cost, promotion facade effect.

Description

Diamond surface aluminum plate unit type connecting system

Technical Field

The present application relates to a diamond face an aluminum plate unit type connecting system.

Background

In order to enrich the building effect, architects make the facade modeling of the curtain wall lively and lively, have stereoscopic impression and layering sense, and generally realize the required appearance effect by changing the installation angle of the curtain wall panel. The installation angle of curtain face board is different, and the angle that the crossbeam stand was put also can change thereupon, especially for the aluminum plate curtain of diamond face, the on-the-spot work load of assembling of fossil fragments, the panel of different angles is huge, still must guarantee that bump and concave point concatenation of every diamond face must be extra accurate, and this is not expected to be the bigger challenge to the construction. Therefore, not only is the engineering cost increased, but also the construction period is prolonged, so that the economic benefit is influenced, and the time is wasted.

Disclosure of Invention

The purpose of the application is to provide a diamond surface aluminum plate unit type connecting system aiming at the technical problems existing in the prior art.

The technical scheme adopted by the application is as follows:

the diamond-surface aluminum plate unit type connecting system comprises a plurality of diamond-surface aluminum plate units which are arranged on a wall body in an array manner, wherein each diamond-surface aluminum plate unit mainly comprises a unit keel, a unit hanging piece, a panel connecting piece and an aluminum plate, the aluminum plate is of a dihedral angle plate structure formed by adopting a rectangular plate to fold inwards by taking a diagonal line as a folding line, one side of the aluminum plate, which is folded, is connected with the unit keel through the panel connecting piece, and the unit keel is hung on the wall body through the unit hanging piece; the aluminum plates are distributed in an array mode in a horizontal row and a vertical column on the wall, and folding lines of two adjacent horizontal and vertical aluminum plates are all arranged in a crossed mode, so that the aluminum plates are arranged on the wall to form a rugged diamond-face curtain wall structure.

Further, the unit keels comprise two parallel upright posts, and cross beams are respectively arranged between the upper end side parts and the lower end side parts of the two upright posts; the aluminum plate is folded and one side is recorded as the inner side, the inner sides of the left vertical bevel edge and the right vertical bevel edge of the aluminum plate are respectively connected with the two upright posts through panel connecting pieces, and the inner sides of the upper transverse bevel edge and the lower transverse bevel edge of the aluminum plate are respectively connected with the cross beam through the panel connecting pieces.

Further, the left vertical bevel edge and the right vertical bevel edge of the aluminum plate are respectively provided with a first folded edge which is turned inwards, and the first folded edge is connected with the upright post through a panel connecting piece; the upper and lower horizontal oblique edges of aluminum plate are provided with the second hem that turns over inwards respectively, and the second hem passes through the panel connecting piece and is connected with the crossbeam again.

Still further, the panel connecting piece includes erects the connecting plate, and the stand is kept away from one side top-down of crossbeam and is set up a plurality of perpendicular connecting plates and is connected through the inboard of perpendicular hypotenuse that erects the connecting plate and correspond with aluminum plate, erects the connecting plate and is right trapezoid structure, and the right angle side of erects the connecting plate is connected with the stand, erects the oblique side of the opposite side of connecting plate and is connected with the inboard of the corresponding perpendicular hypotenuse of aluminum plate.

Furthermore, the front end of one side of the upright post far away from the cross beam is provided with a notch, one end of the vertical connecting plate is fixed on the side surface of the notch, and the other end of the vertical connecting plate is connected with the inner side of the vertical bevel edge corresponding to the aluminum plate.

Further, the panel connecting piece comprises a transverse connecting plate, one side of the transverse beam is provided with a plurality of transverse connecting plates from left to right and is connected with the inner side of the corresponding transverse oblique edge of the aluminum plate through the transverse connecting plates, the transverse connecting plate is of a right trapezoid structure, the right-angle side edge of the transverse connecting plate is connected with the transverse beam, and the oblique side edge of the opposite side of the transverse connecting plate is connected with the inner side of the corresponding transverse oblique edge of the aluminum plate; in the structure of the uppermost or lowermost diamond surface aluminum plate unit and the adjacent diamond surface aluminum plate units, the cross beams arranged on the side parts of the upper end and the side parts of the lower end of the upright post are an upper cross beam and a lower cross beam respectively, the upper end of the upper cross beam is provided with an inserting piece, the lower end of the lower cross beam is provided with a corresponding inserting groove, and when the upper adjacent two keel units and the lower adjacent keel units at the uppermost or lowermost position are installed close to each other, the inserting piece of the upper cross beam of the lower keel unit is inserted into the inserting groove of the lower cross beam of the adjacent upper keel unit so as to facilitate good positioning during the installation of the diamond surface aluminum plate units.

Further, in the diamond-surface aluminum plate unit arranged at the vertical middle position of the wall body, the cross beams arranged at the corresponding side parts of the stand columns are middle cross beams, and when the upper and lower adjacent two keel units arranged at the vertical middle position of the wall body are arranged close to each other, the end parts of the corresponding upper and lower adjacent two stand columns close to each other are connected and fixed together through the middle cross beams; the panel connecting piece comprises an attached frame connecting plate or an attached frame connecting plate and a connecting plate; the middle cross beam is connected with the inner sides of the transverse oblique edges of the corresponding upper and lower adjacent two aluminum plates sequentially through the connecting plates and the auxiliary frame connecting plates, or the middle cross beam is connected with the inner sides of the transverse oblique edges of the corresponding upper and lower adjacent two aluminum plates through the auxiliary frame connecting plates.

Further, through holes are uniformly distributed in the aluminum plate, and the through holes are hexagonal in shape.

Further, the unit hanging piece comprises a hanging hook arranged on one side, far away from the aluminum plate, of the upright post.

Further, when two adjacent keel units are installed close to each other, decorative adhesive tapes are arranged between the transverse oblique sides or the vertical oblique sides of two adjacent aluminum plates.

Compared with the prior art, the beneficial effect that this application obtained is:

1) The device system of the utility model classifies the whole diamond face aluminum plate cell according to the rule through combining aluminum plate panel cell, finally with the construction of unit formula curtain design. The diamond aluminum plate unit forms can realize the installation of the diamond aluminum plate, and a factory only needs to manufacture one set of unit die, so that the waste of materials is avoided, the effect of the outer vertical surface is improved, and the economic benefit is improved.

2) The application adopts standard unit type curtain wall skeleton system, and through the angle and the business turn over conversion of panel connecting piece, realizes the installation of diamond face aluminum plate unit curtain wall.

3) The utility model has the advantages of simple structure, simple to operate, saving cost, promote the facade effect.

Drawings

FIG. 1 is an elevation view of an integrated masonry panel block after installation of the diamond-faced aluminum plate unit connection system of the present application;

FIG. 2 is a cross-sectional top view of the masonry panel block of FIG. 1;

FIG. 3 is an enlarged view of the left portion of FIG. 2;

FIG. 4 is an enlarged view of the right portion of FIG. 2;

FIG. 5 is one of the vertical cross-sectional side views of the masonry panel block of FIG. 1;

FIG. 6 is a schematic view of the connection structure of the vertical bevel edge and the upright post of the aluminum plate;

FIG. 7 is a second vertical cross-sectional side view of the masonry panel block of FIG. 1;

FIG. 8 is a schematic structural view of a column;

FIG. 9 is a schematic view of the structure of the lower beam;

FIG. 10 is a schematic view of the structure of the upper cross member;

fig. 11 is a schematic structural view of the middle cross member.

Description of the embodiments

The utility model will be further illustrated with reference to specific examples, but the scope of the utility model is not limited thereto.

In the description of the present utility model, it should be understood that the terms "longitudinal," "transverse," "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or imply that the devices or elements being referred to are in a simplified form, but are not necessarily oriented, configured or operated in a particular orientation, and are not intended to limit the utility model. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present utility model, unless otherwise indicated, the meaning of "a plurality" is two or more.

Examples: reference is made to FIGS. 1-11

A diamond face aluminum plate unit formula connected system, contrast figure 1, including a plurality of diamond face aluminum plate units of array installation on the wall body, diamond face aluminum plate unit mainly includes unit fossil fragments, unit pendant, panel connecting piece and aluminum plate 2, and aluminum plate 2 adopts the rectangular plate to use the diagonal to turn over the dihedral angle plate structure that forms as the broken line inwards, and evenly distributed has the through-hole on the aluminum plate 2, and the shape of through-hole is the hexagon, and aluminum plate 2 is dysmorphism perforation aluminum plate. When the aluminum plate 2 is installed on a wall, one side of the aluminum plate 2, which is folded, is connected with a unit keel through a panel connecting piece, and the unit keel is hung on the wall through a unit hanging piece.

Referring to fig. 1, the aluminum plates 2 in the application are distributed in an array form in a horizontal row and a vertical row on a wall, wherein the horizontal row and the vertical row refer to that the aluminum plates 2 are distributed in a plurality of rows in the horizontal direction and in a plurality of columns in the vertical direction, so that rectangular array distribution is formed together. The folding lines of two adjacent aluminum plates 2 in the transverse direction and the vertical direction are all arranged in a crossing way, so that the aluminum plates 2 are arranged on the wall body to form a convex-concave diamond-surface curtain wall structure.

In contrast to fig. 2 and 5, the unit hanger includes a hook 3 provided at a side of the column 1 remote from the aluminum plate 2, and the column 1 is hung in a corresponding structure of the wall body by the hook 3.

Referring to fig. 2-4, the element keel in the present application comprises two parallel aligned uprights 1, with a cross member 4 disposed between the upper and lower sides of the two uprights 1, respectively. The side of turning over with aluminum plate 2 is recorded as the inboard, and the inboard of two perpendicular hypotenuses about aluminum plate 2 respectively through the panel connecting piece with two stand 1 are connected, the inboard of two upper and lower horizontal hypotenuses of aluminum plate 2 is connected with crossbeam 4 through the panel connecting piece respectively.

In order to facilitate the connection of the aluminum plate 2, the left vertical bevel edge and the right vertical bevel edge of the aluminum plate 2 are respectively provided with a first folded edge 21 which is turned inwards, and the first folded edge 21 is connected with the upright post 1 through a panel connecting piece; the upper and lower two horizontal oblique edges of aluminum plate 2 are provided with the second flange 22 that turns over inwards respectively, and second flange 22 passes through the panel connecting piece and is connected with crossbeam 4 again.

Referring to fig. 5-7, the panel connecting piece of the present application includes a vertical connecting plate 5, one side top-down that beam 4 was kept away from to stand 1 sets up a plurality of vertical connecting plates 5 and is connected through the first hem 21 that turns over to the inboard of the corresponding perpendicular hypotenuse of vertical connecting plate 5 and aluminum plate 2, and vertical connecting plate 5 is right trapezoid structure, and the right angle side of vertical connecting plate 5 is connected with stand 1, and the oblique side of the opposite side of vertical connecting plate 5 is connected with the first hem 21 that turns over to the inboard of the corresponding perpendicular hypotenuse of aluminum plate 2.

Because the aluminum plate 2 is of a dihedral angle plate structure, the length of the vertical bevel edge of the aluminum plate 2 from the upright post 1 is changed from top to bottom, so that the connection length of the vertical connection plates 5 at different positions between the upright post 1 and the aluminum plate 2 is correspondingly changed in comparison with fig. 5 and 6.

In contrast to fig. 3, 4 and 8, the front end of the side of the upright 1 far from the cross beam 4 is provided with a notch 11, one end of the vertical connecting plate 5 is fixed on the side surface of the notch 11, and the other end of the vertical connecting plate 5 is connected with the inner side of the corresponding vertical bevel edge of the aluminum plate 2. The notch 11 is provided to enable the vertical connecting plate 5 to be slightly retracted into the inner side of the upright post 1 for hooking, so that when two diamond-surface aluminum plate units are installed and close, the space for the two units is saved, the lateral force is resisted, and the structural stability is ensured.

Fig. 5 shows a schematic diagram of the connection structure of the uppermost or lowermost diamond-faced aluminum sheet unit and its adjacent diamond-faced aluminum sheet units. Referring to fig. 5 and 6, which show the structures of the uppermost or lowermost diamond-faced aluminum sheet unit installed in a wall and the adjacent diamond-faced aluminum sheet units thereof, it can be seen that: the crossbeam that lower extreme lateral part of stand 1 of upper keel unit set up is the bottom end beam 41, and the crossbeam that upper end lateral part of stand 1 of lower keel unit adjacent thereto set up is the top end beam 42, and the upper end of top end beam 42 sets up the plug-in components, and the lower extreme of bottom end beam 41 sets up corresponding slot, and when two upper and lower adjacent keel units installation were close to, the plug-in components of the top end beam 42 of lower floor keel unit were inserted in the slot of the bottom end beam 41 of adjacent upper keel unit to good location when diamond face aluminum plate unit was installed.

When for fig. 5 and 6 the structure, the panel connecting piece of this application still includes cross connecting plate 6, and one side of crossbeam 4 sets up a plurality of cross connecting plates 6 from left and right and is connected through the inboard of the corresponding cross bevel of cross connecting plate 6 and aluminum plate 2, and cross connecting plate 6 is right trapezoid structure, and the right angle side of cross connecting plate 6 is connected with crossbeam 4, and the oblique side of the opposite side of cross connecting plate 6 is connected with the second folded edge 22 of the corresponding cross bevel of aluminum plate 2 of inwards turning over. That is, according to the structure shown in fig. 5 to 6, the cross member connecting the cross-web 6 is either the upper cross member 42 or the lower cross member 41.

Fig. 7 is a schematic diagram showing a connection structure of a diamond-faced aluminum plate unit installed at a vertical middle position of a wall body. According to the construction shown in fig. 7, the cross members provided at the respective side portions of the columns 1 are middle cross members 43, and when the upper and lower adjacent keel units at the vertically intermediate positions of the installed wall are installed close to each other, the end portions of the respective upper and lower adjacent columns 1 close to each other are connected and fixed together by the middle cross members 43.

In the case of the structure shown in fig. 7, the panel connector of the present application includes an attached frame connecting plate 8 or an attached frame connecting plate 8 and a connecting plate 7. The middle cross beam 43 is connected with the inner sides of the transverse oblique edges of the corresponding upper and lower adjacent two aluminum plates 2 sequentially through the connecting plates 7 and the auxiliary frame connecting plates 8, or the middle cross beam 43 is connected with the inner sides of the transverse oblique edges of the corresponding upper and lower adjacent two aluminum plates 2 through the auxiliary frame connecting plates 8.

Since the aluminum plate 2 has a dihedral plate structure, the length of the hypotenuse of the aluminum plate 2 from the middle cross member 43 varies. When the length of the transverse oblique sides of the aluminum plates 2 from the middle cross beam 43 is minimum, the middle cross beam 43 is connected with the inner sides of the transverse oblique sides of the corresponding upper and lower adjacent two aluminum plates 2 through the auxiliary frame connecting plates 8. When the length of the transverse oblique sides of the aluminum plates 2 is larger than that of the middle cross beam 43, the middle cross beam 43 is connected with the inner sides of the transverse oblique sides of the corresponding upper and lower adjacent aluminum plates 2 sequentially through the connecting plates 7 and the auxiliary frame connecting plates 8, and the lengths of the connecting plates 7 at different positions can be correspondingly adjusted.

Further, when two adjacent keel units are installed close to each other, decorative adhesive tapes are arranged between the transverse oblique sides or the vertical oblique sides of two adjacent aluminum plates 2.

When the device system of the application is installed, after the unit frame is assembled by a processing plant, the panel connecting piece is sequentially installed at the corresponding positions of the cross beam and the upright post according to the number to fix nailing, then the panel is installed at the corresponding position according to a given angle to fix nailing (see fig. 2-7), and the aluminum plate unit is sent to a construction site to be hung after being assembled. The width of each single plate is 1/2 of the diamond face width, namely, at least 2 adjacent plates can form a complete diamond face, and the plates are sequentially arranged according to a given sequence to form a plurality of diamond faces.

The upper and lower layers of unit plates are spliced by the upper and lower cross beams to realize unification of the concave points and the convex points of the diamond surface (see figure 5).

What has been described in this specification is merely an enumeration of possible forms of implementation for the inventive concept and may not be considered limiting of the scope of the present utility model to the specific forms set forth in the examples.

Claims (10)

1. The diamond-surface aluminum plate unit type connecting system is characterized by comprising a plurality of diamond-surface aluminum plate units which are arranged on a wall body in an array manner, wherein each diamond-surface aluminum plate unit mainly comprises a unit keel, a unit hanging piece, a panel connecting piece and an aluminum plate (2), the aluminum plate (2) is a dihedral angle plate structure formed by adopting a rectangular plate to be folded inwards by taking a diagonal line as a folding line, one side of the aluminum plate (2) folded is connected with the unit keel through the panel connecting piece, and the unit keel is hung on the wall body through the unit hanging piece; the aluminum plates (2) are distributed in an array mode in a horizontal row and a vertical column on the wall, and folding lines of two adjacent horizontal and vertical aluminum plates (2) are arranged in a crossed mode, so that the aluminum plates (2) are arranged on the wall to form a rugged diamond-surface curtain wall structure.

2. A diamond-faced aluminum plate cell type connection system according to claim 1, wherein said cell keel comprises two parallel aligned columns (1), wherein a cross beam (4) is provided between upper end side portions and between lower end side portions of said two columns (1), respectively; one side of the aluminum plate (2) is used as the inner side, the inner sides of the left vertical bevel edge and the right vertical bevel edge of the aluminum plate (2) are respectively connected with the two upright posts (1) through panel connecting pieces, and the inner sides of the upper transverse bevel edge and the lower transverse bevel edge of the aluminum plate (2) are respectively connected with the cross beam (4) through panel connecting pieces.

3. The diamond-surface aluminum plate unit type connecting system according to claim 2, wherein the left and right vertical oblique sides of the aluminum plate (2) are respectively provided with a first folded edge (21) which is turned inwards, and the first folded edge (21) is connected with the upright post (1) through a panel connecting piece; the upper and lower transverse oblique edges of the aluminum plate (2) are respectively provided with a second folded edge (22) which is turned inwards, and the second folded edge (22) is connected with the transverse beam (4) through a panel connecting piece.

4. A diamond-faced aluminium plate unit connection system according to claim 2, characterized in that the panel connection member comprises a vertical connection plate (5), one side of the vertical column (1) far away from the cross beam (4) is provided with a plurality of vertical connection plates (5) from top to bottom and is connected with the inner side of the corresponding vertical side edge of the aluminium plate (2) through the vertical connection plates (5), the vertical connection plates (5) are of right trapezoid structure, the right-angled side edge of the vertical connection plates (5) is connected with the vertical column (1), and the inclined side edge of the opposite side of the vertical connection plates (5) is connected with the inner side of the corresponding vertical side edge of the aluminium plate (2).

5. A diamond-faced aluminum plate unit type connecting system as claimed in claim 4, wherein the front end of one side of the upright post (1) far away from the cross beam (4) is provided with a notch (11), one end of the vertical connecting plate (5) is fixed on the side surface of the notch (11), and the other end of the vertical connecting plate (5) is connected with the inner side of the corresponding vertical bevel edge of the aluminum plate (2).

6. A diamond-faced aluminum plate unit connection system according to claim 2, characterized in that the panel connection member comprises a cross connection plate (6), wherein a plurality of cross connection plates (6) are arranged on one side of the cross beam (4) from left to right and are connected with the inner sides of the corresponding cross oblique sides of the aluminum plate (2) through the cross connection plates (6), the cross connection plates (6) are of right trapezoid structures, the right-angled side edges of the cross connection plates (6) are connected with the cross beam (4), and the oblique side edges of the opposite side of the cross connection plates (6) are connected with the inner sides of the corresponding cross oblique sides of the aluminum plate (2);

in the structure of the uppermost or lowermost diamond surface aluminum plate unit and the adjacent diamond surface aluminum plate units, the lateral parts of the upper end and the lateral parts of the lower end of the upright post (1) are respectively an upper cross beam (42) and a lower cross beam (41), the upper end of the upper cross beam (42) is provided with an insert, the lower end of the lower cross beam (41) is provided with a corresponding slot, and when the upper adjacent two keel units and the lower adjacent keel units at the uppermost or lowermost position are installed close to each other, the insert of the upper cross beam (42) of the lower keel unit is inserted into the slot of the lower cross beam (41) of the adjacent upper keel unit so as to facilitate good positioning during the installation of the diamond surface aluminum plate units.

7. A diamond-faced aluminum plate unit connecting system as claimed in claim 2, characterized in that in the diamond-faced aluminum plate unit installed in the vertical middle position of the wall, the cross beams provided on the corresponding side parts of the upright posts (1) are middle cross beams (43), when the upper and lower adjacent two keel units installed in the vertical middle position of the wall are installed close, the end parts of the corresponding upper and lower adjacent two upright posts (1) close to each other are connected and fixed together through the middle cross beams (43);

the panel connecting piece comprises an auxiliary frame connecting plate (8) or an auxiliary frame connecting plate (8) and a connecting plate (7);

the middle cross beam (43) is connected with the inner sides of the transverse oblique edges of the corresponding upper and lower adjacent two aluminum plates (2) sequentially through the connecting plates (7) and the auxiliary frame connecting plates (8), or the middle cross beam (43) is connected with the inner sides of the transverse oblique edges of the corresponding upper and lower adjacent two aluminum plates (2) through the auxiliary frame connecting plates (8).

8. A diamond-faced aluminum plate unit connection system as claimed in claim 1, characterized in that the aluminum plate (2) is uniformly distributed with through holes in the shape of a hexagon.

9. A diamond faced aluminum plate cell type connection system as defined in claim 2 wherein said

The unit hanging piece comprises a hanging hook (3) arranged on one side of the upright post (1) far away from the aluminum plate (2).

10. A diamond faced aluminum plate cell type joint system according to claim 2 wherein decorative strips are provided between the transverse or vertical oblique edges of adjacent two aluminum plates (2) when the adjacent two keel cells are installed in proximity.