CN111219009A - Mounting structure and mounting method for arc-shaped aluminum profile modeling - Google Patents

Abstract

The invention discloses a mounting structure for an arc-shaped aluminum profile model, which comprises: the aluminum profile is divided into a decorative surface and a back surface; a roof to be decorated; the suspended ceiling framework structure comprises a main keel, a secondary keel, a hanging piece assembly and a keel connecting piece, and is used for hanging and supporting an aluminum profile; veneer coupling assembling sets up at the aluminium alloy back, including sliding body and sliding body connecting piece. The beneficial effect of adopting above-mentioned technical scheme is: through setting up full-scale sliding body at the aluminium alloy back, strengthened the bulk rigidity and the intensity of aluminium alloy, the setting of sliding body in addition is in more reasonable region, forms a atress, has eliminated concentrated stress, and effectual control big edition of books vice aluminium alloy installation completion back, the phenomenon of warping down the page of a whole page has ensured the figurative furred ceiling effect of arc that the arc formed is pieced together to the aluminium alloy broken line.

Description

Mounting structure and mounting method for arc-shaped aluminum profile modeling

Technical Field

The invention relates to the technical field of architectural decoration, in particular to an installation structure and an installation method for an arc-shaped aluminum profile.

Background

With the development of economy, the number of special-shaped buildings in large public places such as stadiums, exhibition centers, railway stations and airports is increasing, the shape of arc-shaped aluminum profiles in architectural decoration large stadiums is more and more favored by people, the ceiling with curved surface aesthetic feeling is not good enough in ceiling effect, the aluminum profiles are light in weight and high in strength, and therefore the aluminum profiles are widely applied increasingly to meet the vigorous market demands.

The aluminum profile has the advantages of light weight, good toughness, high strength and the like, is an ideal plate selection for large-scale engineering suspended ceilings, has extremely high recoverability, and has almost no difference from the original aluminum in the characteristics of the secondary aluminum.

Aluminium alloy furred ceiling system provides abundant selection from panel material, molding, installing the system to colour, surface treatment for the architect, can demonstrate abundant smallpox expression effect, has outstanding design freedom.

In prior art, the aluminium alloy carries out the furred ceiling as the decorative board, especially when single aluminium alloy size is great, because of selecting traditional mounting means, like traditional formula of colluding and two inner hook formulas etc. the span is great between the stress point, the phenomenon that the space of a whole page was downwarped exists after some aluminium alloy installation was accomplished, and the installation is fixed construction method loaded down with trivial details, the later maintenance is changed inconveniently, consequently, this technical field urgently needs one kind and prevents that the aluminium alloy space of a whole page is downwarped, the installation is simple, installation cost of labor and material cost are lower, and can independently dismantle the mounting structure of changing.

Disclosure of Invention

In order to solve the technical problems, the invention provides the mounting structure which can eliminate the situation that part of the aluminum profile is downwarped, is simple to mount and high in economy and can be independently dismounted and replaced.

In order to achieve the purpose, the technical scheme of the invention is as follows:

a mounting structure for an arc-shaped aluminum profile comprises: an aluminum profile; a roof to be decorated; the ceiling framework structure comprises a main keel, a secondary keel, a hanging piece assembly and keel connecting pieces, wherein the main keel is fixed below the roof to be decorated in parallel through the hanging piece assembly and used for bearing the weight of the aluminum plate ceiling system, and the secondary keel is perpendicular to the main keel, hung below the main keel through the keel connecting pieces and used for hanging and supporting the aluminum profiles; decorative panel coupling assembling sets up the aluminium alloy back, including sliding body and sliding body connecting piece, the stick the aluminium alloy is equipped with two mutual parallels and uses the sliding body of aluminium alloy central line symmetry, two the sliding body is close to respectively on the aluminium alloy with the parallel terminal surface of sliding body length direction, and passes through the sliding body connecting piece with the aluminium alloy is connected fixedly, the length direction of sliding body with the figurative curved surface generating line of arc aluminium alloy is parallel, the curved surface generating line is for constituting the line of action of curved surface, the sliding body both ends do not all exceed the corresponding side of aluminium alloy sliding direction.

The beneficial effect of adopting above-mentioned technical scheme is: according to the characteristic of jumbo size monomer aluminium alloy and constitute the figurative requirement of arc, through set up the sliding body of full size at the aluminium alloy back, in easy to assemble, the bulk rigidity and the intensity of aluminium alloy have been strengthened, the setting of sliding body is in the position that is close to the aluminum plate both ends in addition, arrange stress point in more reasonable region, and form the face atress, compare with the point atress in the traditional hoist and mount mode, the concentrated stress has been eliminated in the face atress, effectual control jumbo size aluminium alloy installation completion back, the phenomenon of partial aluminium alloy space of a whole page downwarping, the injecing of sliding body direction simultaneously, the figurative furred ceiling effect of arc that the arc formed has been pieced together to the aluminium alloy broken line has been ensured.

As a further improvement of the invention, the auxiliary keel is a Z-shaped auxiliary keel, the Z-shaped auxiliary keel is divided into an upper flat section, a vertical section and a lower flat section, the auxiliary keel is connected with the keel connecting piece in an inserting way through the upper flat section, the vertical section is provided with a full-length groove punched along the length direction, the opening of the groove faces to one side of the lower flat section, the tail end of the lower flat section is bent upwards to form a right-angle folded edge, the keel connecting piece is divided into a rectangular groove section and a vertical plate, the shape of the inner space of the rectangular groove section is matched with the shape of the main keel, the vertical plate is vertically fixed on the bottom plane of the rectangular groove section along the length direction of the rectangular groove section, the vertical plate is provided with a notch which is matched with the shape of the cross section of the upper flat section of the auxiliary keel and is parallel to the bottom plane of the rectangular groove section, and the keel, and the upper flat section of the auxiliary keel is clamped through the vertical plate.

The beneficial effect of adopting above-mentioned technical scheme is: the keel connecting piece is simple in structure, the installation steps of the auxiliary keel are few, the upper flat section is directly clamped into the opening in the vertical plate of the keel connecting piece, the keel connecting piece is convenient and quick, and the installation time can be effectively saved.

As a further improvement of the invention, the cross section of the main keel is T-shaped or H-shaped, and comprises a main waist plate in the vertical direction and a bottom plate perpendicularly intersecting with the lower end of the main waist plate, the false keel is an H-shaped false keel and comprises a false top plate, a false bottom plate and a false waist plate perpendicularly intersecting with both the false top plate and the false bottom plate, the keel connecting piece comprises an elastic adjusting chuck and a connecting column, the two elastic adjusting chucks are fixedly connected through the connecting column, the projections of the elastic adjusting chucks in the central line direction of the connecting column are perpendicular to each other, the cross section of the elastic adjusting chuck is a T-shaped groove, and the notch of the T-shaped groove is adjusted through a built-in elastic element to be clamped into the bottom plate of the main keel or the top plate of the false keel.

The beneficial effect of adopting above-mentioned technical scheme is: the centre of gravity is realized perpendicular collineation with being connected of main joist to the false keel, avoids producing the connection in-process, and the different degree that can avoid false keel and main joist to exist warp because of the rotatory torsion that the focus skew formed between the main and false keels to the life of fossil fragments has been prolonged.

As a further improvement of the invention, the keel connecting piece further comprises a connecting column extension section and a threaded sleeve, wherein external threads are arranged at one ends of the connecting column and the connecting column extension section close to each other, internal threads matched with the connecting column and the connecting column extension section are respectively arranged at two ends of the threaded sleeve, one end of the connecting column extension section is connected with the threaded end of the connecting column through the threaded sleeve, the other end of the connecting column extension section is fixedly connected with the bottom of the elastic adjusting chuck, and the relative angle of the elastic adjusting chuck is unchanged.

The beneficial effect of adopting above-mentioned technical scheme is: the introduction of screw sleeve will be originally the fossil fragments connecting piece that length is fixed and optimize the fossil fragments connecting piece that length adjustable, greatly reduced the requirement of mounting height size precision, can further accelerate the construction progress in earlier stage, and to the non-planar furred ceiling condition such as arc molding, length adjustable's function is especially important.

As a further improvement of the present invention, the keel connecting piece further comprises a telescopic rod and a fastening knob, wherein the telescopic rod is adjusted to a predetermined length according to requirements and is locked by the fastening knob.

The beneficial effect of adopting above-mentioned technical scheme is: the mode that establishes the spliced pole in the fossil fragments connecting piece into the telescopic link and adds the fastening knob can realize length adjustable purpose equally to make things convenient for the adjustment of later stage furred ceiling height.

As a further improvement of the present invention, the sliding body connecting piece is made of an adhesive, and the sliding body is fixed to the predetermined position on the back surface of the aluminum profile by the adhesive.

The beneficial effect of adopting above-mentioned technical scheme is: because of the aluminium alloy quality is lighter, need not to adopt the great screw thread of bearing load, connection modes such as welding with the connection of sliding body, directly adopt the viscose bonding can, convenient and fast can effectively reduce the mounting material cost.

As a further improvement of the invention, the sliding body is a special-shaped structural part and is divided into a horizontal fixing section at the bottom, a vertical connecting section in the middle and a horizontal hooking section at the upper part, the horizontal fixing section is fixedly connected with the back of the aluminum section, and the tail end of the horizontal hooking section is provided with a downward bent non-return barrier strip.

The beneficial effect of adopting above-mentioned technical scheme is: the sliding body structure is relatively simple, is matched with the lower end hanging part of the auxiliary keel, and is low in processing cost while meeting the requirement of quick installation.

As a further improvement of the invention, the veneer connecting assembly further comprises guide rails, the two guide rails are arranged on two sides of the back of the aluminum profile along the direction perpendicular to the sliding body, and the sliding body is provided with through holes and is fixed on the guide rails through T-shaped threaded fasteners.

The beneficial effect of adopting above-mentioned technical scheme is: the guide rail is introduced into the sliding body connecting piece, the original fixed and unchangeable sliding body interval is optimized to be adjustable while the rigidity of the aluminum profile is enhanced, the situation that the installation of individual sliding bodies is unchanged due to the fact that the fixed positions are not proper can be avoided, the hanging installation of the aluminum profile is further facilitated, and the construction difficulty can be effectively reduced.

As a further improvement of the invention, the sliding body comprises a synchronous supporting frame and an elastic opening clamp, the synchronous supporting frame spans two guide rails to support the elastic opening clamp, the elastic opening clamp comprises a movable rod, a middle connecting rod, a main hinge fulcrum and an auxiliary hinge fulcrum, the movable rod is divided into a starting end, a middle part and a tail end, the starting end is provided with a main hinge fulcrum hole, the middle part is provided with an auxiliary hinge fulcrum hole, the tail end is provided with a clamping hook which is folded inwards, the two movable rods are symmetrically connected through the main hinge fulcrum, the clamping hook openings of the movable rods are opposite in direction, two ends of the middle connecting rod are fixedly connected with the middle part of the movable rod through the auxiliary hinge fulcrum, when two ends of the middle connecting rod are subjected to tensile force, the two ends of the middle connecting rod can be alternately extended and shortened through a built-in elastic element, and the middle connecting rod is driven by the telescopic action of the middle connecting rod, the opening of the elastic opening clamp alternately has a large opening and a small opening, and the width of the auxiliary bottom plate of the auxiliary keel is larger than that of the small opening of the elastic opening clamp and smaller than that of the large opening of the elastic opening clamp.

The beneficial effect of adopting above-mentioned technical scheme is: the elastic opening clamp is arranged to provide another hanging mode for the aluminum section, namely, the opening of the elastic opening clamp at the back of the aluminum section is aligned to the auxiliary bottom plate of the I-shaped auxiliary keel and is pressed upwards, the auxiliary bottom plate is utilized to stretch the movable rod of the elastic opening clamp to apply tension to the connecting rod, and the aim of hanging or separating the sliding body connecting piece and the auxiliary keel is fulfilled by extending or shortening the connecting rod.

As a still further improvement of the present invention, the aluminum profile includes an aluminum plate, an aluminum square tube, etc., when the aluminum profile is the aluminum square tube, the sliding body includes an elastic opening clip, the elastic opening clip is directly connected with the guide rail in the sliding body connecting piece and is arranged along the length direction of the aluminum square tube, and the arrangement direction of the aluminum square tube is consistent with the length direction of the auxiliary keel.

The beneficial effect of adopting above-mentioned technical scheme is: when the elastic opening clamp is applied to the aluminum square tube, the aluminum square tube can be conveniently detached and installed, and particularly, when only a single aluminum square tube needs to be detached, the advantage of the installation mode that the elastic opening clamp brings about hanging connection or separation by pressing is more obvious compared with the installation mode that the aluminum square tube is hoisted by a screw.

An installation method for an arc-shaped aluminum profile comprises the following steps:

the method comprises the following steps: the mounting position and the spacing line of the main keel are defined on the roof to be decorated, and a suspended ceiling height line is popped up;

step two: installing the hanging piece assembly and laying the main keel;

step three: installing the keel connecting piece and hanging the auxiliary keel;

step four: adjusting the heights of the auxiliary keels in different areas according to the radian requirement of the arc-shaped aluminum profile;

step five: fixing the sliding body at a designated position of the aluminum profile through the sliding body connecting piece;

step six: and hanging the aluminum profiles in sequence to finish installation.

The beneficial effect of adopting above-mentioned technical scheme is: the standardization of the installation method effectively standardizes the installation procedure of the arc-shaped aluminum profile modeling, is convenient to ensure the stability and the uniformity of the installation quality of the aluminum profile suspended ceiling, and reduces the influence of constructors on the construction quality due to the difference of technical levels.

As a still further improvement of the present invention, the arc-shaped aluminum profile includes the mounting structure according to any one of the above technical solutions.

The beneficial effect of adopting above-mentioned technical scheme is: the arc aluminium alloy molding adopts any one of above-mentioned technical scheme to carry out the installation, and the homoenergetic avoids decorating the aluminium alloy and appears the phenomenon that the space of a whole page downwarps because of the monomer size is great, and the installation procedure is simple, and the efficiency of construction is higher, and later maintenance overhauls and changes more conveniently.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

Fig. 1 is a schematic view 1 of the aluminum profile mounting structure of the present invention.

Fig. 2 is a schematic view 2 of the aluminum profile mounting structure of the present invention.

Figure 3 is a schematic view of the keel connector structure of the invention 1.

Figure 4 is a schematic view of the keel connector structure of the invention 2.

Figure 5 is a schematic view of the keel connector structure of the invention 3.

Fig. 6 is a schematic view of a sliding body structure of the veneer connecting assembly according to the present invention.

Fig. 7 is a schematic view of an aluminum square tube installation structure of the present invention.

The corresponding component names represented by numbers and letters in the figures are as follows:

an aluminum profile 1; an aluminum square tube 1 a; a roof 2 to be decorated; a suspended ceiling framework structure 3; a main runner 31; (type C) main runner 31 a; (H-type) main runners 31 b; the cross runners 32; a (Z-shaped) false keel 32 a; a (H-shaped) furring channel 32 b; a hanger assembly 33; a keel connector 34; a (plug-in) keel connector 34 a; a (snap-in) keel connector 34 b; (screw adjustment) keel connectors 34 c; (telescoping adjustment) keel connectors 34 d; an elastic adjustment chuck 341; a connecting post 342; a connecting post extension segment 343; a threaded sleeve 344; an extension rod 345; a tightening knob 346; a veneer connecting assembly 4; a slider 41; a synchronous support frame 411; a resilient open clamp 412; a movable lever 4121; an intermediate connecting rod 4122; a main hinge support shaft 4123; a sub hinge fulcrum 4124; a slider connection member 42; a guide rail 43.

Detailed Description

In order to facilitate an understanding of the invention, the invention will be described more fully and in detail below with reference to the accompanying drawings and preferred embodiments, but the scope of the invention is not limited to the specific embodiments below. It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

In order to realize the purpose of the invention, the technical scheme provided by the invention is as follows:

as shown in fig. 1, a mounting structure for an arc-shaped aluminum profile includes: an aluminum profile 1; a roof 2 to be decorated; the suspended ceiling framework structure 3 comprises a main keel 31, a secondary keel 32, a hanging piece assembly 33 and a keel connecting piece 34, wherein the main keel 31 is fixed below the roof 2 to be decorated in parallel through the hanging piece assembly 33 and used for bearing the weight of an aluminum plate suspended ceiling system, and the secondary keel 32 is perpendicular to the main keel 31, hung below the main keel 31 through the keel connecting piece 34 and used for hanging and supporting the aluminum profile 1; veneer coupling assembling 4, the setting is at the aluminium alloy 1 back, including sliding body 41 and sliding body connecting piece 42, single aluminium alloy 1 is equipped with two sliding body 41 that are parallel to each other and use aluminium alloy central line symmetry, two sliding body 41 are close to the terminal surface parallel with sliding body 41 length direction on the aluminium alloy 1 respectively, and be connected fixedly through sliding body connecting piece 42 and aluminium alloy 1, the length direction of sliding body 41 is parallel with the figurative curved surface generating line of arc aluminium alloy, the curved surface generating line is for constituting the line of action of curved surface, sliding body 41 both ends do not all exceed the corresponding side of aluminium alloy 1 sliding direction.

The beneficial effect of adopting above-mentioned technical scheme is: according to the characteristic of jumbo size monomer aluminium alloy and constitute the figurative requirement of arc, through the sliding body that sets up full size at the aluminium alloy back, in easy to assemble, the bulk rigidity and the intensity of aluminium alloy have been strengthened, the setting of sliding body is in the position that is close to the aluminum plate both ends in addition, arrange stress point in more reasonable region, and form the face atress, compare with the point atress in the traditional hoist and mount mode, the concentrated stress has been eliminated in the face atress, effectual control big edition of books auxiliary aluminum plate installation completion after, the phenomenon of warping down the page of a whole page, the injecing of sliding body direction simultaneously, the figurative furred ceiling effect of arc that the arc formed has been pieced together to the aluminium alloy broken line has been ensured.

In other embodiments of the present invention, as also shown in fig. 1, the cross runner 32 is a Z-shaped cross runner 32a, the Z-shaped cross runner 32a is divided into an upper flat section, a vertical section and a lower flat section, the Z-shaped cross runner 32a is connected with a runner connector 34a in an inserting manner through the upper flat section, the vertical section is provided with a full-length groove punched along the length direction, an opening of the groove faces to one side of the lower flat section, the end of the lower flat section is bent upwards to form a right-angled folded edge, the runner connector 34a is divided into a rectangular groove section and a vertical plate, the shape of the inner space of the rectangular groove section is matched with the shape of the main runner 31a, the vertical plate is vertically fixed on the bottom plane of the rectangular groove section along the length direction of the rectangular groove section, the vertical plate is provided with a notch which is matched with the shape of the cross section of the upper flat section of the cross runner 32a and, and the upper flat section of the auxiliary keel 32a is clamped through the vertical plate.

The beneficial effect of adopting above-mentioned technical scheme is: the keel connecting piece is simple in structure, the installation steps of the auxiliary keel are few, the upper flat section is directly clamped into the opening in the vertical plate of the keel connecting piece, the keel connecting piece is convenient and quick, and the installation time can be effectively saved.

In other embodiments of the present invention, as shown in fig. 2 to 3, the cross section of the main keel 31b is T-shaped or H-shaped, and includes a main lumbar plate in a vertical direction and a bottom plate perpendicularly intersecting with the lower end of the main lumbar plate, the cross-over keel is an H-shaped cross-over keel 32b, and includes a cross-over top plate, a cross-over bottom plate and a cross-over lumbar plate perpendicularly intersecting with both the cross-over top plate and the cross-over bottom plate, the keel connector 34b includes an elastic adjusting chuck 341 and a connecting post 342, the two elastic adjusting chucks 341 are connected and fixed by the connecting post 342, projections of the elastic adjusting chuck 341 in the central line direction of the connecting post 342 are perpendicular to each other, the cross section of the elastic adjusting chuck 341 is a T-shaped groove, and a notch of the T-shaped groove is adjusted by a built-.

The beneficial effect of adopting above-mentioned technical scheme is: the centre of gravity is realized perpendicular collineation with being connected of main joist to the false keel, avoids producing the connection in-process, and the different degree that can avoid false keel and main joist to exist warp because of the rotatory torsion that the focus skew formed between the main and false keels to the life of fossil fragments has been prolonged.

In other embodiments of the present invention, as shown in fig. 4, the keel connecting piece 34c further includes a connecting column extension 343 and a threaded sleeve 344, wherein the ends of the connecting column 342 and the connecting column extension 343 close to each other are respectively provided with an external thread, the two ends of the threaded sleeve 344 are respectively provided with an internal thread matching with the connecting column 342 and the connecting column extension 343, one end of the connecting column extension 343 is connected to the threaded end of the connecting column 342 through the threaded sleeve 344, the other end is connected and fixed to the bottom of the elastic adjusting chuck 341, and the relative angle of the elastic adjusting chuck 341 is unchanged.

The beneficial effect of adopting above-mentioned technical scheme is: the introduction of screw sleeve will be originally the fossil fragments connecting piece that length is fixed and optimize the fossil fragments connecting piece that length is adjustable, greatly reduced the requirement of mounting height size precision, can further accelerate the construction progress in earlier stage, and to the non-planar furred ceiling condition such as single curved surface, length adjustable's function is especially important.

In other embodiments of the present invention, as shown in fig. 5, the keel connector 34d further comprises a telescopic rod 345 and a fastening knob 346, wherein the telescopic rod 345 is adjusted to a predetermined length as required and is locked by the fastening knob 346.

The beneficial effect of adopting above-mentioned technical scheme is: the mode that establishes the spliced pole in the fossil fragments connecting piece into the telescopic link and adds the fastening knob can realize length adjustable purpose equally to make things convenient for the adjustment of later stage furred ceiling height.

In another embodiment of the present invention, as shown in fig. 1, the sliding body connecting member 42 is an adhesive, and the sliding body 41 is fixed to the back surface of the aluminum profile 1 by the adhesive 42.

The beneficial effect of adopting above-mentioned technical scheme is: because of the aluminium alloy quality is lighter, need not to adopt the great screw thread of bearing load, connection modes such as welding with the connection of sliding body, directly adopt the viscose bonding can, convenient and fast can effectively reduce the mounting material cost.

In other embodiments of the present invention, as shown in fig. 1, the sliding body 41 is a special-shaped structural member and is divided into a horizontal fixing section at the bottom, a vertical connecting section in the middle, and a horizontal hooking section at the upper part, the horizontal fixing section is connected and fixed with the back of the aluminum profile 1, and the end of the horizontal hooking section is a downward-bent non-return barrier strip.

The beneficial effect of adopting above-mentioned technical scheme is: the sliding body structure is relatively simple, is matched with the lower end hanging part of the auxiliary keel, and is low in processing cost while meeting the requirement of quick installation.

In other embodiments of the present invention, as shown in fig. 2 and 6, the veneer connecting module 4 further comprises two guide rails 43, the two guide rails 43 are arranged on two sides of the back surface of the aluminum profile 1 in a direction perpendicular to the sliding body 41, and the sliding body 41 is provided with through holes and is fixed on the guide rails 43 through T-shaped threaded fasteners.

The beneficial effect of adopting above-mentioned technical scheme is: the guide rail is introduced into the veneer connecting assembly, the rigidity of the aluminum profile is enhanced, the original fixed and unchangeable distance between the sliding bodies is optimized to be adjustable, the inconvenient installation condition caused by the improper fixed position of the individual sliding bodies can be avoided, the hanging installation of the aluminum profile is further facilitated, and the construction difficulty can be effectively reduced.

Also as shown in fig. 2 and 6, in another embodiment of the present invention, the veneer panel joining module 41 includes a synchronous supporting frame 411 and an elastic split clamp 412, the synchronous supporting frame 411 spans two guide rails 43 to support the elastic split clamp 412, the elastic split clamp 412 includes a movable rod 4121, an intermediate connecting rod 4122, a main hinge pivot 4123 and an auxiliary hinge pivot 4124, the movable rod 4121 is divided into a starting end, a middle part and a tail end, the starting end is provided with a main hinge hole, the middle part is provided with an auxiliary hinge hole, the tail end is provided with a hook folded inwards, the two movable rods 4121 are symmetrically connected through the main hinge pivot 4123, the opening directions of the hooks of the movable rods 4121 are opposite, two ends of the intermediate connecting rod 4122 are connected and fixed to the middle part of the movable rod 4121 through the auxiliary hinge pivot 4124, when two ends of the intermediate connecting rod 4122 are subjected to tensile force, the two ends can be alternately extended and shortened through a built-in elastic element, the intermediate connecting rod 4122 is, the opening of the elastic opening clamp 412 alternately has a large opening and a small opening, and the subfloor width of the false keel 32b is larger than the small opening width of the elastic opening clamp 412 and smaller than the large opening width of the elastic opening clamp 412.

The beneficial effect of adopting above-mentioned technical scheme is: the elastic opening clamp is arranged to provide another hanging mode for the aluminum section, namely, the opening of the elastic opening clamp at the back of the aluminum plate is aligned to the auxiliary bottom plate of the I-shaped auxiliary keel and is pressed upwards, the auxiliary bottom plate is utilized to stretch the movable rod of the elastic opening clamp to apply tension to the connecting rod, and the aim of hanging or separating the sliding body connecting piece and the auxiliary keel is fulfilled by extending or shortening the connecting rod.

In other embodiments of the present invention, as shown in fig. 7, the aluminum profile 1 includes an aluminum plate, an aluminum square tube 1a, and the like, and when the aluminum profile 1 is the aluminum square tube 1a, the sliding body 41 includes an elastic open clamp 412, the elastic open clamp 412 is directly connected to the guide rail 43 in the sliding body connecting member 42 and is arranged along the length direction of the aluminum square tube 1a, and the arrangement direction of the aluminum square tube 1a is identical to the length direction of the H-shaped cross runner 32 b.

The beneficial effect of adopting above-mentioned technical scheme is: when the elastic opening clamp is applied to the aluminum square tube, the aluminum square tube can be conveniently detached and installed, and particularly, when only a single aluminum square tube needs to be detached, the advantage of the installation mode that the elastic opening clamp brings about hanging connection or separation by pressing is more obvious compared with the installation mode that the aluminum square tube is hoisted by a screw.

An installation method for an arc-shaped aluminum profile comprises the following steps as shown in figures 1-2:

the method comprises the following steps: the mounting position and the spacing line of the main keel 31 are defined on the roof 2 to be decorated, and a suspended ceiling height line is popped up;

step two: installing a hanging piece assembly 33 and laying a main keel 31;

step three: mounting keel connecting pieces 34 and hanging auxiliary keels 34;

step four: adjusting the heights of the auxiliary keels 34 in different areas according to the radian requirement of the arc-shaped aluminum profile modeling ceiling;

step five: fixing the sliding body 41 at a designated position of the aluminum profile 1 through a sliding body connecting piece 42;

step six: and hanging the aluminum profiles 1 in sequence to finish the installation.

The beneficial effect of adopting above-mentioned technical scheme is: the standardization of the installation method effectively standardizes the installation procedure of the arc-shaped aluminum profile modeling, is convenient to ensure the stability and the uniformity of the installation quality of the aluminum profile suspended ceiling, and reduces the influence of constructors on the construction quality due to the difference of technical levels.

In other embodiments of the present invention, the arc-shaped aluminum profile includes the mounting structure of any one of the above-mentioned technical aspects.

The beneficial effect of adopting above-mentioned technical scheme is: the arc aluminium alloy molding adopts any one of above-mentioned technical scheme to carry out the installation, and the phenomenon that partial aluminium alloy space of a whole page downwarping appears because of the monomer size is great can all be avoided to the decorative board, and the installation procedure is simple, and the efficiency of construction is higher, and later maintenance overhauls and changes more conveniently.

The above embodiments are merely illustrative of the technical concept and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the content of the present invention and implement the present invention, and not to limit the scope of the present invention, and all equivalent changes or modifications made according to the spirit of the present invention should be covered in the scope of the present invention.

Claims (10)

1. The utility model provides a be used for figurative mounting structure of arc aluminium alloy which characterized in that includes:

an aluminum profile;

a roof to be decorated;

the ceiling framework structure comprises a main keel, a secondary keel, a hanging piece assembly and keel connecting pieces, wherein the main keel is fixed below the roof to be decorated in parallel through the hanging piece assembly and used for bearing the weight of the aluminum plate ceiling system, and the secondary keel is perpendicular to the main keel, hung below the main keel through the keel connecting pieces and used for hanging and supporting the aluminum profiles;

decorative panel coupling assembling sets up the aluminium alloy back, including sliding body and sliding body connecting piece, the stick the aluminium alloy is equipped with two mutual parallels and uses the sliding body of aluminium alloy central line symmetry, two the sliding body is close to respectively on the aluminium alloy with the parallel terminal surface of sliding body length direction, and passes through the sliding body connecting piece with the aluminium alloy is connected fixedly, the length direction of sliding body with the figurative curved surface generating line of arc aluminium alloy is parallel, the curved surface generating line is for constituting the line of action of curved surface, the sliding body both ends do not all exceed the corresponding side of aluminium alloy sliding direction.

2. The mounting structure for an arc aluminum profile according to claim 1, wherein the cross runner is a Z-shaped cross runner, the Z-shaped cross runner is divided into an upper flat section, a vertical section and a lower flat section, the cross runner is connected with the runner connecting piece in an inserting manner through the upper flat section, the vertical section is provided with a full-length groove punched along a length direction, an opening of the groove faces to one side of the lower flat section, a tail end of the lower flat section is bent upwards to form a right-angle folded edge, the runner connecting piece is divided into a rectangular groove section and a vertical plate, an inner space shape of the rectangular groove section is matched with an outer shape of the main runner, the vertical plate is vertically fixed on a bottom plane of the rectangular groove section along a length direction of the rectangular groove section, the vertical plate is provided with a notch which is matched with a cross section shape of the upper flat section of the cross runner and is parallel to a bottom plane of, the keel connecting piece is clamped on the main keel through the rectangular groove section and clamped on the upper flat section of the auxiliary keel through the vertical plate.

3. The mounting structure for the arc-shaped aluminum profile is characterized in that the cross section of the main keel is T-shaped or H-shaped, comprises a main waist plate in the vertical direction and a bottom plate vertically intersected with the lower end of the main waist plate, the false keel is an H-shaped false keel and comprises a false top plate, a false bottom plate and a false waist plate vertically intersected with both the false top plate and the false bottom plate, the keel connecting piece comprises an elastic adjusting chuck and a connecting column, the elastic adjusting chuck passes through the connecting column to be connected and fixed, the elastic adjusting chuck is in the direction of the central line of the connecting column to project mutually and is vertical to each other, the cross section of the elastic adjusting chuck is a T-shaped groove, a notch of the T-shaped groove is adjusted through a built-in elastic element to be clamped into the bottom plate of the main keel or the top plate of the false keel.

4. The mounting structure for the arc-shaped aluminum profile is characterized in that the keel connecting piece further comprises a connecting column extension section and a threaded sleeve, wherein the ends, close to the connecting column extension section, of the connecting column extension section are provided with external threads, the two ends of the threaded sleeve are respectively provided with internal threads matched with the connecting column extension section and the connecting column extension section, one end of the connecting column extension section is connected with the threaded end of the connecting column through the threaded sleeve, the other end of the connecting column extension section is fixedly connected with the bottom of the elastic adjusting chuck, and the relative angle of the elastic adjusting chuck is unchanged.

5. The mounting structure for an arc-shaped aluminum profile as claimed in claim 3, wherein the keel connecting member further comprises a telescopic rod and a fastening knob, the telescopic rod is adjusted to a predetermined length as required and is locked in length by the fastening knob.

6. The mounting structure for an arc-shaped aluminum profile as claimed in claim 1, wherein the sliding body connecting member is an adhesive, and the sliding body is fixedly bonded at a predetermined position on the back surface of the aluminum profile by the adhesive.

7. The mounting structure for the arc-shaped aluminum profile according to claim 6, wherein the sliding body is a special-shaped structural member and is divided into a horizontal fixing section at the bottom, a middle vertical connecting section and an upper horizontal hooking section, the horizontal fixing section is fixedly connected with the back of the aluminum profile, and the end of the horizontal hooking section is provided with a downward bent non-return barrier strip.

8. The mounting structure for the arc-shaped aluminum profile according to claim 4, wherein the veneer connecting assembly further comprises two guide rails, the two guide rails are arranged on two sides of the back surface of the aluminum profile along a direction perpendicular to the sliding body, the sliding body is provided with through holes, and the through holes are fixed on the guide rails through T-shaped threaded fasteners.

9. The mounting structure for the arc-shaped aluminum profile according to claim 8, wherein the sliding body comprises a synchronous supporting frame and an elastic split clamp, the synchronous supporting frame spans two guide rails to support the elastic split clamp, the elastic split clamp comprises a movable rod, an intermediate connecting rod, a main hinge support shaft and an auxiliary hinge support shaft, the movable rod is divided into a starting end, a middle part and a tail end, the starting end is provided with a main hinge support hole, the middle part is provided with an auxiliary hinge support hole, the tail end is an inward folded hook, the two movable rods are symmetrically connected through the main hinge support shaft, the hook openings of the movable rods are opposite, the two ends of the intermediate connecting rod are fixedly connected with the middle part of the movable rod through the auxiliary hinge support shaft, when the two ends of the intermediate connecting rod are subjected to tensile force, the alternate extension and shortening can be realized through an internal elastic element, under the drive of the telescopic action of the middle connecting rod, the opening of the elastic opening clamp alternately has a large opening and a small opening, and the width of the auxiliary bottom plate of the auxiliary keel is greater than the width of the small opening of the elastic opening clamp and is less than the width of the large opening of the elastic opening clamp.

10. The mounting method for the arc-shaped aluminum profile is characterized by comprising the following steps of:

the method comprises the following steps: the mounting position and the spacing line of the main keel are defined on the roof to be decorated, and a suspended ceiling height line is popped up;

step two: installing the hanging piece assembly and laying the main keel;

step three: installing the keel connecting piece and hanging the auxiliary keel;

step four: adjusting the heights of the auxiliary keels in different areas according to the radian requirement of the arc-shaped aluminum profile;

step five: fixing the sliding body at a designated position of the aluminum profile through the sliding body connecting piece;

step six: and hanging the aluminum profiles in sequence to finish installation.

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