CN217517921U - Mounting structure of aluminum strip plate ceiling - Google Patents

Abstract

The utility model discloses an installation structure of an aluminum batten suspended ceiling, which comprises at least two fixture block structures arranged on the aluminum batten, wherein at least one fixture block structure is respectively arranged on the bottom surfaces of bending edges at two sides of an aluminum batten; the hanging piece is connected with the top of the wall and used for installing the aluminum lath, at least two grooves extending downwards are formed in the hanging piece, and when the aluminum lath is installed on the hanging piece, the clamping block structure is embedded into the grooves in a matched mode. The utility model discloses a fixture block structure on the aluminium batten and downwardly extending on the pendant that is used for installing the aluminium batten with the recess of fixture block structure adaptation for the aluminium batten is because mutually supporting between fixture block structure and the recess when installing, with the relative motion between aluminium batten and the pendant of can effectively restricting, thereby alleviate the aluminium batten effectively and install the back on the pendant because the existence of erection space makes still can the relative gliding condition between aluminium batten and the pendant, improve the installation stability of aluminium batten furred ceiling, with further improvement wind resistance ability.

Description

Mounting structure of aluminum strip plate ceiling

Technical Field

The utility model relates to a furred ceiling installation technical field especially relates to a mounting structure on aluminum strip top.

Background

Most are the anti-wind aluminium lath of C type on the existing market, and this kind of aluminium lath generally adopts ordinary strip to detain formula connection when the installation: the upper portion adopts harness cord jib and top structural connection, and the lower part is passed through the jib and is connected with the main joist, then hangs a connection C type strip knot fossil fragments with C type strip knot fossil fragments, passes through the buckle connection with the aluminium slat at fossil fragments below with the aluminium slat at last. Although the structure has certain wind resistance, the structure is still easy to be unstable under the condition of meeting high wind power.

SUMMERY OF THE UTILITY MODEL

To prior art's weak point, the utility model provides a mounting structure of aluminium slat furred ceiling, its wind resistance ability that can increase aluminium slat furred ceiling effectively improves stability.

According to an aspect of the present application, there is provided a mounting structure of an aluminum strip ceiling, including:

the aluminum batten comprises at least two clamping block structures arranged on the aluminum batten, wherein at least one clamping block structure is arranged on the bottom surfaces of the bending edges on the two sides of the aluminum batten;

the aluminum batten hanging piece is connected with the top of a wall and used for installing aluminum battens, at least two grooves extending downwards are formed in the hanging piece, and when the aluminum battens are installed on the hanging piece, the clamping block structures are embedded into the grooves in a matched mode.

The utility model discloses an add fixture block structure on the bottom surface on the limit of buckling on the aluminium batten, and correspond on the pendant that is used for installing the aluminium batten add downwardly extending with the recess of fixture block structure adaptation, make the aluminium batten because mutually supporting between fixture block structure and the recess when installing, make this mounting structure not only can install the aluminium batten on the pendant, can also effectively restrict the relative motion between aluminium batten and the pendant, thereby alleviate the aluminium batten effectively and install the back on the pendant because the existence of installation clearance makes the condition that still can the relative slip between aluminium batten and the pendant, improve the installation stability of aluminium batten furred ceiling, in order to further improve the wind resistance ability.

In some embodiments, the length direction of the fixture block structure is the same as the length direction of the aluminum lath.

From this, through setting up like this, can make the aluminium slat in the installation, can be more convenient, simultaneously through the length direction who will set up fixture block structure like this for in the complex between recess and the fixture block structure, can prevent that the aluminium slat from sliding along its width direction, with the installation stability that can improve aluminium slat furred ceiling, improve wind resistance.

In some embodiments, the length of the latch structure is the same as the length of the aluminum strip.

Thus, the installation of the aluminum lath can be facilitated and the installation variability can be improved.

In some embodiments, two latch structures are arranged on one aluminum strip plate, and the latch structures are formed by bending the end parts of the bent edges downwards.

From this, through setting up like this for fixture block structure and aluminium lath set up as integrated into one piece, can effectively improve the connection performance between aluminium lath and the fixture block structure, improve installation stability.

In some embodiments, the bent edges are each bent toward a middle portion of the aluminum lath.

Therefore, through the arrangement, each aluminum lath can be independently installed, so that the condition of connection in the event of an accident is avoided.

In some embodiments, the fixture block structure is symmetrically arranged on the aluminum lath by taking a center line of the aluminum lath in the length direction as a center.

From this, through setting up like this, can make the atress of aluminium slat can be more even when the installation through two fixture block structures that the symmetry set up, can effectively improve the installation stability of aluminium slat furred ceiling simultaneously to further improve wind resistance.

In some embodiments, the aluminum strip has a thickness of not less than 1.2 mm.

From this, through setting up like this, can be through the weight of improving the aluminium slat with the improvement thickness to improve wind resistance, improve thickness simultaneously, can reduce the mobility of aluminium slat after the installation, with can improve stability. Meanwhile, the thickness is increased, the structural strength of the aluminum batten can be improved, and the wind resistance of the aluminum batten can be improved.

In some embodiments, the recess is disposed on a top surface of the pendant.

From this, through setting up like this for the aluminium slat is at the installation back, makes the both sides of aluminium slat can the cladding outside the both sides of pendant, in order can through and the pendant between the cladding relation, further restrict the motivity of aluminium slat, in order effectively to improve the installation stability of furred ceiling.

In some embodiments, the hanging member is an angle steel, a fixing component is arranged between the hanging member and the wall top, the fixing component comprises a connecting member connected with the hanging member and a hanging component connected with the connecting member, the hanging component is fixed on the wall top, and the connecting member comprises a first connecting surface used for being connected with the hanging member, a second connecting surface used for being connected with the hanging component and a neutral surface connecting the first connecting surface and the second connecting surface.

From this, through setting up like this, the pendant can be installed on the connecting piece firmly to be connected through hanging subassembly and wall crown, simultaneously, can be provided with a plurality of pendants on the connecting piece, with the setting position of the self-defined each pendant in interval that can be as required, make the variability of installation.

In some embodiments, the suspension assembly comprises a plurality of connecting angle steels fixed on the top of the wall and C-shaped steel connected with the connecting angle steels, every two of the C-shaped steel, the connecting piece and the connecting angle steels are arranged in a mutually perpendicular mode, the side face of the C-shaped steel is connected with the side face of the connecting angle steel, and the bottom face of the C-shaped steel is connected with the second connecting face of the connecting piece.

From this, through setting up like this, utilize angle steel as the jib, can be so that connect more firm, simultaneously, two liang of mutually perpendicular settings between angle steel, C shaped steel and the connecting piece to can improve the connection stability of the three mutually perpendicular's between angle steel, C shaped steel and the connecting piece effectively, with the installation stability who effectively improves the furred ceiling.

Drawings

Fig. 1 is a schematic overall structural view of an installation structure of an aluminum strip ceiling according to an embodiment of the present invention;

fig. 2 is a schematic view of a pendant and an aluminum strip panel structure of the mounting structure of the aluminum strip panel ceiling of the embodiment of fig. 1;

fig. 3 is a structural view illustrating an installation state of the installation structure of the aluminum strip ceiling of the embodiment of fig. 1;

description of reference numerals: 1. hanging parts; 11. a groove; 2. a fixing component; 21. a connecting member; 211. a first connection face; 212. a second connection face; 213. a neutral surface; 22. c-shaped steel; 23. connecting angle steel; 3. an aluminum strip plate; 31. bending the edges; 32. and a clamping block structure.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Fig. 1 schematically shows the structure of the mounting structure of the aluminum slat ceiling according to an embodiment of the present invention, and referring to fig. 1, the mounting structure of the aluminum slat ceiling includes a fixture block structure 32 disposed on an aluminum slat 3 and a hanging member 1 connected to a wall top and used for mounting the aluminum slat 3. Specifically, fixture block structure 32 is provided with two at least on aluminium lath 3, and fixture block structure 32 is provided with one respectively on the bottom surface of the limit 31 of buckling of 3 both sides of aluminium lath, so that fixture block structure 32 is downwardly extending's structure, it is corresponding, be provided with two at least downwardly extending's recess 11 on the pendant 1, when aluminium lath 3 installs on pendant 1, fixture block structure 32 on two limit 31 of buckling on the aluminium lath 3 can imbed recess 11 with the adaptation, mutually support between fixture block structure 32 and the recess 11 through, take place horizontal slip with restriction aluminium lath 3, thereby improve the installation stability of 3 furred ceilings of aluminium lath, in order to further improve the wind resistance ability.

Referring to fig. 2 and 3, as for the structure of the aluminum lath 3, it may be an S-shaped aluminum lath 3 structure, or a C-shaped aluminum lath 3 structure, preferably, a C-shaped aluminum lath 3 structure is adopted in the present embodiment, that is, two bending edges 31 on the aluminum lath 3 are both bent toward the middle of the aluminum lath 3, so as to provide a mutually independent installation structure between each aluminum lath 3, so as to avoid the occurrence of an accident and the formation of a connecting situation. And to setting up fixture block structure 32 on aluminium lath 3, preferably set up the length direction of fixture block structure 32 as the same with the length direction of aluminium lath 3, and set up the length of fixture block structure 32 and the length of aluminium lath 3 as the same, in order to be more favorable to the installation of aluminium lath 3, simultaneously because the length direction of fixture block structure 32 sets up as the same with the length direction of aluminium lath 3, therefore recess 11 can avoid aluminium lath 3 along its width direction's emergence activity with fixture block structure 32 cooperation, in order to improve wind resistance effectively. To fixture block structure 32's the position of setting and the mode of setting, specifically, can set up fixture block structure 32 into the structure with aluminium lath 3 integrated into one piece, also can be for addding the structure on aluminium lath 3, and the position that fixture block structure 32 set up on bending edge 31 does not have the requirement, it can set up the middle part on bending edge 31, form "T" style of calligraphy, can also set up the tip of the free end on bending edge 31, preferentially, can set up fixture block structure 32 into, bend downwards by bending edge 31 on aluminium lath 3 and form, set up like this, can make fixture block structure 32 and aluminium lath 3 whole be integrated into one piece, can effectively improve the wholeness between fixture block structure 32 and the aluminium lath 3, improve the stability of aluminium lath 3 after the installation. Referring to fig. 2, the latch structure 32 may be bent to be a right-angled structure, in some embodiments, the latch structure 32 may also be bent to be a curved structure, and the like, and the effect to be achieved in the present application can be achieved only by the latch structure 32 being a structure extending downward, and the present application does not have any limitation on the specific structural style of the latch structure 32. Further, fixture block structure 32 can also use the ascending central line of length direction of aluminium lath 3 as central symmetry setting on aluminium lath 3, through setting up like this, can make aluminium lath 3 atress can be more even when installing through two fixture block structures 32 that the symmetry set up, can effectively improve the installation stability of aluminium lath furred ceiling simultaneously to further improve wind resistance. For the thickness of the aluminum lath 3, by increasing the thickness of the aluminum lath 3, the weight of the aluminum lath 3 can be improved to improve stability and wind resistance, and the thickness of the aluminum lath 3 is improved to reduce the movability of the aluminum lath 3 after installation and improve the stability after installation, specifically, the thickness of the aluminum lath 3 can be set to not less than 1.2mm, preferably to 1.2mm in the present embodiment.

With continued reference to fig. 2 and 3, for the hanger 1 for mounting the aluminum lath 3, which may be a keel structure for simultaneously mounting a plurality of aluminum laths 3 similar to the prior art, or a separate structure designed for a single aluminum lath 3 to be mounted, the recess 11 provided on the hanger 1 may be provided at any position on the hanger 1, such as a top surface, a side surface or a bottom surface. The length direction of recess 11 corresponds with fixture block structure 32, should set up to the same direction with fixture block structure 32 to make fixture block structure 32 can the adaptation imbed in recess 11, only need satisfy when aluminium slat 3 installs, fixture block structure 32 on the aluminium slat 3 can install and imbed to recess 11 in, can realize that corresponding restriction aluminium slat 3 takes place lateral sliding's effect.

Further, referring to fig. 3, in order to improve the installation stability of the whole ceiling, the hanger 1 may be set to be an independent structure designed for a single aluminum lath 3 to be installed, and the groove 11 on the hanger 1 may be opened on the top surface of the hanger 1, at this time, when the aluminum lath 3 is installed on the hanger 1, both sides of the aluminum lath 3 may be coated on both sides of the hanger 1, so that the movability of the aluminum lath 3 may be further limited by the structure to improve the installation stability of the ceiling. In this embodiment, when the aluminum lath 3 is installed on the hanging member 1, the two sides of the aluminum lath 3 are wrapped on the two sides of the hanging member 1, and accordingly, the distance from the free end of the bent edge 31 on the aluminum lath 3 to the inner side surface of the aluminum lath 3 should not be smaller than the distance between the groove 11 on the hanging member 1 and the side surface of the hanging member 1, so as to ensure that the aluminum lath 3 can be smoothly installed on the hanging member 1.

Exemplarily, referring to fig. 3, in this embodiment, the aluminum lath 3 is a C-shaped structure, the end portions of two bent edges 31 at the top of the aluminum lath 3 are bent downward to form a latch structure 32, the hanger 1 is a separate structure designed for a single aluminum lath 3 to be mounted, and the groove 11 on the hanger 1 is disposed on the top surface of the hanger 1 at a position corresponding to the latch structure 32, so that when the aluminum lath 3 is mounted on the hanger 1, the two sides of the aluminum lath 3 can be wrapped outside the two sides of the hanger 1. Each aluminum lath 3 is installed on a plurality of fixed hangers 1, and the length of the fixture block structure 32 of the aluminum lath 3 is consistent with that of the aluminum lath 3 and is simultaneously installed and embedded in the grooves 11 of the hangers 1 on which the aluminum lath 3 is installed. When the aluminum lath 3 is installed, only one end of the aluminum lath 3 needs to be sleeved outside the hanging piece 1, so that the two fixture block structures 32 of the aluminum lath 3 are embedded with the grooves 11 on the hanging piece 1, and the aluminum lath 3 is pushed to be simultaneously installed on the hanging pieces 1, so that the aluminum lath 3 can be installed.

Because the pendant 1 is the independent structure to the single aluminium slat 3 that will install, the pendant 1 specifically can adopt the angle steel to make to can be favorable to the installation of pendant 1 fixed, can be provided with fixed subassembly 2 between pendant 1 and the roof in order to fix pendant 1 on the roof. For the fixing assembly 2 for fixing the hanger 1 on the top of the wall, it may include a connecting member 21 and a hanging assembly. Specifically, the connection member 21 includes a first connection surface 211 for connecting with the top surface of the suspension member 1, a second connection surface 212 for connecting with the suspension assembly, and a neutral surface 213 for connecting the first connection surface 211 and the second connection surface 212, so that the connection stability between the respective components is improved by the surface-to-surface connection. Referring to fig. 1, the connecting member 21 may be, for example, a Z-shaped steel or C-shaped steel 22 structure, the length direction of which is perpendicular to the length direction of the aluminum strip 3 to be installed, the first connecting surface 211 and the top surface of the hanger 1 may be connected and fixed to each other by a screw connection, and a plurality of hangers 1 may be disposed on one connecting member 21, so that the installation interval between the hangers 1 may be changed according to actual design requirements to achieve a desired installation effect. And to the suspended assembly who is connected with connecting piece 21, can be including fixing a plurality of angle connector 23 on the wall crown and the C shaped steel 22 that links to each other with angle connector 23, refer to fig. 1, specifically, angle connector 23 is connected with the wall crown as the jib, so that the part of being connected with angle connector 23, can improve the stability of connecting through the face contact, C shaped steel 22 is as the main joist, its side is connected with angle connector 23, its bottom surface is connected with the second of connecting piece 21 and is connected face 212, angle connector 23, be two liang of mutually perpendicular settings between C shaped steel 22 and the connecting piece 21, thereby can effectively improve the installation stability of monolithic stationary assembly 2.

What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims (10)

1. Mounting structure of aluminium slat furred ceiling, its characterized in that: comprises that

The aluminum batten comprises at least two clamping block structures arranged on the aluminum batten, wherein at least one clamping block structure is arranged on the bottom surfaces of the bending edges on the two sides of the aluminum batten;

the aluminum batten hanging piece is connected with the top of a wall and used for installing aluminum battens, at least two grooves extending downwards are formed in the hanging piece, and when the aluminum battens are installed on the hanging piece, the clamping block structures are embedded into the grooves in a matched mode.

2. The mounting structure of an aluminum strip ceiling as set forth in claim 1, wherein: the length direction of the fixture block structure is the same as that of the aluminum lath.

3. The mounting structure of an aluminum strip ceiling as recited in claim 2, wherein: the length of the fixture block structure is the same as that of the aluminum strip plate.

4. The mounting structure of an aluminum strip ceiling as set forth in claim 1, wherein: the fixture block structure is formed by bending the free end of the bending edge downwards.

5. The mounting structure of an aluminum strip ceiling as recited in claim 1, wherein: the two bending edges are bent towards the middle part of the aluminum ribbon board.

6. The mounting structure of an aluminum strip ceiling as set forth in claim 5, wherein: the fixture block structure is symmetrically arranged on the aluminum lath by taking the center line in the length direction of the aluminum lath as the center.

7. The mounting structure of an aluminum strip ceiling as set forth in claim 1, wherein: the thickness of the aluminum strip plate is not less than 1.2 mm.

8. The mounting structure of an aluminum strip ceiling as recited in claim 1, wherein: the groove is formed in the top surface of the hanging piece.

9. The mounting structure of an aluminum strip ceiling as recited in any one of claims 1 to 8, wherein: the pendant is the angle steel, be provided with fixed subassembly between pendant and the wall crown, fixed subassembly includes the subassembly that hangs of being connected the connecting piece and being connected with the connecting piece with the pendant, hang the subassembly and fix at the wall crown, the connecting piece is including first be used for with the pendant be connected first connecting surface, be used for with hang the second that the subassembly is connected be connected the face and be connected the neutral face that first connecting surface and second are connected the face.

10. The mounting structure of an aluminum strip ceiling as recited in claim 9, wherein: the suspension assembly comprises a plurality of connecting angle steels fixed on the top of the wall and C-shaped steel connected with the connecting angle steels, wherein every two of the C-shaped steel, the connecting piece and the connecting angle steels are perpendicular to each other, the side face of the C-shaped steel is connected with the side face of the connecting angle steel, and the bottom face of the C-shaped steel is connected with the second connecting face of the connecting piece.

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