CN107989234B - Novel no wall dado mounting structure - Google Patents

Abstract

The novel wall-free panel mounting structure comprises a connecting device connected with bearing beams at two sides, wherein the connecting device comprises a plurality of connecting units which are sequentially connected, adjacent connecting units are connected through a plurality of plug-in posts, the connecting units close to the corresponding bearing beams are connected with the bearing beams through connecting structures, and the bottom of each connecting unit is provided with a perpendicularity adjusting mechanism for adjusting the perpendicularity of each connecting unit; the connecting structure comprises a mounting substrate mounted on the spandrel girder, a clamping seat mounted on the mounting substrate, a clamping groove formed in the clamping seat and provided with an opening facing the connecting unit, a mounting seat arranged on the connecting unit, a plurality of sliding cavities formed in the mounting seat and provided with openings facing the clamping groove, a sliding locking column arranged in each sliding cavity, a compression spring connected with the sliding locking column and the bottoms of the sliding cavities, an inflation channel arranged in the mounting seat and communicated with all the sliding cavities, and an inflation head arranged on the mounting seat. The application has the advantages of convenient installation and high installation efficiency, omits the step of building the wall, and improves the decoration efficiency.

Description

Novel no wall dado mounting structure

Technical Field

The application relates to the field of wallboard installation, in particular to a novel wall-free wallboard installation structure.

Background

The wall panels are important indoor decorations and are installed on built walls. At present, most blank houses generally only have spandrel girders, no built wall body exists, and for users needing to install the wall panels, the manufacture of the wall body is generally finished by a clay maser, and the installation of the wall panels is finished by professional wall panel installation personnel.

This has the following problems: because the wall body in earlier stage is made by the clay mason, the straightness that hangs down of wall body can appear the deviation, and later stage dado installation is comparatively difficult to the leveling of wall body, to the householder, need look for different installer, and the time spent is long, and house fitment progress is slow.

Disclosure of Invention

Aiming at the defects of the prior art, the application provides the novel wall-free wall panel mounting structure which is convenient to mount and high in mounting efficiency, omits the step of building a wall and improves the decoration efficiency.

The specific technical scheme of the application is as follows: the novel wall-free panel mounting structure is characterized by comprising a connecting device connected with bearing beams at two sides, wherein the connecting device comprises a plurality of connecting units connected in sequence, adjacent connecting units are connected through a plurality of splicing columns, the connecting units close to the corresponding bearing beams are connected with the bearing beams through connecting structures, and the bottom of each connecting unit is provided with a verticality adjusting mechanism for adjusting the verticality of each connecting unit; the connecting structure comprises a mounting substrate mounted on a spandrel girder, a clamping seat mounted on the mounting substrate, clamping grooves formed in the clamping seat and provided with openings towards the connecting units, wherein the clamping grooves extend from the top of the clamping seat to the bottom of the connecting units, the connecting structure further comprises mounting seats arranged on the connecting units, a plurality of sliding cavities formed in the mounting seats and provided with openings towards the clamping grooves, sliding locking columns arranged in the sliding cavities and used for being inserted into the clamping seats, compression springs connected with the sliding locking columns and the bottoms of the sliding cavities, and air inflation channels formed in the mounting seats and communicated with all the sliding cavities, and air inflation heads arranged on the mounting seats.

According to the application, the wall body is directly replaced by the wall panel mounting structure, the wall building step is not required, the decoration efficiency is improved, meanwhile, the wall panel mounting structure is formed by connecting a plurality of connecting units, the operation can be carried out by one person, the mounting is convenient, and the mounting efficiency is further improved; the connection spandrel girder and this mounting structure just through the action of aerifing of head, just can realize the connection between the two, convenient operation, and installation effectiveness is high, and straightness adjustment mechanism can adjust the straightness that hangs down of connecting unit, directly realizes the leveling to the dado, and the leveling is convenient, and leveling efficiency is high, further improves whole installation effectiveness.

Preferably, the verticality adjusting mechanism comprises a bottom plate, a plurality of first vertical adjusting screws arranged on the bottom plate, and a plurality of second vertical adjusting screws arranged at the bottom of the connecting unit and positioned right above the corresponding first vertical adjusting screws, and the first vertical adjusting screws are connected with the corresponding second vertical adjusting screws through adjusting connecting pieces.

Preferably, the adjusting connector comprises a column body with a regular hexagon cross section and a threaded through hole arranged at the center of the end part of the column body. The cylinder with the hexagonal section is convenient to adjust, the installation efficiency is improved, and in actual operation, the cylinder can be completed by adopting a hexagonal wrench.

Preferably, the connecting unit comprises a solid cement block and an iron surrounding frame arranged on the surface of the solid cement block.

Preferably, the connecting unit comprises a pair of mounting plates which are arranged in parallel and used for mounting the wall panels, and a plurality of adjusting devices which are arranged between the pair of mounting plates and used for adjusting the distance between the mounting plates, wherein each of two sides of the mounting plates is provided with a plurality of mounting base plates which are linearly distributed from top to bottom, the inner side surface of each mounting base plate is provided with a mounting column body, each mounting base plate is provided with a splicing hole which extends to the mounting column body and is used for mounting the splicing column, and the bottom surface of each mounting plate is provided with a bottom base plate used for mounting the second vertical adjusting screw. The connecting structure further improves the installation efficiency.

Preferably, the adjusting device comprises a first transverse adjusting screw rod and a second transverse adjusting screw rod which are arranged on the corresponding mounting plate, and an adjusting screw sleeve which is in spiral connection with the first transverse adjusting screw rod and the second transverse adjusting screw rod.

In summary, the application has the following beneficial effects:

the installation is convenient, the installation efficiency is high, the step of building the wall is saved, and the decoration efficiency is improved.

Drawings

FIG. 1 is a schematic diagram of the structure of an embodiment of the present application;

FIG. 2 is a schematic diagram of the structure of the connection structure;

FIG. 3 is a schematic illustration of an implementation of the perpendicularity adjustment mechanism;

FIG. 4 is a schematic illustration of the construction of an adjustment connection;

fig. 5 is a schematic diagram of the structure of the connection unit;

fig. 6 is a schematic view of the mounting post and the mounting plate.

Detailed Description

The application will be further illustrated by the following examples in conjunction with the accompanying drawings.

As shown in fig. 1-4, a novel wall-less panel installation structure is characterized by comprising a connecting device connected with two side spandrel girders 00, wherein the connecting device comprises a plurality of connecting units 01 connected in sequence, adjacent connecting units 01 are connected through a plurality of plug posts 9, the connecting units 01 close to the corresponding spandrel girders 00 are connected with the spandrel girders 00 through connecting structures 8, and the bottom of each connecting unit 01 is provided with a verticality adjusting mechanism 7 for adjusting the verticality of the connecting unit 01; the connecting structure 8 comprises a mounting base plate 81 mounted on a spandrel girder 00, a clamping seat 82 mounted on the mounting base plate 81, a clamping groove 83 formed in the clamping seat 82 and provided with an opening towards the connecting unit 01, the clamping groove 83 extends from the top of the clamping seat 82 to the bottom, the connecting structure further comprises a mounting seat 84 formed in the connecting unit 01, a plurality of sliding cavities 85 formed in the mounting seat 84 and provided with openings towards the clamping groove 83, a sliding locking column 86 arranged in each sliding cavity 85 and used for being inserted into the clamping seat 82, a compression spring 87 connected with the sliding locking column 86 and the bottom of the sliding cavity 85, an air inflation channel 88 formed in the mounting seat 84 and communicated with all the sliding cavities 85, and an air inflation head 89 formed on the mounting seat 84. In this embodiment, the connection between the mount 84 and the connection unit 01 is not limited, and the mount may be connected by magnets attracted to each other, may be connected by welding, and the mount board 81 may be mounted on the spandrel girder 00 by expansion bolts.

Preferably, the verticality adjusting mechanism 7 includes a bottom plate 71, a plurality of first vertical adjusting screws 72 disposed on the bottom plate 71, and a plurality of second vertical adjusting screws 73 disposed at the bottom of the connection unit 1 and located right above the corresponding first vertical adjusting screws 72, where the first vertical adjusting screws 72 and the corresponding second vertical adjusting screws 73 are connected by an adjusting connection piece 74.

Preferably, the adjusting connector 74 includes a cylinder 741 having a regular hexagonal cross section, and a threaded through hole 742 provided at the center of the end of the cylinder 741.

Preferably, the connection unit 01 comprises a solid cement block and an iron surrounding frame arranged on the surface of the solid cement block.

As shown in fig. 5-6, as another preferred embodiment of the connection unit, the connection unit 01 includes a pair of mounting plates 011 for mounting the panels, a plurality of adjusting devices 012 disposed between the pair of mounting plates 011 for adjusting the distance between the mounting plates 011, each of the mounting plates 011 is provided with a plurality of mounting plates 013 linearly distributed from top to bottom, the inner side of the mounting plate 013 is provided with a mounting column 014, the mounting plate 013 is provided with a plugging hole 015 extending into the mounting column 014 for mounting the plugging column 9, and the bottom surface of the mounting plate 011 is provided with a bottom plate 016 for mounting the second vertical adjusting screw 73. Preferably, the adjusting device 012 includes a first lateral adjusting screw 0121 and a second lateral adjusting screw 0122 disposed on the corresponding mounting plate 011, and an adjusting screw sleeve 0123 screwed with the first lateral adjusting screw 0121 and the second lateral adjusting screw 0122.

The above examples are only illustrative of the preferred embodiments of the present application and do not limit the spirit and scope of the present application. Various modifications and improvements of the technical scheme of the present application will fall within the protection scope of the present application without departing from the design concept of the present application, and the technical content of the present application is fully described in the claims.

Claims (4)

1. The novel wall-free panel mounting structure is characterized by comprising a connecting device connected with bearing beams (00) on two sides, wherein the connecting device comprises a plurality of connecting units (01) which are sequentially connected, the adjacent connecting units (01) are connected through a plurality of plug-in columns (9), the connecting units (01) which are close to the corresponding bearing beams (00) are connected with the bearing beams (00) through connecting structures (8), and the bottom of each connecting unit (01) is provided with a perpendicularity adjusting mechanism (7) for adjusting the perpendicularity of the connecting unit (01); the connecting structure (8) comprises a mounting substrate (81) mounted on a bearing beam (00), a clamping seat (82) mounted on the mounting substrate (81), clamping grooves (83) formed in the clamping seat (82) and opened towards the bottom of the connecting unit (01), mounting seats (84) formed in the connecting unit (01), a plurality of sliding cavities (85) formed in the mounting seats (84) and opened towards the clamping grooves (83), sliding locking columns (86) formed in each sliding cavity (85) and used for being inserted into the clamping seat (82), compression springs (87) connected with the bottoms of the sliding locking columns (86) and the sliding cavities (85), air inflation channels (88) formed in the mounting seats (84) and communicated with all the sliding cavities (85), and air inflation heads (89) formed in the mounting seats (84);

the verticality adjusting mechanism (7) comprises a bottom plate (71), a plurality of first vertical adjusting screws (72) arranged on the bottom plate (71), and a plurality of second vertical adjusting screws (73) arranged at the bottom of the connecting unit (01) and positioned right above the corresponding first vertical adjusting screws (72), wherein the first vertical adjusting screws (72) are connected with the corresponding second vertical adjusting screws (73) through adjusting connecting pieces (74);

the connecting unit (01) comprises a solid cement block and an iron surrounding frame arranged on the surface of the solid cement block.

2. The novel wall-free panel mounting structure according to claim 1, wherein the adjusting connector (74) comprises a column body (741) with a regular hexagonal cross section and a threaded through hole (742) arranged at the center of the end part of the column body (741).

3. The novel wall-free wallboard mounting structure according to claim 1, wherein the connecting unit (01) comprises a pair of mounting plates (011) which are arranged in parallel and are used for mounting wallboards, a plurality of adjusting devices (012) which are arranged between the pair of mounting plates (011) and are used for adjusting the distance between the mounting plates (011), a plurality of mounting base plates (013) which are linearly distributed from top to bottom are arranged on two sides of each mounting plate (011), mounting columns (014) are arranged on the inner side surfaces of the mounting base plates (013), plug holes (015) which extend into the mounting columns (014) and are used for mounting the plug columns (9) are formed in the mounting base plates (013), and a bottom base plate (016) used for mounting the second vertical adjusting screw rods (73) is arranged on the bottom surface of the mounting plates (011).

4. A novel wall-less panel mounting structure according to claim 3, wherein the adjustment means (012) comprises a first lateral adjustment screw (0121) and a second lateral adjustment screw (0122) provided on the respective mounting plates (011), and an adjustment screw sleeve (0123) in screw connection with the first lateral adjustment screw (0121) and the second lateral adjustment screw (0122).