CN111794417A - External unit type integrated light wall board point support flexible connection node - Google Patents

Abstract

A point-supported flexible connecting node of an externally-hung unit-type integrated light wallboard comprises a first externally-hung light wallboard, a second externally-hung light wallboard and a steel beam, wherein the first externally-hung light wallboard and the second externally-hung light wallboard are arranged up and down, are provided with inner cavities and keels, and have installation intervals between the inner walls which are arranged opposite to the first externally-hung light wallboard or the second externally-hung light wallboard; the upper hanging node is used for connecting a second externally hung light wallboard and a steel beam; and the lower insertion node is used for connecting the first externally hung light wall board and the second externally hung light wall board. The point support flexible connecting node of the externally-hung unit type integrated light wall board comprises an upper hanging node and a lower inserting node, the node system can realize three-way adjustment of the light externally-hung wall board in the installation stage, and the light externally-hung wall board moves and rotates along the plane of the wall board in the design stage, so that the point support flexible connecting node is worthy of popularization.

Description

External unit type integrated light wall board point support flexible connection node

Technical Field

The invention relates to a connecting node, in particular to a point support flexible connecting node of an externally hung unit type integrated light wall board.

Background

In the urban building development, building industrialization gradually becomes a new development trend of buildings. The defects of construction dispersion, low-efficiency operation, high labor cost, long construction period and the like in the traditional building construction are reduced as much as possible by adopting an industrial production mode, namely a mode of prefabricating assembly parts. The enclosure system is used as an important component of the assembly type building component, and the form of the connecting node of the enclosure system has enough bearing capacity and the capability of adapting to the deformation of a main body structure, which puts higher requirements on the node design.

For example, publication No. CN206174136U discloses an exterior wall panel connecting assembly, which comprises an exterior wall panel connecting node assembly and a height trimmer, wherein the connecting node assembly is provided with a connecting screw rod, a connecting nut and angle steel, the inner end of the connecting screw rod is anchored in the exterior wall panel, the outer end passes the face of externally-hung wallboard and the vertical face of angle steel perpendicularly and overhangs outside externally-hung wallboard, coupling nut connects on connecting screw soon, the hole that supplies connecting screw to pass on the vertical face of angle steel is vertical extension's rectangular hole, the vertical face of angle steel passes through coupling nut and fastens on the face of externally-hung wallboard, the horizontal plate face of angle steel is fixed on the horizontal plane face of main structure girder steel, height trimmer includes connecting platform and fine setting bolt, the last level that is equipped with of connecting platform is to screw hole and vertical screw through-hole, connecting screw's outer end connects in horizontal screw hole soon, fine setting bolt connects in vertical screw through-hole soon.

Still as publication number CN110258816A discloses an adjustable rotation type precast concrete externally-hung wallboard and girder steel connection bearing node structure, including precast concrete externally-hung wallboard, its characterized in that: the precast concrete external wallboard is connected with the main body structure through a steel bracket structure;

the steel bracket structure comprises a steel bracket body, wherein a vertical steel plate of the steel bracket body is parallel to the precast concrete external wallboard, two sides of a central line, perpendicular to a transverse bottom plate, of the vertical steel plate are symmetrically provided with a U-shaped groove and a round hole, a rotatable connecting structure is installed in the U-shaped groove, and a horizontal positioning structure is installed in the round hole;

big round hole is seted up to the horizontal bottom plate of steel corbel body, installs bearing structure in it, is equipped with embedded structure in concrete floor, and bearing structure passes through embedded structure and fixed with the girder steel.

The above prior art has the following disadvantages: (1) the embedded parts arranged in the externally-hung light wall board are complex and are only connecting pieces, the externally-hung light wall board is light in weight and high in whole mass brittleness, when the embedded sections are damaged or even damaged, the whole externally-hung light wall board loses the fixed installation performance, and the whole externally-hung light wall board cannot be used continuously due to the fact that the externally-hung light wall board is difficult to repair due to high brittleness; (2) the wall surface structure is strong, the wall surface structure has good bearing performance and shake resistance, and in order to reduce the weight of the externally-hung light wall board, no measure for enhancing the thickness of the externally-hung light wall board is provided, and the whole weight is poor.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a point support flexible connection node of an externally hung unit type integrated light wall board, which is convenient to use, can carry vertically and horizontally, can save steel consumption, can reduce the installation engineering quantity of the node, and is convenient and rapid.

The invention adopts the technical scheme for solving the technical problems that: the point-supported flexible connecting node of the externally-hung unit-type integrated light wall board comprises a first externally-hung light wall board, a second externally-hung light wall board and steel beams, wherein the first externally-hung light wall board and the second externally-hung light wall board are arranged up and down, are provided with inner cavities and keels, and have installation intervals between the inner walls which are arranged opposite to the first externally-hung light wall board or the second externally-hung light wall board; also comprises

The upper hanging node is used for connecting the second external hanging light wall board and the steel beam, is fixedly connected with the second external hanging light wall board, is arranged at the mounting interval and is movably connected with the steel beam; and

and the lower insertion node is fixedly connected with the first externally hung light wallboard, is arranged at an installation interval and is movably connected with the second externally hung light wallboard.

According to the upper hanging node and the lower inserting node provided by the invention, the upper hanging node has two functions, so that the second outer hanging light wallboard can be hung on the steel beam and is not fixedly connected with the steel beam, the stability of the second outer hanging light wallboard can be ensured, the redundant processes of fixed connection can be avoided, time and labor are saved, the adjustment is convenient, the use height and the flatness of the second outer hanging wallboard can be quickly determined, and the efficiency can be improved; for the lower insertion node, the function is the same as that of the upper hanging node, so that the first externally hung light wall board and the second externally hung light wall board are quickly connected on one hand, and the adjustment is convenient on the other hand, and the use height and the flatness of the first externally hung light wall board are quickly determined; the keel has two functions, on one hand, as a reinforcing part, the thicknesses of the first externally hung light wall board and the second externally hung light wall board are thinner, the structural strength can be increased through the keel, so that when the upper hanging node and the lower inserting node act on the first externally hung light wall board and the second externally hung light wall board, a good bearing effect can be achieved, on the other hand, the keel is used as a connecting part, one more connecting point can be arranged when the upper hanging node is fixedly connected with the second externally hung light wall board, and the connecting effect of the upper hanging node is better.

Consider to hang the node simultaneously with the girder steel, the second hangs light wallboard outward and has the tie point, it includes the support to hang the node, first connecting piece, the support is fixed in the girder steel upper surface, and have the first notch of opening on, the left side part of first connecting piece is hung in first notch, the right side part is fixed in the second and hangs the installation interval of light wallboard and fossil fragments outward, first notch is diminished gradually by opening to bottom, can act on the second and hang light wallboard outward like this, can act on the girder steel again, and first notch can make first connecting piece not only can realize quick location in the location stage, and also can restrict the removal of first connecting piece about in the front and back, convenient and fast.

Further perfect, the second notch that has the opening under of first connecting piece, the second notch diminishes to the bottom by the entry gradually, not only can realize quick location like this at the location stage, and the joint strength between first connecting piece and the support is better after accomplishing the debugging moreover to improve stability.

Further perfect, the bottom surface of first connecting piece is the ladder setting, and the bottom surface of first connecting piece just has a plurality of heights like this, and each height has an effect or a mounting portion, and first connecting piece passes through the setting of bottom surface ladder and makes it can exist in hanging light wallboard outside the second, also can hang in the support, also makes simultaneously to have the packing interval between girder steel and the hanging light wallboard outside the second.

In order to enable the first externally hung light wall board and the second externally hung light wall board to bring common vertical load, the first connecting piece is fixed with an internal thread sleeve positioned on one side of the second notch, and a bearing bolt falling to the upper surface of the steel beam is screwed in the internal thread sleeve.

In order to realize that the lower insertion node can be fixedly connected with the first externally hung light wall board and also can be movably connected with the second externally hung light wall board, the lower insertion node comprises a second connecting piece, the second connecting piece is provided with a first insertion part and a second insertion part, the left side surface of the second insertion part and the left side surface of the first insertion part are in the same horizontal plane, the first insertion part is fixed in the installation gap between the first externally hung light wall board and the keel, the second insertion part is inserted into the second externally hung light wall board, and the lower insertion node is used for meeting the needed realization effect through two structures which are different in size but integrated, and is convenient and fast.

Stability in order to increase the node of inserting down in the second hangs light weight wallboard, the second portion of inserting is connected with being connected fossil fragments, connect fossil fragments 8 and install the upper surface at fossil fragments 4, the width of fossil fragments is the twice of second portion of inserting, such setting certainly can lead to the second portion of inserting to remove not stable enough in the second hangs light weight wallboard, lead to easily in the debugging cycle length, and need be with the help of more auxiliary members, and the width of connecting fossil fragments is close with the width of second portion of inserting, so the second portion of inserting receives the restraint in connecting fossil fragments to influence, make stably in the debugging process.

Further perfect, all have the reservation clearance between the preceding back lateral wall of connecting fossil fragments inner chamber and second portion of inserting, reserve the clearance and make the second portion of inserting have the debugging space in the preceding back direction, also remove from with the produced frictional force of first connection fossil fragments inner chamber wall contact from, avoid bringing the frustration to the removal debugging of second portion of inserting.

Further perfect, connect the fossil fragments and have the inner chamber and fix at least a stiffening plate for improve the use strength of connecting the fossil fragments, make the connection fossil fragments have good compressive property, also can regard as the removal gauge length of second portion of inserting simultaneously, make the debugging distance in this within range, and make the dislocation distance between first outer hanging light weight wallboard and the second outer hanging light weight wallboard not too big.

A mounting method of a point-supported flexible connecting node of an externally hung unit type integrated light wall board comprises the following steps:

(1) in the production stage, the internal thread sleeve is positioned and welded on the left side of the first connecting piece, the first connecting piece is welded to the installation gap between the second external hanging wallboard and the keel, and the first inserting part of the second connecting piece is welded in the installation gap between the first external hanging light wallboard and the keel;

(2) in the installation stage, a bearing bolt is preset in the internal thread sleeve, the support is positioned and welded on the steel beam, then the first connecting piece is hoisted and hung in a first notch of the support through a second notch, the bearing bolt also falls on the upper surface of the steel beam, and a second inserting part of the second connecting piece falls in the first connecting keel, so that position adjustment can be realized in X, Y, Z directions, and the use heights and flatness of the first externally hung light wall board and the second externally hung light wall board are adjusted;

(3) in the design stage, the first connecting piece can be freely adjusted up and down along the first notch of the support, and the second connecting piece can freely slide up and down, left and right in the second light externally-hung wallboard, so that the first light externally-hung wallboard and the second light externally-hung wallboard can move and rotate in the plane of the wallboard in the stage.

The invention has the beneficial effects that:

the light external wallboard comprises the upper hanging node and the lower inserting node, the node system can realize three-way adjustment of the light external wallboard in the installation stage, and the light external wallboard moves and rotates along the plane of the wallboard in the design stage, so that the light external wallboard is worthy of popularization.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is an exploded view of a first externally hung lightweight wall panel and a second externally hung lightweight wall panel hidden in accordance with the present invention;

FIG. 3 is a schematic plan view of a first connecting member according to the present invention;

FIG. 4 is a schematic plan view of a grooved support according to the present invention;

FIG. 5 is a schematic plan view of a second connector according to the present invention;

FIG. 6 is a schematic view of the structure A-A of FIG. 1 according to the present invention;

FIG. 7 is a schematic structural diagram of B-B in FIG. 1 according to the present invention

FIG. 8 is a schematic view of the completion status of the present invention implemented on an interior wall surface.

Detailed Description

The invention will be further described with reference to the accompanying drawings in which:

example 1

With reference to the accompanying drawings: the point-supported flexible connecting node of the externally-hung unit-type integrated light wall board comprises a first externally-hung light wall board 1, a second externally-hung light wall board 2 and a steel beam 3 which are arranged up and down, wherein the first externally-hung light wall board 1 and the second externally-hung light wall board 2 are both provided with inner cavities and keels 4, and an installation distance 41 is formed between the inner walls of the first externally-hung light wall board 1 or the second externally-hung light wall board 2 which are arranged oppositely; also comprises

The upper hanging node 5 is used for connecting the second external hanging light wall board 2 and the steel beam 3, and the upper hanging node 5 and the second external hanging light wall board 2 are fixedly connected and are arranged in the mounting space 41 and movably connected with the steel beam 3; and

and the lower insertion nodes 6 are used for connecting the first externally-hung light wall board 1 and the second externally-hung light wall board 2, and the lower insertion nodes 6 are fixedly connected with the first externally-hung light wall board 1, exist in the installation space 41 and are movably connected with the second externally-hung light wall board 2.

The upper hanging node 5 comprises a support 51 and a first connecting piece 52, the support 51 is fixed on the upper surface of the steel beam 3 and is provided with a first notch 51-a with an opening, the left side part of the first connecting piece 52 is hung in the first notch 51-a, the right side part of the first connecting piece 52 is fixed on the installation distance 41 between the second outer hanging light wallboard 2 and the keel 4, the first notch 51-a is gradually reduced from the opening to the bottom, the first notch 51-a has a positioning function and can quickly confirm the use position of the first connecting piece 52, meanwhile, the thickness of the first connecting piece 52 is t, the opening position of the first notch 51-a is t +4, so that the first connecting piece 52 can conveniently enter, the thickness of the bottom is t +2, the reserved width enables the first connecting piece 52 to have an adjusting distance, the arrangement of the second outer hanging light wallboard 2 is more flexible, and the first connecting piece is made of metal, its material can be for cast iron, stainless steel etc., it has good resistance to deformation, and have a certain weight, can increase the weight of the outer light weight wallboard 2 of hanging of second when being applied to the outer light weight wallboard 2 of hanging of second, make the outer light weight wallboard 2 of hanging of second that is located the below have good bottom basis through the increase of this weight, can avoid the unstable condition in bottom to take place in the wallboard is laid, especially seal behind the wall, can also further consolidate through the screw between the cement wall of outer laying and the outer light weight wallboard 2 of hanging of second, make wall strength high, and can resist the screw and come into to the time because of frictional force to first connecting piece 52, avoid first connecting piece 52 to appear the crack, whole quality is ensured.

The second notch 52-a of the first connecting piece 52 with the opening below is provided, the second notch 52-a is gradually reduced from the entrance to the bottom, the second notch 52-a can increase the hanging depth of the first connecting piece 52, so that the height difference between the steel beam and the second externally hung light wall board 2 can be adjusted more flexibly, meanwhile, the thickness of the first connecting piece 52 is t, the opening position of the second notch 51-a is t +4, the first connecting piece 52 can enter the first notch 52-a conveniently, the thickness of the bottom is t +2, the reserved width enables the first connecting piece 52 to have an adjusting distance, and the setting of the second externally hung light wall board 2 is more flexible.

The bottom surface of the first connecting piece 52 is arranged in a stepped manner, so that the bottom surface of the first connecting piece 52 has a plurality of heights, each height has a function or is a mounting part, the first connecting piece 52 can be arranged in the second outer hanging light wall board or hung on the support through the arrangement of the bottom surface steps, and meanwhile, a filling space is formed between the steel beam and the second outer hanging light wall board.

The first connecting piece 52 is fixedly provided with an internal thread sleeve 7 positioned on one side of the second notch 52-a, a bearing bolt 71 falling to the upper surface of the steel beam 3 is screwed in the internal thread sleeve 7, the bearing bolt 71 can rotate in the internal thread sleeve 7 to change the depth of the bearing bolt 71 in the internal thread sleeve 7, the depth of the bearing bolt 71 determines the depth of the first connecting piece 52 hanging on the support 6, the bearing bolt 71 has thread pitches, the size of each thread pitch is x, namely, one x is moved upwards and is x +1, and the like, so that the operation is convenient and fast, and the debugging can be fast carried out according to the required height.

The lower insertion point 6 comprises a second connecting piece 61, the second connecting piece 61 is provided with a first insertion part 61-a and a second insertion part 61-b, the left side surface of the second insertion part 61-b and the left side surface of the first insertion part 61-a are in the same horizontal plane, the first insertion part 14 is fixed in the installation gap 41 between the first externally-hung light wall board 1 and the keel 4, and the second insertion part 15 is inserted into the second externally-hung light wall board 2.

Second plug-in components 61-b is connected with connection fossil fragments 8, connect fossil fragments 8 and install the upper surface at fossil fragments 4, the width of fossil fragments 4 is the twice of second plug-in components 61-b, such setting up will certainly lead to second plug-in components 61-b to remove unstable inadequately in second outer string light weight wallboard 2, lead to easily debugging the cycle length, and need be with the help of more auxiliary members, and the width of connecting fossil fragments 8 is close with the width of second plug-in components, so second plug-in components 61-b receives the restraint influence in connecting fossil fragments 8 for it is stable in the debugging process.

Reserved gaps are formed between the inner cavity of the connecting keel 8 and the front and rear side walls of the second inserting portion 61-b, the reserved gaps enable the second inserting portion 61-b to have debugging space in the front and rear direction, friction force generated by contact with the inner cavity wall of the connecting keel 8 is also eliminated, and obstruction to moving debugging of the second inserting portion 61-b is avoided.

The connecting keel 8 is provided with an inner cavity and at least one stiffening plate 81 is fixed, the stiffening plate 81 is welded with the inner cavity of the connecting keel, the service strength of the connecting keel 8 is improved, the connecting keel 8 has good compression resistance, and meanwhile, the connecting keel can be used as a moving distance limit of the second inserting part 81-b, so that the debugging distance is within the range, and the dislocation distance between the first externally-hung light wall board 1 and the second externally-hung light wall board 2 is not too large.

Example 2:

referring to fig. 4, the bottom surface of the first connecting member 52 is stepped and includes a first step surface 52-b, a second step surface 52-c, and a third step surface 52-d, the height of the first step surface 52-b is h, the height of the second step surface 52-c is h +2, the height of the third step surface 52-d is h +4, the first connecting member 52 has a plurality of connecting points due to the difference in height, the second notch 52-a is located on the first step surface 52-b, after the first connecting member 52 is inserted, i.e., completely inserted, the upper end surface of the first connecting member 52 and the upper end surface of the support 6 are on the same horizontal plane, and the same horizontal plane is also used as the starting point of the first connecting member 52, so that the data of the upward movement can be clearly adjusted by matching with the bearing bolt 71, the bearing bolt 71 rotates one turn to represent a rising height, which is convenient and fast, and the second step surface 52-c enables the steel beam 3 to have a distance from the second light external wall panel 2, this spacing is used to lay cement and the third step 52-d can then fully enter the second externally hung lightweight wall panel 2.

Example 3:

referring to fig. 1, the keel 4 is C-shaped, and the C-shaped structure enables one end of the keel 4 to be an opening, and the opening enables a part of the third step surface 52-d of the first connecting member 52 or the first inserting portion 61-a of the second connecting member 61 to completely enter, that is, the front side surface of the third step surface 52-d or the first inserting portion 61-a is welded to the inner cavity of the second externally hung lightweight wall panel 2 or the side wall of the first externally hung lightweight wall panel 1, and the rear side surface is welded to the side wall opposite to the opening of the keel 4, so that the keel can be stably located between the first externally hung lightweight wall panel and the second externally hung lightweight wall panel, and the C-shaped keel can increase the structural strength of the first externally hung lightweight wall panel or the second externally hung lightweight wall panel, and enables the strength quality of the later-stage whole.

Example 4:

aiming at the installation method of the point-supported flexible connection node of the externally-hung unit type integrated light wallboard in the embodiment 1, the method comprises the following steps:

(1) in the production stage, the internal thread sleeve is positioned and welded on the left side of the first connecting piece, the first connecting piece is welded to the installation gap between the second external hanging wallboard and the keel, and the first inserting part of the second connecting piece is welded in the installation gap between the first external hanging light wallboard and the keel;

(2) in the installation stage, a bearing bolt is preset in the internal thread sleeve, the support is positioned and welded on the steel beam, then the first connecting piece is hoisted and hung in a first notch of the support through a second notch, the bearing bolt also falls on the upper surface of the steel beam, and a second inserting part of the second connecting piece falls in the first connecting keel, so that position adjustment can be realized in X, Y, Z directions, and the use heights and flatness of the first externally hung light wall board and the second externally hung light wall board are adjusted;

(3) in the design stage, the first connecting piece can be freely adjusted up and down along the first notch of the support, and the second connecting piece can freely slide up and down, left and right in the second light externally-hung wallboard, so that the first light externally-hung wallboard and the second light externally-hung wallboard can move and rotate in the plane of the wallboard in the stage.

While the invention has been shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the scope of the appended claims.

Claims (10)

1. The utility model provides an outer unit formula integration light weight wallboard point supports flexible connection node, includes first outer hanging light weight wallboard (1), the outer hanging light weight wallboard of second (2), girder steel (3) that upper and lower set up, its characterized in that: the first external light weight wallboard (1) and the second external light weight wallboard (2) are both provided with inner cavities and keels (4), and installation intervals (41) are arranged between the inner walls of the first external light weight wallboard (1) or the second external light weight wallboard (2) which are arranged oppositely; also comprises

The upper hanging node (5) is used for connecting the second external hanging light wall board (2) and the steel beam (3), and the upper hanging node (5) and the second external hanging light wall board (2) are fixedly connected and are arranged in a mounting space (41) and movably connected with the steel beam (3); and

the lower inserting node (6) is used for being connected with the first externally-hung light wall board (1) and the second externally-hung light wall board (2), and the lower inserting node (6) is fixedly connected with the first externally-hung light wall board (1), is arranged at an installation interval (41), and is movably connected with the second externally-hung light wall board (2).

2. The externally hung unitary integrated lightweight wallboard point-supported flexible connection node of claim 1, wherein: the upper hanging node (5) comprises a support (51) and a first connecting piece (52), the support (51) is fixed on the upper surface of the steel beam (3) and is provided with a first notch (51-a) with an opening, the left side part of the first connecting piece (52) is hung in the first notch (51-a), the right side part of the first connecting piece (52) is fixed on the mounting space (41) between the second outer hanging light wall plate (2) and the keel (4), and the first notch (51-a) is gradually reduced from the opening to the bottom.

3. The externally hung unitary integrated lightweight wallboard point-supported flexible connection node of claim 2, wherein: the first connector (52) has a second notch (52-a) which is open downward, and the second notch (52-a) is gradually smaller from the inlet to the bottom.

4. The externally hung unitary integrated lightweight wall panel point support flexible connection node of claim 3, wherein: the bottom surface of the first connecting piece (52) is arranged in a step shape.

5. The externally hung unitary integrated lightweight wall panel point support flexible connection node of claim 4, wherein: an internal thread sleeve (7) located on one side of the second notch (52-a) is fixed to the first connecting piece (52), and a bearing bolt (71) falling to the upper surface of the steel beam (3) is screwed in the internal thread sleeve (7).

6. The externally hung unitary integrated lightweight wallboard point-supported flexible connection node of claim 1, wherein: the lower insertion point (6) comprises a second connecting piece (61), the second connecting piece (61) is provided with a first insertion part (61-a) and a second insertion part (61-b), the left side surface of the second insertion part (61-b) and the left side surface of the first insertion part (61-a) are in the same horizontal plane, the first insertion part (14) is fixed in an installation gap (41) between the first externally hung light wall board (1) and the keel (4), and the second insertion part (15) is inserted into the second externally hung light wall board (2).

7. The externally hung unitary integrated lightweight wall panel point support flexible connection node of claim 6, wherein: the second inserting portion (61-b) is connected with a connecting keel (8), and the connecting keel (8) is installed on the upper surface of the keel (4).

8. The externally hung unitary integrated lightweight wall panel point support flexible connection node of claim 7, wherein: reserved gaps are reserved between the inner cavity of the connecting keel (8) and the front and rear side walls of the second inserting portion (61-b).

9. The externally hung unitary integrated lightweight wallboard point-supported flexible connection node of claim 8, wherein: the connecting keel (8) is provided with an inner cavity and is fixed with at least one stiffening plate (81).

10. A method for installing the point-supported flexible connection node of the externally hung unitary integrated lightweight wall panel according to any one of claims 1 to 9, comprising the steps of:

(1) in the production stage, the internal thread sleeve is positioned and welded on the left side of the first connecting piece, the first connecting piece is welded to the installation gap between the second external hanging wallboard and the keel, and the first inserting part of the second connecting piece is welded in the installation gap between the first external hanging light wallboard and the keel;

(2) in the installation stage, a bearing bolt is preset in the internal thread sleeve, the support is positioned and welded on the steel beam, then the first connecting piece is hoisted and hung in a first notch of the support through a second notch, the bearing bolt also falls on the upper surface of the steel beam, and a second inserting part of the second connecting piece falls in the connecting keel, so that position adjustment can be realized in X, Y, Z three directions, and the use heights and flatness of the first externally hung light wall board and the second externally hung light wall board are adjusted;

(3) in the design stage, the first connecting piece can be freely adjusted up and down along the first notch of the support, and the second connecting piece can freely slide up and down, left and right in the second light externally-hung wallboard, so that the first light externally-hung wallboard and the second light externally-hung wallboard can move and rotate in the plane of the wallboard in the stage.

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