CN116122461A - Assembled building wallboard connecting piece - Google Patents

Abstract

The invention relates to the technical field of assembled buildings, in particular to an assembled building wallboard connecting piece. The utility model provides a connecting piece to current assembled building wallboard use is difficult to adjust, and when installing last panel, the connecting piece is difficult to fix with the structure, can't guarantee the stable problem of whole assembled building wallboard, and the scheme of proposing includes two pre-buried stands, fixed mounting in the crossbeam between two stand tops, two be equipped with building wallboard subassembly between the stand, building wallboard subassembly includes a plurality of partition plates that include to splice by a plurality of surface symmetry setups tongue and groove and adjacent tongue and groove, two all be equipped with between the stand opposite sides and the crossbeam bottom and be used for carrying out the adjustable connecting piece mechanism of installation with building wallboard subassembly. The telescopic plate is arranged between the main connecting plate and the auxiliary connecting plate, so that the distance between the main connecting plate and the auxiliary connecting plate can be changed, and the adjusting function of the connecting piece is realized.

Description

Assembled building wallboard connecting piece

Technical Field

The invention relates to the technical field of assembled buildings, in particular to an assembled building wallboard connecting piece.

Background

The assembled building is formed by transferring a large amount of field operation work in a traditional building mode to a factory, processing and manufacturing building components and accessories in the factory, transporting to a building construction site, and assembling and installing on site through a reliable connection mode. The prefabricated building mainly comprises a prefabricated concrete structure, a steel structure, a modern wood structure building and the like, and is representative of a modern industrial production mode because standardized design, industrial production, assembly construction, informatization management and intelligent application are adopted.

The light partition board is a new energy-saving wall material, it is a wall material whose exterior is like hollow floor, but its two sides have male and female tenon grooves, and when it is mounted, it only needs to stand up the board, and the male and female tenon are assembled after coated with a small quantity of caulking mortar. It is made up by using several industrial waste residues of harmless phosphogypsum, light steel slag and fly ash, etc. through the processes of variable-frequency steam pressure curing. The light partition board has the advantages of light weight, high strength, multiple environmental protection, heat preservation, heat insulation, sound insulation, breathing, humidity regulation, fire prevention, rapid construction, wall cost reduction and the like. The inner layer is provided with a reasonably arranged heat-insulating and sound-absorbing inorganic foaming section or other heat-insulating materials, and the wallboard is formed by casting, leveling and scientific maintenance in a pipeline, so that the production automation degree is high, and the specification variety is many.

The assembled building wallboard is installed from one side of the main body structural surface, a U-shaped clamping piece is installed at the joint of the board and the structure to serve as a connecting piece, a shooting nail is installed on the side wall of the inner cavity of the U-shaped clamping piece to be fixed on the structure, and then the board is clamped into the clamping piece.

The connecting piece that current assembled building wallboard used is general U type zinc-plated draw-in groove, and this connecting piece uses fixed size generally, is difficult to adjust, and when the last panel of a wall of installation, the connecting piece is difficult to fix with the structure, fills anti-crack mortar usually between last panel and major structure, and last panel is close to the side of major structure and does not use the condition of connecting piece, can't guarantee the stability of whole assembled building wallboard.

For this purpose we have devised a fabricated building wallboard connector to solve the above problems.

Disclosure of Invention

The invention aims to provide an assembled building wallboard connecting piece, which has the advantages of being capable of being adjusted and being convenient to install on a stand column and a cross beam, and solves the problems that the connecting piece used by the traditional assembled building wallboard is difficult to adjust, and the connecting piece is difficult to fix with a structure when the last board is installed, so that the stability of the whole assembled building wallboard cannot be guaranteed.

In order to achieve the above purpose, the present invention provides the following technical solutions: the assembled building wallboard connecting piece comprises two pre-buried upright posts and a cross beam fixedly arranged between the top ends of the two upright posts, wherein a building wallboard assembly is arranged between the two upright posts, and comprises a plurality of partition boards which are symmetrically provided with male and female tenon grooves on a plurality of surfaces and are spliced by the adjacent male and female tenon grooves;

and an adjustable connecting piece mechanism for installing the building wallboard assembly is arranged between the opposite surfaces of the upright posts and the bottom end of the cross beam.

Preferably, the connecting piece mechanism comprises a main connecting plate and an auxiliary connecting plate, wherein the sections of the main connecting plate and the auxiliary connecting plate are of a U-shaped structure, an inner cavity with an opening at one side and square is arranged on one side of each of the main connecting plate and the auxiliary connecting plate, and two expansion plates which are symmetrically distributed are connected between the side surfaces, far away from the inner cavity, of each of the main connecting plate and the auxiliary connecting plate.

Preferably, the side that the inner chamber was kept away from to the main connecting plate has been seted up and has been run through main connecting plate both ends and be symmetrical distribution's first T type draw-in groove, the one end that the expansion plate is close to the main connecting plate is equipped with first T type draw-in groove assorted first cardboard, the side that the inner chamber was kept away from to the auxiliary connection board has been seted up and has been extended to both sides inside and run through the spacing groove at auxiliary connection board both ends, two expansion plate slidable mounting is in the spacing inslot, the one end that first cardboard was kept away from to the expansion plate both sides is equipped with spacing groove assorted bellying.

Preferably, the opposite surfaces of the two expansion plates are provided with evenly distributed pouring holes along the length direction, and the pouring holes are positioned on one side of the expansion plate close to the first clamping plate.

Preferably, the two sides of the building wallboard assembly are respectively positioned in the inner cavities of the two main connecting plates, the main connecting plates positioned below the cross beam are provided with a plurality of building wallboard assemblies, the top ends of the building wallboard assemblies are positioned in the inner cavities of the plurality of main connecting plates, and the main connecting plates are positioned between the top ends of two adjacent partition boards.

Preferably, the two stand columns and the cross beams are respectively positioned in the inner cavities of the three auxiliary connecting plates, and the first rivets which are distributed in a staggered manner and extend to the stand columns and the cross beams are arranged on two sides of the auxiliary connecting plates.

Preferably, the connecting piece mechanism further comprises a mounting plate, second T-shaped clamping grooves penetrating through two ends of the mounting plate and symmetrically distributed are formed in the side face, close to the auxiliary connecting plate, of the mounting plate, the second T-shaped clamping grooves are matched with the first clamping plates, and the auxiliary connecting plate is connected to one side of the mounting plate in a sliding mode through two telescopic plates.

Preferably, the building wallboard subassembly both sides are located two respectively the inner chamber of vice connecting plate, be located vice connecting plate below the crossbeam is provided with a plurality ofly, building wallboard subassembly top is located a plurality of vice connecting plate's inner chamber, vice connecting plate is located between two adjacent partition plate tops, two the stand is facing surface and crossbeam bottom respectively with three the mounting panel laminating, mounting panel surface mounting has and is symmetrical distribution and extends to stand and crossbeam's second rivet.

Preferably, a clamping plate which is symmetrically distributed is connected between the side surfaces of the mounting plate, away from the inner cavity, of the main connecting plate, and second clamping plates which are symmetrically distributed are arranged at two ends of the clamping plate and are respectively matched with the first T-shaped clamping groove and the second T-shaped clamping groove.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the invention, the telescopic plates are slidably arranged in the limit grooves of the auxiliary connecting plates, the main connecting plates are slidably arranged on the two telescopic plates, so that the positions between the main connecting plates and the auxiliary connecting plates can be changed, the adjusting function of connecting pieces is realized, three connecting piece mechanisms are respectively fixed on the two stand columns and the cross beam, the stand columns and the cross beam are respectively clamped into the inner cavities of the auxiliary connecting plates, the first rivets are shot from the two sides of the auxiliary connecting plates, the auxiliary connecting plates can be fixed on the opposite surfaces of the two stand columns and the bottom ends of the cross beam, the connecting piece mechanisms can be quickly assembled, the volume in the transportation process is reduced, the transportation is convenient, and the installation is convenient.

2. According to the invention, the auxiliary connecting plate and the mounting plate are assembled through the two expansion plates, the three mounting plates are respectively attached to the opposite surfaces of the two upright posts and the bottom end of the cross beam, and the second rivets are shot from the two sides of the surface of the mounting plate, so that the connecting piece mechanism can be conveniently mounted, and the connecting piece mechanism is suitable for different main body structures.

3. According to the invention, the mounting plate is selected for assembling with the main connecting plate through the two clamping plates by arranging one group of connecting piece mechanisms, and the first partition plate is clamped into the inner cavity of the main connecting plate, so that the first partition plate can abut against the upright post conveniently, the material consumption can be reduced, and the cost is saved.

Drawings

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

FIG. 2 is an explosion effect diagram of an embodiment of the present invention;

FIG. 3 is a top view of a connector mechanism according to an embodiment of the present invention;

FIG. 4 is a top view of an embodiment of the present invention with a connector mechanism deployed;

FIG. 5 is an exploded view of the connector mechanism under the cross beam in accordance with one embodiment of the present invention;

FIG. 6 is a schematic diagram of a second perspective structure of an embodiment of the present invention;

FIG. 7 is a diagram showing the explosion effect of the second embodiment of the present invention;

FIG. 8 is a top view of a second embodiment of the present invention with the connector mechanism deployed;

FIG. 9 is an exploded view of the connector mechanism under the cross beam in the second embodiment of the present invention;

fig. 10 is a top view of a three-connector mechanism according to an embodiment of the present invention.

In the figure: 1. a column; 2. a cross beam; 3. a building wallboard assembly; 4. a connector mechanism; 41. a main connecting plate; 411. a first T-shaped slot; 42. an auxiliary connecting plate; 421. a limit groove; 43. a telescoping plate; 431. a boss; 432. a first clamping plate; 44. a mounting plate; 441. a second T-shaped clamping groove; 45. a clamping plate; 451. a second clamping plate; 46. pouring holes; 47. a first rivet; 48. and a second rivet.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

Referring to fig. 1 to 5, the present invention provides a technical solution: the utility model provides an assembled building wallboard connecting piece, includes that two pre-buried stand 1, fixed mounting are in the crossbeam 2 between the 1 tops of two stands, its characterized in that: be equipped with building wallboard subassembly between two stand 1, building wallboard subassembly includes that a plurality of surface symmetries set up the partition plate 3 that the mortise and tenon groove is pieced together to adjacent mortise and tenon groove, and between two stand 1 opposite sides and crossbeam 2 bottom all are equipped with the adjustable connecting piece mechanism 4 that are used for carrying out the installation with building wallboard subassembly, and three connecting piece mechanism 4 are fixed between two stand 1 opposite sides and crossbeam 2 bottom back, can block building wallboard subassembly through the adjustment performance of connecting piece mechanism 4, keep building wallboard subassembly's stability.

The connecting piece mechanism 4 comprises a main connecting plate 41 and an auxiliary connecting plate 42, wherein the sections of the main connecting plate 41 and the auxiliary connecting plate 42 are of U-shaped structures, an inner cavity with one side being provided with an opening and being square is arranged on each of the main connecting plate 41 and the auxiliary connecting plate 42, two symmetrically distributed expansion plates 43 are connected between the side surfaces of the main connecting plate 41 and the auxiliary connecting plate 42, limiting grooves 421 which extend to the inside of two sides and penetrate through the two ends of the auxiliary connecting plate 42 are formed in the side surfaces of the auxiliary connecting plate 42, the two expansion plates 43 are slidably mounted in the limiting grooves 421, and the expansion plates 43 can horizontally move in the limiting grooves 421, so that the distance between the main connecting plate 41 and the auxiliary connecting plate 42 can be changed, and the adjusting function of the connecting piece is realized.

The implementation principle of the first embodiment is as follows: when the widths of the partition boards 3 are consistent with the widths of the upright posts 1 and the cross beams 2, three connecting piece mechanisms 4 are respectively clamped on the two upright posts 1 and the cross beams 2, the upright posts 1 and the cross beams 2 are respectively clamped into the inner cavities of the auxiliary connecting plates 42, first rivets 47 are shot into the auxiliary connecting plates 42 from two sides of the auxiliary connecting plates 42 close to the openings, the auxiliary connecting plates 42 are fixed on the opposite surfaces of the two upright posts 1 and the bottom ends of the cross beams 2, the building partition board assembly is installed from one side of the main structural surface, the installation direction is shown by the arrow direction of figure 2, the first partition board 3 is clamped into the inner cavity of the main connecting plate 41 in the initial direction of the arrow, the main connecting plate 41 and the side surface of the auxiliary connecting plates 42 far away from the inner cavity are jointed, the joint mode is shown by figure 3, the first shorter main connecting plate 41 below the cross beams 2 is pushed, the main connecting plate 41 and the two expansion plates 43 connected with the main connecting plates are slid in the horizontal direction, one half of the inner cavity of the first shorter main connecting plate 41 clamps one corner of the top end of the first partition plate 3, anti-crack mortar is smeared on the female groove on one side of the first partition plate 3 to splice the second partition plate 3, one corner of the top end of the second partition plate 3 clamps the other half of the inner cavity of the first main connecting plate 41, the second shorter main connecting plate 41 below the cross beam 2 is pushed, one half of the inner cavity of the second shorter main connecting plate 41 clamps one corner of the top end of the second partition plate 3, the rest partition plates 3 are sequentially installed, when the last partition plate 3 is spliced along the female groove on one side of the previous partition plate 3, the connecting piece mechanism 4 on the upright post 1 on one side of the last partition plate 3 is regulated, the main connecting plate 41 is pulled, the main connecting plate 41 drives the two expansion plates 43 to slide horizontally along the limiting grooves 421, so that the main connecting plate 41 can clamp the side of the last partition plate 3 adaptively, in the practical use process, the dimensions of the limiting groove 421 and the expansion plate 43 can be adaptively adjusted in production to achieve better adaptation effect; the three connecting piece mechanisms 4 are used for fixing the building wallboard assembly from the two sides and the top of the building wallboard assembly respectively, so that the stability of the building wallboard assembly can be kept, anti-cracking mortar is smeared at all the joints, and a piece of glass fiber grid cloth is hung to prevent the mortar from cracking;

when the partition plate 3 does not meet the height of the cross beam 2, the connecting piece mechanism 4 below the cross beam 2 can be adjusted, the shorter main connecting plate 41 is pulled downwards, the shorter main connecting plate 41 drives the two telescopic plates 43 to move downwards along the two limiting grooves 421, so that the main connecting plate 41 can still clamp one corner of the top end of the partition plate 3, and the main connecting plate 41 and the auxiliary connecting plate 42 described in the embodiment can be arranged on the opposite surfaces of the two upright posts 1 and the bottom end of the cross beam 2.

Example two

Referring to fig. 6 to 9, in this embodiment, the connecting member mechanism 4 is substantially the same as the first embodiment, the side of the main connecting plate 41 away from the inner cavity is provided with first T-shaped slots 411 extending through two ends of the main connecting plate 41 and symmetrically distributed, one end of the expansion plate 43 close to the main connecting plate 41 is provided with a first clamping plate 432 matched with the first T-shaped slots 411, two ends of the expansion plate 43 away from the first clamping plate 432 are provided with protruding portions 431 matched with the limiting slots 421, the two expansion plates 43 can be clamped into the main connecting plate 41, the main connecting plate 41 and the expansion plate 43 are facilitated, meanwhile the expansion plate 43 can slide in the first T-shaped slots 411, and the connecting member mechanism 4 below the cross beam 2 is facilitated to move horizontally.

The opposite sides of the two expansion plates 43 are provided with the filling holes 46 which are uniformly distributed along the length direction, after the main connecting plate 41 and the auxiliary connecting plate 42 are unfolded, a cavity is formed among the main connecting plate 41, the auxiliary connecting plate 42 and the two expansion plates 43, the strength of the unfolded connecting piece mechanism 4 can be improved by injecting mortar into the filling holes 46, the unfolding mode is shown in fig. 4, the whole assembled building wallboard does not have a hollow place, in the mortar injection process, air can be discharged from the filling holes 46, the filling holes 46 are positioned on one side, close to the first clamping plate 432, of the expansion plates 43, only a bit is pulled out in the limiting groove 421, and the filling holes 46 can be exposed from the auxiliary connecting plate 42, so that the mortar can be conveniently injected when the main connecting plate 41 and the auxiliary connecting plate 42 are not completely unfolded.

The building wallboard subassembly both sides are located the inner chamber of two main connecting plates 41 respectively, main connecting plate 41 that is located crossbeam 2 below is provided with a plurality of, building wallboard subassembly top is located the inner chamber of a plurality of main connecting plates 41, main connecting plate 41 is located the junction at two adjacent partition plate 3 tops, two stand 1 and crossbeam 2 are located the inner chamber of three vice connecting plate 42 respectively, first rivet 47 that is dislocation distribution and extend to stand 1 and crossbeam 2 is installed to the both sides of vice connecting plate 42, first rivet 47 of the both sides that are close to vice connecting plate 42 open-ended get into stand 1 and crossbeam 2 in opposite directions, dislocation distribution's setting avoids the first rivet 47 of the same position to influence each other, thereby result in not being fixed firm with vice connecting plate 42.

The implementation principle of the second embodiment is as follows: the telescopic plates 43 are slidably installed in the two limiting grooves 421, the first clamping plates 432 of the two telescopic plates 43 are aligned with the first T-shaped clamping grooves 411, the main connecting plates 41 are slidably installed on the two telescopic plates 43, the assembly of the connecting piece mechanisms 4 is sequentially completed, the length of the main connecting plates 41 below the cross beam 2 is shorter, the three connecting piece mechanisms 4 are respectively fixed on the two upright posts 1 and the cross beam 2 through the first rivets 47, the fixity of the connecting piece mechanisms 4 is improved, the upright posts 1 and the cross beam 2 are respectively clamped into the inner cavities of the auxiliary connecting plates 42, the connecting piece mechanisms 4 can be quickly assembled, the size in the transportation process is reduced, the transportation is convenient, and the installation is convenient.

Example III

Referring to fig. 6 to 9, the present embodiment is substantially the same as the second embodiment, and further, the mounting plate 44 is disposed to be attached to the opposite surfaces of the two upright posts 1 and the bottom end of the cross beam 2, in this embodiment, the connector mechanism 4 further includes the mounting plate 44, the side surface of the mounting plate 44 near the auxiliary connection plate 42 is provided with second T-shaped clamping grooves 441 penetrating through two ends of the mounting plate 44 and symmetrically distributed, the second T-shaped clamping grooves 441 are matched with the first clamping plates 432, and one side of the mounting plate 44 is slidably connected with the auxiliary connection plate 42 through two expansion plates 43.

The building wallboard assembly both sides are located the inner chamber of two vice connecting plates 42 respectively, and vice connecting plate 42 that is located crossbeam 2 below is provided with a plurality ofly, and building wallboard assembly top is located the inner chamber of a plurality of vice connecting plates 42, and vice connecting plate 42 is located between two adjacent partition plate 3 tops, and two stand 1 face in opposite directions and crossbeam 2 bottom are laminated with three mounting panel 44 respectively, and mounting panel 44 surface mounting is the second rivet 48 that is symmetrical distribution and extend to stand 1 and crossbeam 2.

The implementation principle of the third embodiment is as follows: when the width of the partition plate 3 is smaller than that of the upright posts 1 and the cross beam 2, the telescopic plates 43 are slidably installed in the two limit grooves 421 along the two ends of the auxiliary connecting plate 42, the first clamping plates 432 of the two telescopic plates 43 are aligned with the second T-shaped clamping grooves 441, the mounting plates 44 are slidably installed on the two telescopic plates 43, the assembly of the connecting piece mechanisms 4 is sequentially completed, the length of the auxiliary connecting plate 42 below the cross beam 2 is shorter, the three connecting piece mechanisms 4 are respectively fixed on the two upright posts 1 and the cross beam 2, the three mounting plates 44 are respectively attached to the opposite surfaces of the two upright posts 1 and the bottom end of the cross beam 2, the second rivets 48 are injected from the two sides of the surface of the mounting plates 44, the mounting plates 44 are fixed on the opposite surfaces of the two upright posts 1 and the bottom end of the cross beam 2, and the mounting plates 44 can be quickly fixed with the upright posts and the cross beam 2, so that the operation is convenient.

Example IV

Referring to fig. 10, the difference between the present embodiment and the second embodiment is that the mounting plate 44 and the main connecting plate 41 are combined by two clamping plates 45, in the present embodiment, the clamping plates 45 that are symmetrically distributed are connected between the sides of the mounting plate 44 and the main connecting plate 41 far away from the inner cavity, two ends of the clamping plates 45 are provided with second clamping plates 451 that are symmetrically distributed, and the two second clamping plates 451 are respectively matched with the first T-shaped clamping groove 411 and the second T-shaped clamping groove 441.

The implementation principle of the fourth embodiment is as follows: when the width of partition plate 3 is less than the width of stand 1, crossbeam 2, wherein a set of connecting piece mechanism 4 selects mounting panel 44 and main connecting plate 41 to assemble through two joint boards 45, two joint boards 45 of two second T type draw-in grooves 441 slidable mounting along mounting panel 44, keep away from the first T type draw-in groove 411 of two second cardboard 451 alignment of mounting panel 44 with joint board 45, slidable mounting main connecting plate 41 on two joint boards 45, the building wallboard subassembly begins to install from main structure face side, the installation direction is as shown in the arrow direction of fig. 6, the connecting piece mechanism 4 through two joint boards 45 equipment is installed on the stand 1 of the initial direction of arrow, first partition plate 3 card is gone into main connecting plate 41 inner chamber, make the structure of this set of connecting piece mechanism 4 more stable, be convenient for first partition plate 3 to support and lean on stand 1, the while can reduce materials, the cost is saved.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides an assembled building wallboard connecting piece, includes two pre-buried stand (1), fixed mounting crossbeam (2) between two stand (1) tops, its characterized in that: a building wallboard assembly is arranged between the two upright posts (1), and comprises a plurality of partition boards (3) with symmetrically arranged male and female tenon grooves on the surfaces and spliced by adjacent male and female tenon grooves;

an adjustable connecting piece mechanism (4) used for being installed with the building wallboard component is arranged between the opposite surfaces of the two upright posts (1) and at the bottom end of the cross beam (2).

2. A fabricated building wallboard connector as claimed in claim 1, wherein: the connecting piece mechanism (4) comprises a main connecting plate (41) and an auxiliary connecting plate (42) with U-shaped cross sections, wherein one side of the main connecting plate (41) and one side of the auxiliary connecting plate (42) are provided with an inner cavity which is open and square, and two expansion plates (43) which are symmetrically distributed are connected between the side surfaces, far away from the inner cavity, of the main connecting plate (41) and the auxiliary connecting plate (42).

3. A fabricated building wallboard connector as claimed in claim 2, wherein: the side that inner chamber was kept away from to main connecting plate (41) has been seted up and has been run through main connecting plate (41) both ends and be first T type draw-in groove (411) of symmetric distribution, expansion plate (43) are close to the one end of main connecting plate (41) be equipped with first T type draw-in groove (411) assorted first cardboard (432), the side that inner chamber was kept away from to auxiliary connection board (42) has been seted up and has been extended to both sides inside and run through spacing groove (421) at auxiliary connection board (42) both ends, two expansion plate (43) slidable mounting is in spacing groove (421), the one end that first cardboard (432) was kept away from to expansion plate (43) both sides is equipped with spacing groove (421) assorted bellying.

4. A fabricated building wallboard connector as claimed in claim 3, wherein: the opposite surfaces of the two expansion plates (43) are provided with evenly distributed filling holes (46) along the length direction, and the filling holes (46) are positioned on one side of the expansion plates (43) close to the first clamping plate (432).

5. A fabricated building wallboard connector according to claim 4, wherein: the building wallboard assembly is characterized in that two sides of the building wallboard assembly are respectively located in inner cavities of the two main connecting plates (41), the main connecting plates (41) located below the cross beam (2) are provided with a plurality of building wallboard assemblies, the top ends of the building wallboard assemblies are located in the inner cavities of the plurality of main connecting plates (41), and the main connecting plates (41) are located between the top ends of two adjacent partition boards (3).

6. A fabricated building wallboard connector according to claim 5, wherein: the two stand columns (1) and the cross beams (2) are respectively positioned in the inner cavities of the three auxiliary connecting plates (42), and first rivets (47) which are distributed in a staggered mode and extend to the stand columns (1) and the cross beams (2) are arranged on two sides of the auxiliary connecting plates (42).

7. A fabricated building wallboard connector according to claim 4, wherein: the connecting piece mechanism (4) further comprises a mounting plate (44), second T-shaped clamping grooves (441) which penetrate through two ends of the mounting plate (44) and are symmetrically distributed are formed in the side face, close to the auxiliary connecting plate (42), of the mounting plate (44), the second T-shaped clamping grooves (441) are matched with the first clamping plate (432), and the auxiliary connecting plate (42) is connected to one side of the mounting plate (44) through two telescopic plates (43) in a sliding mode.

8. A fabricated building wallboard connector according to claim 7, wherein: the building wallboard assembly is characterized in that two sides of the building wallboard assembly are respectively located in inner cavities of the auxiliary connecting plates (42), the auxiliary connecting plates (42) located below the cross beam (2) are provided with a plurality of building wallboard assembly tops are located in the inner cavities of the auxiliary connecting plates (42), the auxiliary connecting plates (42) are located between the tops of two adjacent partition boards (3), two opposite faces of the upright post (1) and the bottom of the cross beam (2) are respectively attached to three mounting plates (44), and second rivets (48) which are symmetrically distributed and extend to the upright post (1) and the cross beam (2) are arranged on the surface of each mounting plate (44).

9. A fabricated building wallboard connector according to claim 8, wherein: the mounting plate (44) is connected with a clamping plate (45) which is symmetrically distributed between the side surface, far away from the inner cavity, of the main connecting plate (41), second clamping plates (451) which are symmetrically distributed are arranged at two ends of the clamping plate (45), and the two second clamping plates (451) are respectively matched with the first T-shaped clamping groove (411) and the second T-shaped clamping groove (441).

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