CN116464213A - Assembly structure of prefabricated wallboard of building assembly engineering - Google Patents

Abstract

The invention relates to the technical field of prefabricated wallboard assembly, in particular to an assembly structure of a prefabricated wallboard in building assembly engineering, which comprises a beam body, a short-side limit structure, a long-side limit structure and a prefabricated wallboard body, wherein an insulating layer is arranged between an inner wall body and an outer wall body of the prefabricated wallboard body, the adjacent prefabricated wallboard bodies are connected through convex strips and sliding grooves, two vertical parts of U-shaped steel bars are respectively inserted into a first slot and a second slot, and two sides of the prefabricated wallboard body are provided with an inner decorative panel, an outer decorative panel and a waterproof strip through expansion screws. In the invention, the heat insulation layer can improve heat insulation performance, the keel frame is used for paving and installing the veneer, and the moistureproof film can reduce the moistureproof deformation of the wooden component; the inner and outer reinforcement mesh layers and the short and long limit structures improve the firmness; the U-shaped steel bar plays a role in secondary limiting and fixing; waterproof strips are arranged in grooves between adjacent veneer panels, cement, mortar and other binders are used for connecting gaps in the traditional construction, and the waterproof strips are convenient to dismantle in the later stage.

Description

Assembly structure of prefabricated wallboard of building assembly engineering

Technical Field

The invention relates to the technical field of prefabricated wallboard assembly, in particular to an assembly structure of prefabricated wallboards in building assembly engineering.

Background

The prefabricated wallboards are assembled in the building assembly engineering generally, and the prefabricated wallboards made of concrete are used for building an assembled large-plate building, however, the traditional prefabricated wallboards are often assembled by simple stacking, the prefabricated wallboards are poor in functional structure and poor in attractiveness, the foundation layers are required to be cleaned and leveled when the prefabricated wallboards are decorated in the later stage, the steps of painting wall paint and the like are required, the beautification and the decoration are complicated, and meanwhile, gaps between the prefabricated wallboards are generally bonded and connected by adopting cement, mortar and other adhesives, so that the later stage dismantling is not facilitated, and the traditional prefabricated wallboard assembly is required to be improved in view of the fact that the problems are solved;

the above information disclosed in this background section is only for the understanding of the background of the inventive concept and, therefore, it may contain information that does not form the prior art.

Disclosure of Invention

The invention aims to provide an assembly structure of a prefabricated wallboard in a building assembly engineering, which solves the problems in the background technology.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the assembly structure of the prefabricated wallboard of the building assembly engineering comprises a beam body, a short-side limiting structure, a long-side limiting structure and a prefabricated wallboard body, wherein a plurality of U-shaped steel bars are symmetrically arranged on one side of the beam body, and each U-shaped steel bar comprises two vertical parts and a horizontal part;

the top end surface and the bottom end surface of the prefabricated wallboard body are respectively provided with a short-side limiting structure, two sides of the prefabricated wallboard body are symmetrically provided with a long-side limiting structure, the short-side limiting structure comprises a horizontal plate, one side of the horizontal plate is symmetrically and equidistantly provided with a plurality of first limiting pieces, the middle part of each first limiting piece is provided with a first through hole, the long-side limiting structure comprises a vertical plate, one side of the vertical plate is symmetrically and equidistantly provided with a plurality of second limiting pieces, and the middle part of each second limiting piece is provided with a second through hole;

the prefabricated wallboard body comprises an inner wall body and an outer wall body, wherein an inner reinforcing steel bar mesh layer and an outer reinforcing steel bar mesh layer are respectively arranged on one side, opposite to the inner wall body and the outer wall body, of the prefabricated wallboard body, and a heat preservation layer is arranged between the inner reinforcing steel bar mesh layer and the outer reinforcing steel bar mesh layer;

the long-side limiting structure positioned on one side of the prefabricated wallboard body is provided with a convex strip, the long-side limiting structure positioned on the other side of the prefabricated wallboard body is provided with a sliding groove, and the adjacent prefabricated wallboard bodies are in sliding connection through the convex strip and the sliding groove which are mutually matched;

the two ends of the convex strip are symmetrically provided with first slots, the two ends of the sliding groove are symmetrically provided with second slots, one vertical part of the U-shaped steel bar arranged on one side of the beam body is inserted and fixed in the first slots, and the other vertical part of the U-shaped steel bar is inserted and fixed in the second slots;

an inner decoration panel is arranged on one side of the prefabricated wallboard body through an expansion screw, an outer decoration panel is arranged on the other side of the prefabricated wallboard body through an expansion screw, grooves are symmetrically formed in one side, adjacent to the inner decoration panel, of the outer decoration panel, and waterproof strips are clamped in the grooves of the outer decoration panel;

in addition, the preferable structure is that the inner reinforcing mesh layer and the outer reinforcing mesh layer are formed by interweaving warp-wise reinforcing steel bars and weft-wise reinforcing steel bars, and both ends of the warp-wise reinforcing steel bars and the weft-wise reinforcing steel bars of the inner reinforcing mesh layer and the outer reinforcing mesh layer extend to 2cm-6cm outside the prefabricated wallboard body.

In addition, the preferred structure is, a plurality of welding holes have been seted up to the symmetry respectively on the horizontal plate of minor face limit structure and the perpendicular board of long limit structure, the welding hole on the horizontal plate is inserted respectively and is equipped with the both ends of inside reinforcing bar net layer and outside reinforcing bar net layer warp direction reinforcing bar, the welding hole on the perpendicular board is inserted respectively and is equipped with the both ends of inside reinforcing bar net layer and outside reinforcing bar net layer weft direction reinforcing bar, wherein the thickness of horizontal plate and perpendicular board sets up to 2cm-6cm to the both ends and the welding hole flush welding of inside reinforcing bar net layer and outside reinforcing bar net layer warp direction reinforcing bar and weft direction reinforcing bar are fixed.

In addition, the preferable structure is, be provided with a plurality of screw hole on interior panel and the exterior panel respectively to every screw hole is respectively with the first through-hole in first spacing piece middle part and the second through-hole in second spacing piece middle part one-to-one, expansion screw thread runs through in proper order behind screw hole, first through-hole, second through-hole with prefabricated wallboard body's interior wall body and outer wall body threaded connection.

In addition, the preferable structure is, be provided with first keel frame between the interior wall body of prefabricated wallboard body and the interior panel, be provided with the second keel frame between the outer wall body of prefabricated wallboard body and the exterior panel.

In addition, the preferable structure is that an inner interlayer is laid on one side of the first keel frame close to the inner wall body, an outer interlayer is laid on one side of the second keel frame close to the outer wall body, the thicknesses of the inner interlayer and the outer interlayer are 2mm-4mm, and the inner interlayer and the outer interlayer are dampproof films.

The beneficial effects of the invention are as follows:

1. the prefabricated wallboard body comprising the inner wall body, the outer wall body and the heat preservation layer is arranged, and the two sides of the prefabricated wallboard body are respectively provided with the keel frame through the interlayer made of the moisture-proof film material, wherein the heat preservation layer between the inner wall body and the outer wall body can improve the heat preservation performance of the prefabricated wallboard body, the keel frame is used for paving and installing the veneer better, and the moisture-proof film can reduce the moisture-proof deformation of the keel frame and the veneer;

2. the inner reinforcing steel bar mesh layer and the outer reinforcing steel bar mesh layer which are respectively extended out of the prefabricated wallboard body are arranged in the prefabricated wallboard body, the reinforcing steel mesh layer can improve the integral strength of the prefabricated wallboard body, and the two ends of the warp reinforcing steel bars and the weft reinforcing steel bars of the inner reinforcing steel bar mesh layer and the outer reinforcing steel bar mesh layer are respectively welded and fixed with welding holes of the short-side limiting structure and the long-side limiting structure in a leveled manner, so that an outer frame structure which is formed by welding and fixing the inner reinforcing steel bar mesh layer and consists of the short-side limiting structure and the long-side limiting structure is formed outside the prefabricated wallboard body, and the firmness of the prefabricated wallboard body is further improved;

3. the convex strips and the sliding grooves are symmetrically arranged on the two sides of the prefabricated wallboard body, the adjacent prefabricated wallboard bodies are connected in a sliding mode through the mutually matched convex strips and sliding grooves, the first slots and the second slots are symmetrically formed in the two ends of the convex strips and the sliding grooves, one vertical part of the U-shaped reinforcing steel bar on one side of the beam body is inserted and fixed in the first slot, the other vertical part of the U-shaped reinforcing steel bar is inserted and fixed in the second slot, secondary limiting and fixing are conducted between the adjacent prefabricated wallboard bodies, the labor consumption on site can be reduced, and the building construction period is shortened;

4. install interior panel and exterior trimming panel respectively in the both sides of prefabricated wallboard body through the inflation screw, wherein the recess inside callipers that interior trimming panel and the adjacent one side symmetry of exterior trimming panel offered is equipped with the waterproof strip, adopts cement, binder such as mortar to bond the connection to the clearance in removing traditional construction from, and the later stage of being convenient for demolishs, has improved dismouting efficiency.

Drawings

Fig. 1 is a schematic structural view of an assembled structure of a prefabricated wallboard for building assembly engineering according to the present invention;

FIG. 2 is a top view of an assembled structure of prefabricated wall panels for building assembly according to the present invention;

FIG. 3 is an enlarged view of A in FIG. 2 of an assembled block diagram of a prefabricated wall panel of a building assembly project according to the present invention;

fig. 4 is an exploded view of a short side limit structure, a long side limit structure, an inner reinforcing mesh layer and an outer reinforcing mesh layer in an assembled structure of a prefabricated wallboard for building assembly engineering according to the present invention;

fig. 5 is a schematic perspective view of a beam and U-shaped steel bars in an assembled structure of a prefabricated wallboard for building assembly engineering according to the present invention;

fig. 6 is a schematic structural view of a prefabricated wall panel body, an interior panel and an exterior panel in an assembled structure of a prefabricated wall panel for building assembly engineering according to the present invention.

In the figure: the wall comprises a beam body, 2U-shaped steel bars, a 3 short side limiting structure, a 31 horizontal plate, a 32 first limiting piece, a 33 first through hole, a 4 long side limiting structure, a 41 vertical plate, a 42 second limiting piece, a 43 second through hole, a 5 prefabricated wall plate body, a 51 inner wall body, a 52 outer wall body, a 53 heat insulation layer, 61 convex strips, 62 sliding grooves, 71 first slots, 72 second slots, 81 inner separation layers, 82 outer separation layers, 91 inner decoration plates, 92 outer decoration plates, 10 grooves, 11 waterproof strips, 121 welding holes, 122 threaded holes, 131 inner reinforcement mesh layers, 132 outer reinforcement mesh layers, 141 first keel frames, 142 second keel frames and 15 expansion screws.

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.

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present invention, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

Referring to fig. 1 to 6, an assembly structure of a prefabricated wallboard of a building assembly engineering comprises a beam body 1, a short side limiting structure 3, a long side limiting structure 4 and a prefabricated wallboard body 5, wherein a plurality of U-shaped steel bars 2 are symmetrically arranged on one side of the beam body 1, and each U-shaped steel bar 2 comprises two vertical parts and a horizontal part;

the prefabricated wallboard body 5 comprises an inner wall body 51 and an outer wall body 52, wherein an inner reinforcing mesh layer 131 and an outer reinforcing mesh layer 132 are respectively arranged on the opposite sides of the inner wall body 51 and the outer wall body 52, and a heat preservation layer 52 is arranged between the inner reinforcing mesh layer 131 and the outer reinforcing mesh layer 132;

through the design, the heat preservation layer 53 is arranged between the inner reinforcing mesh layer 131 of the inner wall body 51 and the outer reinforcing mesh layer 132 of the outer wall body 52, wherein the heat preservation layer 53 can improve the heat preservation performance of the prefabricated wall board body 5, and the inner reinforcing mesh layer 131 and the outer reinforcing mesh layer 132 not only can play a role in improving the integral strength of the prefabricated wall board body 5, but also can play a limiting role on the heat preservation layer 53;

in other embodiments, the inner reinforcing mesh layer 131 and the outer reinforcing mesh layer 132 are formed by interweaving warp-wise reinforcing bars and weft-wise reinforcing bars, and both ends of the warp-wise reinforcing bars and the weft-wise reinforcing bars of the inner reinforcing mesh layer 131 and the outer reinforcing mesh layer 132 extend 2cm-6cm outside the prefabricated wallboard body 5;

wherein, a plurality of welding holes 121 are symmetrically arranged on the horizontal plate 31 of the short side limit structure 3 and the vertical plate 41 of the long side limit structure 4 respectively, and when assembling, an operator inserts the welding holes 121 on the horizontal plate 31 into two ends of warp-wise reinforcing steel bars of the inner reinforcing steel bar mesh layer 131 and the outer reinforcing steel bar mesh layer 132 respectively, and inserts the welding holes 121 on the vertical plate 41 into two ends of weft-wise reinforcing steel bars of the inner reinforcing steel bar mesh layer 131 and the outer reinforcing steel bar mesh layer 132 respectively;

further, the thicknesses of the horizontal plate 31 and the vertical plate 41 are set to be 2cm-6cm, the lengths of the warp-direction reinforcing steel bars and the weft-direction reinforcing steel bars of the inner reinforcing steel bar mesh layer 131 and the outer reinforcing steel bar mesh layer 132 extending out of the prefabricated wall panel body 5 are set to be 2cm-6cm as well as the thicknesses of the horizontal plate 31 and the vertical plate 41, the horizontal plate 31 and the vertical plate 41 are matched with each other, an operator cuts off overlong reinforcing steel bars, and then the two ends of the warp-direction reinforcing steel bars and the weft-direction reinforcing steel bars of the inner reinforcing steel bar mesh layer 131 and the outer reinforcing steel bar mesh layer 132 are welded and fixed with the welding holes 121 in a flat manner;

through the design, the whole strength of the prefabricated wallboard body 5 can be improved by the inner reinforcing mesh layer 131 and the outer reinforcing mesh layer 132, and the two ends of the warp-direction reinforcing steel bars and the weft-direction reinforcing steel bars of the inner reinforcing mesh layer 131 and the outer reinforcing mesh layer 132 are welded and fixed with the welding holes 121 of the short-side limiting structure 3 and the long-side limiting structure 4 in a leveled manner, so that an outer frame structure formed by welding the inner reinforcing mesh layer 131, the outer reinforcing mesh layer 132, the short-side limiting structure 3 and the long-side limiting structure 4 inside the prefabricated wallboard body 5 is formed outside the prefabricated wallboard body 5, and the firmness of the prefabricated wallboard body 5 is further improved;

the top end surface and the bottom end surface of the prefabricated wallboard body 5 are respectively provided with a short-side limiting structure 3, two sides of the prefabricated wallboard body 5 are symmetrically provided with a long-side limiting structure 4, wherein the short-side limiting structure 3 comprises a horizontal plate 31, one side of the horizontal plate 31 is symmetrically and equidistantly provided with a plurality of first limiting plates 32, the middle part of each first limiting plate 32 is provided with a first through hole 33, the long-side limiting structure 4 comprises a vertical plate 41, one side of the vertical plate 41 is symmetrically and equidistantly provided with a plurality of second limiting plates 42, and the middle part of each second limiting plate 42 is provided with a second through hole 43;

in other embodiments, the inner decoration panel 91 and the outer decoration panel 92 are respectively provided with a plurality of threaded holes 122, and each threaded hole 122 is respectively opposite to the first through hole 33 in the middle of the first limiting plate 32 and the second through hole 43 in the middle of the second limiting plate 42 one by one;

through the design, when the inner decoration panel 91 and the outer decoration panel 92 are respectively arranged on two sides of the prefabricated wall panel body 5, an operator firstly passes the expansion screw 15 through the threaded hole 122, the first through hole 33 and the second through hole 43 in sequence in a threaded manner, and then is in threaded connection with the inner wall body 51 and the outer wall body 52 of the prefabricated wall panel body 5, so that better limit installation is achieved;

the long-side limiting structure 4 positioned on one side of the prefabricated wallboard body 5 is provided with a convex strip 61, the long-side limiting structure 4 positioned on the other side of the prefabricated wallboard body 5 is provided with a sliding groove 62, and the adjacent prefabricated wallboard bodies 5 are in sliding connection through the convex strips 61 and the sliding grooves 62 which are mutually matched;

the two ends of the raised strip 61 are symmetrically provided with a first slot 71, the two ends of the sliding groove 62 are symmetrically provided with a second slot 72, one vertical part of the U-shaped steel bar 2 arranged on one side of the beam body 1 is inserted and fixed in the first slot 71, and the other vertical part of the U-shaped steel bar 2 is inserted and fixed in the second slot 72;

by the design, the convex strips 61 and the sliding grooves 62 are symmetrically arranged on the two sides of the prefabricated wall panel body 5, so that the adjacent prefabricated wall panel bodies 5 are in sliding connection through the mutually matched convex strips 61 and the sliding grooves 62;

the two ends of the raised line 61 and the sliding groove 62 are symmetrically provided with a first slot 71 and a second slot 72, one vertical part of the U-shaped steel bar 2 on one side of the beam body 1 is inserted and fixed in the first slot 71, and the other vertical part of the U-shaped steel bar 2 is inserted and fixed in the second slot 72, so that the adjacent prefabricated wallboard bodies 5 are subjected to secondary limiting and fixing, the labor consumption on site can be reduced, and the building assembly period is shortened;

an inner decoration panel 91 is arranged on one side of the prefabricated wallboard body 5 through an expansion screw 15, an outer decoration panel 92 is arranged on the other side of the prefabricated wallboard body 5 through the expansion screw 15, grooves 10 are symmetrically formed on one side, adjacent to the inner decoration panel 91 and the outer decoration panel 92, of the inner decoration panel 91, and waterproof strips 11 are arranged in the grooves 10 of the inner decoration panel 91 and the outer decoration panel 92 in a clamped mode;

through the design, firstly, an operator installs the interior decoration panel 91 and the exterior decoration panel 92 on two sides of the prefabricated wallboard body 5 respectively through the expansion screw 15, wherein the waterproof strip 11 is clamped in the groove 10 symmetrically formed on the adjacent side of the interior decoration panel 91 and the exterior decoration panel 92, the bonding connection of cement, mortar and other adhesives to gaps in the traditional construction is avoided, the later dismantling is facilitated, and the disassembly and assembly efficiency is improved;

in other embodiments, a first keel frame 141 is arranged between the inner wall body 51 and the inner decoration panel 91 of the prefabricated wall board body 5, a second keel frame 142 is arranged between the outer wall body 52 and the outer decoration panel 92 of the prefabricated wall board body 5, an inner interlayer 81 is laid on one side, close to the inner wall body 51, of the first keel frame 141, an outer interlayer 82 is laid on one side, close to the outer wall body 52, of the second keel frame 142, the thicknesses of the inner interlayer 81 and the outer interlayer 82 are 2mm-4mm, and the inner interlayer 81 and the outer interlayer 82 are moisture-proof films;

through this design, the both sides of prefabricated wallboard body 5 still are provided with first dragon skeleton 141 and second dragon skeleton 142 respectively through the interior interlayer 81 and the outer interlayer 82 of dampproof course material respectively, and wherein first dragon skeleton 141 and second dragon skeleton 142 are used for better to interior trimming panel 91 and outer trimming panel 92 to lay down the installation, and interior interlayer 81 and the outer interlayer 82 of dampproof course material then reducible first dragon skeleton 141, second dragon skeleton 142, interior trimming panel 91 and outer trimming panel 92 decorative board warp in the wet.

Example 1

Firstly, an insulation layer 53 is arranged between an inner wall body 51 and an outer wall body 52 in a prefabricated wall board body 5, so that the insulation performance of the prefabricated wall board body 5 is improved, wherein an inner reinforcing steel bar mesh layer 131 and an outer reinforcing steel bar mesh layer 132 not only can play a role in improving the integral strength of the prefabricated wall board body 5, but also can play a limiting role on the insulation layer 53;

the thickness of the horizontal plate 31 and the vertical plate 41 is set to be 2cm, and the lengths of the two ends of the warp-direction reinforcing steel bars and the weft-direction reinforcing steel bars of the inner reinforcing steel bar mesh layer 131 and the outer reinforcing steel bar mesh layer 132 extending out of the prefabricated wall panel body 5 are set to be 2cm as well as the thickness of the horizontal plate 31 and the vertical plate 41, and are matched with each other;

when assembling, an operator cuts off overlong steel bars, then inserts two ends of warp-direction steel bars of the inner steel bar mesh layer 131 and the outer steel bar mesh layer 132 into the welding holes 121 on the horizontal plate 31 respectively, and inserts two ends of weft-direction steel bars of the inner steel bar mesh layer 131 and the outer steel bar mesh layer 132 into the welding holes 121 on the vertical plate 41 respectively, so that two ends of warp-direction steel bars and weft-direction steel bars of the inner steel bar mesh layer 131 and the outer steel bar mesh layer 132 are welded and fixed with the welding holes 121 in a leveling manner;

thereby forming an outer frame structure formed by welding an inner reinforcing mesh layer 131, an outer reinforcing mesh layer 132, a short-side limiting structure 3 and a long-side limiting structure 4 in the prefabricated wallboard body 5 outside the prefabricated wallboard body 5, and further improving the firmness of the prefabricated wallboard body 5;

the long-side limiting structures 4 on the two sides of the prefabricated wall panel bodies 5 are respectively provided with a raised line 61 and a sliding groove 62, and when a plurality of prefabricated wall panel bodies 5 are assembled, operators can enable adjacent prefabricated wall panel bodies 5 to be in sliding connection through the raised line 61 and the sliding groove 62 which are mutually matched;

the two ends of the raised strip 61 are symmetrically provided with a first slot 71, the two ends of the sliding groove 62 are symmetrically provided with a second slot 72, one vertical part of the U-shaped steel bar 2 arranged on one side of the beam body 1 is inserted and fixed in the first slot 71, and the other vertical part of the U-shaped steel bar 2 is inserted and fixed in the second slot 72;

the two ends of the raised line 61 and the sliding groove 62 are symmetrically provided with the first slot 71 and the second slot 72, one vertical part of the U-shaped steel bar 2 on one side of the beam body 1 is inserted and fixed in the first slot 71, and the other vertical part of the U-shaped steel bar 2 is inserted and fixed in the second slot 72, so that the adjacent prefabricated wallboard bodies 5 are subjected to secondary limiting and fixing, the labor consumption on site can be reduced, and the building assembly period is shortened;

further, when the inner decoration panel 91 and the outer decoration panel 92 are respectively installed on two sides of the prefabricated wall panel body 5, an operator firstly passes the expansion screw 15 through the threaded hole 122, the first through hole 33 and the second through hole 43 in sequence in a threaded manner, and then is in threaded connection with the inner wall body 51 and the outer wall body 52 of the prefabricated wall panel body 5, so that better limit installation is achieved;

a groove 10 is symmetrically formed on one side of the inner decorative panel 91 adjacent to the outer decorative panel 92, and a waterproof strip 11 is clamped in the groove 10 of the inner decorative panel 91 and the outer decorative panel 92;

the waterproof strips 11 are clamped in the grooves 10 symmetrically formed in the adjacent sides of the inner decorative panel 91 and the outer decorative panel 92 by operators, so that the bonding connection of cement, mortar and other binders to gaps in the traditional construction can be avoided, the later dismantling is facilitated, and the disassembly and assembly efficiency is improved;

still further, still be provided with first dragon skeleton 141 and second dragon skeleton 142 respectively through the interior interlayer 81 and the outer interlayer 82 of dampproof film material respectively in the both sides of prefabricated wallboard body 5, wherein first dragon skeleton 141 and second dragon skeleton 142 are used for better to interior trimming panel 91 and outer trimming panel 92 to lay down the installation, and interior interlayer 81 and the outer interlayer 82 of dampproof film material then reducible first dragon skeleton 141, second dragon skeleton 142, interior trimming panel 91 and outer trimming panel 92 decorative board warp in the wet.

Example two

Firstly, an insulation layer 53 is arranged between an inner wall body 51 and an outer wall body 52 in a prefabricated wall board body 5, so that the insulation performance of the prefabricated wall board body 5 is improved, wherein an inner reinforcing steel bar mesh layer 131 and an outer reinforcing steel bar mesh layer 132 not only can play a role in improving the integral strength of the prefabricated wall board body 5, but also can play a limiting role on the insulation layer 53;

the thickness of the horizontal plate 31 and the vertical plate 41 is set to be 4cm, and the lengths of the two ends of the warp-direction reinforcing steel bars and the weft-direction reinforcing steel bars of the inner reinforcing steel bar mesh layer 131 and the outer reinforcing steel bar mesh layer 132 extending out of the prefabricated wall panel body 5 are set to be 4cm as well as the thickness of the horizontal plate 31 and the vertical plate 41, and are matched with each other;

when assembling, an operator cuts off overlong steel bars, then inserts two ends of warp-direction steel bars of the inner steel bar mesh layer 131 and the outer steel bar mesh layer 132 into the welding holes 121 on the horizontal plate 31 respectively, and inserts two ends of weft-direction steel bars of the inner steel bar mesh layer 131 and the outer steel bar mesh layer 132 into the welding holes 121 on the vertical plate 41 respectively, so that two ends of warp-direction steel bars and weft-direction steel bars of the inner steel bar mesh layer 131 and the outer steel bar mesh layer 132 are welded and fixed with the welding holes 121 in a leveling manner;

thereby forming an outer frame structure formed by welding an inner reinforcing mesh layer 131, an outer reinforcing mesh layer 132, a short-side limiting structure 3 and a long-side limiting structure 4 in the prefabricated wallboard body 5 outside the prefabricated wallboard body 5, and further improving the firmness of the prefabricated wallboard body 5;

the long-side limiting structures 4 on the two sides of the prefabricated wall panel bodies 5 are respectively provided with a raised line 61 and a sliding groove 62, and when a plurality of prefabricated wall panel bodies 5 are assembled, operators can enable adjacent prefabricated wall panel bodies 5 to be in sliding connection through the raised line 61 and the sliding groove 62 which are mutually matched;

the two ends of the raised strip 61 are symmetrically provided with a first slot 71, the two ends of the sliding groove 62 are symmetrically provided with a second slot 72, one vertical part of the U-shaped steel bar 2 arranged on one side of the beam body 1 is inserted and fixed in the first slot 71, and the other vertical part of the U-shaped steel bar 2 is inserted and fixed in the second slot 72;

the two ends of the raised line 61 and the sliding groove 62 are symmetrically provided with the first slot 71 and the second slot 72, one vertical part of the U-shaped steel bar 2 on one side of the beam body 1 is inserted and fixed in the first slot 71, and the other vertical part of the U-shaped steel bar 2 is inserted and fixed in the second slot 72, so that the adjacent prefabricated wallboard bodies 5 are subjected to secondary limiting and fixing, the labor consumption on site can be reduced, and the building assembly period is shortened;

further, when the inner decoration panel 91 and the outer decoration panel 92 are respectively installed on two sides of the prefabricated wall panel body 5, an operator firstly passes the expansion screw 15 through the threaded hole 122, the first through hole 33 and the second through hole 43 in sequence in a threaded manner, and then is in threaded connection with the inner wall body 51 and the outer wall body 52 of the prefabricated wall panel body 5, so that better limit installation is achieved;

a groove 10 is symmetrically formed on one side of the inner decorative panel 91 adjacent to the outer decorative panel 92, and a waterproof strip 11 is clamped in the groove 10 of the inner decorative panel 91 and the outer decorative panel 92;

the waterproof strips 11 are clamped in the grooves 10 symmetrically formed in the adjacent sides of the inner decorative panel 91 and the outer decorative panel 92 by operators, so that the bonding connection of cement, mortar and other binders to gaps in the traditional construction can be avoided, the later dismantling is facilitated, and the disassembly and assembly efficiency is improved;

still further, still be provided with first dragon skeleton 141 and second dragon skeleton 142 respectively through the interior interlayer 81 and the outer interlayer 82 of dampproof film material respectively in the both sides of prefabricated wallboard body 5, wherein first dragon skeleton 141 and second dragon skeleton 142 are used for better to interior trimming panel 91 and outer trimming panel 92 to lay down the installation, and interior interlayer 81 and the outer interlayer 82 of dampproof film material then reducible first dragon skeleton 141, second dragon skeleton 142, interior trimming panel 91 and outer trimming panel 92 decorative board warp in the wet.

Example III

Firstly, an insulation layer 53 is arranged between an inner wall body 51 and an outer wall body 52 in a prefabricated wall board body 5, so that the insulation performance of the prefabricated wall board body 5 is improved, wherein an inner reinforcing steel bar mesh layer 131 and an outer reinforcing steel bar mesh layer 132 not only can play a role in improving the integral strength of the prefabricated wall board body 5, but also can play a limiting role on the insulation layer 53;

the thickness of the horizontal plate 31 and the vertical plate 41 is set to be 6cm, and the lengths of the two ends of the warp-direction reinforcing steel bars and the weft-direction reinforcing steel bars of the inner reinforcing steel bar mesh layer 131 and the outer reinforcing steel bar mesh layer 132 extending out of the prefabricated wall panel body 5 are set to be 6cm as well as the thickness of the horizontal plate 31 and the vertical plate 41, and are matched with each other;

when assembling, an operator cuts off overlong steel bars, then inserts two ends of warp-direction steel bars of the inner steel bar mesh layer 131 and the outer steel bar mesh layer 132 into the welding holes 121 on the horizontal plate 31 respectively, and inserts two ends of weft-direction steel bars of the inner steel bar mesh layer 131 and the outer steel bar mesh layer 132 into the welding holes 121 on the vertical plate 41 respectively, so that two ends of warp-direction steel bars and weft-direction steel bars of the inner steel bar mesh layer 131 and the outer steel bar mesh layer 132 are welded and fixed with the welding holes 121 in a leveling manner;

thereby forming an outer frame structure formed by welding an inner reinforcing mesh layer 131, an outer reinforcing mesh layer 132, a short-side limiting structure 3 and a long-side limiting structure 4 in the prefabricated wallboard body 5 outside the prefabricated wallboard body 5, and further improving the firmness of the prefabricated wallboard body 5;

the long-side limiting structures 4 on the two sides of the prefabricated wall panel bodies 5 are respectively provided with a raised line 61 and a sliding groove 62, and when a plurality of prefabricated wall panel bodies 5 are assembled, operators can enable adjacent prefabricated wall panel bodies 5 to be in sliding connection through the raised line 61 and the sliding groove 62 which are mutually matched;

the two ends of the raised strip 61 are symmetrically provided with a first slot 71, the two ends of the sliding groove 62 are symmetrically provided with a second slot 72, one vertical part of the U-shaped steel bar 2 arranged on one side of the beam body 1 is inserted and fixed in the first slot 71, and the other vertical part of the U-shaped steel bar 2 is inserted and fixed in the second slot 72;

the two ends of the raised line 61 and the sliding groove 62 are symmetrically provided with the first slot 71 and the second slot 72, one vertical part of the U-shaped steel bar 2 on one side of the beam body 1 is inserted and fixed in the first slot 71, and the other vertical part of the U-shaped steel bar 2 is inserted and fixed in the second slot 72, so that the adjacent prefabricated wallboard bodies 5 are subjected to secondary limiting and fixing, the labor consumption on site can be reduced, and the building assembly period is shortened;

further, when the inner decoration panel 91 and the outer decoration panel 92 are respectively installed on two sides of the prefabricated wall panel body 5, an operator firstly passes the expansion screw 15 through the threaded hole 122, the first through hole 33 and the second through hole 43 in sequence in a threaded manner, and then is in threaded connection with the inner wall body 51 and the outer wall body 52 of the prefabricated wall panel body 5, so that better limit installation is achieved;

a groove 10 is symmetrically formed on one side of the inner decorative panel 91 adjacent to the outer decorative panel 92, and a waterproof strip 11 is clamped in the groove 10 of the inner decorative panel 91 and the outer decorative panel 92;

the waterproof strips 11 are clamped in the grooves 10 symmetrically formed in the adjacent sides of the inner decorative panel 91 and the outer decorative panel 92 by operators, so that the bonding connection of cement, mortar and other binders to gaps in the traditional construction can be avoided, the later dismantling is facilitated, and the disassembly and assembly efficiency is improved;

still further, still be provided with first dragon skeleton 141 and second dragon skeleton 142 respectively through the interior interlayer 81 and the outer interlayer 82 of dampproof film material respectively in the both sides of prefabricated wallboard body 5, wherein first dragon skeleton 141 and second dragon skeleton 142 are used for better to interior trimming panel 91 and outer trimming panel 92 to lay down the installation, and interior interlayer 81 and the outer interlayer 82 of dampproof film material then reducible first dragon skeleton 141, second dragon skeleton 142, interior trimming panel 91 and outer trimming panel 92 decorative board warp in the wet.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (6)

1. The utility model provides an assembled structure of prefabricated wallboard of building assembly engineering, includes roof beam body (1), minor face limit structure (3), long limit structure (4) and prefabricated wallboard body (5), a serial communication port, one side symmetry of roof beam body (1) is provided with a plurality of U-shaped reinforcing bar (2), and U-shaped reinforcing bar (2) are including two perpendicular portions and a horizontal part, the up end and the bottom face of prefabricated wallboard body (5) are provided with minor face limit structure (3) respectively, and the bilateral symmetry of prefabricated wallboard body (5) is provided with long limit structure (4), and wherein minor face limit structure (3) include horizontal plate (31), and one side symmetry equidistance of horizontal plate (31) is provided with first spacing piece (32) of a plurality of, and first through-hole (33) have all been seted up at the middle part of every first spacing piece (32), and long limit structure (4) are including perpendicular board (41), and one side symmetry equidistance of perpendicular board (41) is provided with a plurality of second spacing piece (42), and second through-hole (43) have all been seted up at the middle part of every second spacing piece (42), prefabricated wallboard body (5) include that internal wall body (51) and external wall body (52) are provided with relative wall body (52) one side of wall (52), and be provided with heat preservation (52) between inside reinforcing bar stratum reticulare (131) and outside reinforcing bar stratum reticulare (132), be located be provided with sand grip (61) on long limit structure (4) of prefabricated wallboard body (5) one side, be provided with spout (62) on long limit structure (4) of prefabricated wallboard body (5) opposite side to be provided with sand grip (61) and spout (62) sliding connection through mutually supporting between adjacent prefabricated wallboard body (5), first slot (71) have been seted up to the both ends symmetry of sand grip (61), second slot (72) have been seted up to the both ends symmetry of spout (62), and one of them vertical part of U-shaped reinforcing bar (2) that beam body (1) one side set up is inserted and is fixed in first slot (71), another vertical part of them is inserted and is fixed in second slot (72), one side of prefabricated wallboard body (5) is installed interior trim panel (91) through expansion screw (15), the opposite side of prefabricated wallboard body (5) is installed interior trim panel (92) through expansion screw (92), one side of adjacent side (10) are seted up and are offered outside trim panel (92), and waterproof strips (11) are clamped in the grooves (10) of the outer decorative panel (92) and the inner part of the groove (91).

2. The assembly structure of prefabricated wall panels for building assembly engineering according to claim 1, wherein the inner reinforcing mesh layer (131) and the outer reinforcing mesh layer (132) are formed by interweaving warp-wise reinforcing bars and weft-wise reinforcing bars, and both ends of the warp-wise reinforcing bars and weft-wise reinforcing bars of the inner reinforcing mesh layer (131) and the outer reinforcing mesh layer (132) extend to 2cm-6cm outside the prefabricated wall panel body (5).

3. The assembly structure of the prefabricated wallboard of the building assembly engineering according to claim 2, wherein a plurality of welding holes (121) are symmetrically formed in a horizontal plate (31) of the short side limiting structure (3) and a vertical plate (41) of the long side limiting structure (4) respectively, two ends of warp-direction reinforcing steel bars of an inner reinforcing steel bar mesh layer (131) and an outer reinforcing steel bar mesh layer (132) are respectively inserted in the welding holes (121) on the horizontal plate (31), two ends of weft-direction reinforcing steel bars of the inner reinforcing steel bar mesh layer (131) and the outer reinforcing steel bar mesh layer (132) are respectively inserted in the welding holes (121) on the vertical plate (41), the thicknesses of the horizontal plate (31) and the vertical plate (41) are set to be 2cm-6cm, and two ends of the warp-direction reinforcing steel bars and the weft-direction reinforcing steel bars of the inner reinforcing steel bar mesh layer (131) and the outer reinforcing steel bar mesh layer (132) are welded and fixed with the welding holes (121) in a flat manner.

4. The assembly structure of the prefabricated wallboard of the building assembly engineering according to claim 1, wherein a plurality of threaded holes (122) are respectively formed in the inner decoration panel (91) and the outer decoration panel (92), each threaded hole (122) is respectively opposite to a first through hole (33) in the middle of the first limiting piece (32) and a second through hole (43) in the middle of the second limiting piece (42), and the expansion screw (15) sequentially penetrates through the threaded holes (122), the first through hole (33) and the second through hole (43) in a threaded mode and is in threaded connection with an inner wall body (51) and an outer wall body (52) of the prefabricated wallboard body (5).

5. The assembly structure of the prefabricated wallboard of the building assembly engineering according to claim 1, wherein a first keel frame (141) is arranged between an inner wall body (51) and an inner decoration panel (91) of the prefabricated wallboard body (5), and a second keel frame (142) is arranged between an outer wall body (52) and an outer decoration panel (92) of the prefabricated wallboard body (5).

6. The assembly structure of the prefabricated wallboard of the building assembly engineering according to claim 5, wherein an inner interlayer (81) is laid on one side, close to the inner wall body (51), of the first keel frame (141), an outer interlayer (82) is laid on one side, close to the outer wall body (52), of the second keel frame (142), the thicknesses of the inner interlayer (81) and the outer interlayer (82) are 2mm-4mm, and the inner interlayer (81) and the outer interlayer (82) are moisture-proof films.