CN219548249U - Wall surface node structure of multilayer wall panel - Google Patents

Abstract

The embodiment of the utility model provides a wall surface node structure of a multi-layer wall panel, which comprises the following components: a building main body; the first wall panels are connected to the building main body, and a plurality of first wall panels are spliced to form a first wall; the second wall panels are arranged on one side of the first wall panel and are arranged at intervals with the first wall panel, and a plurality of second wall panels are combined to form a second wall body; the first end of the connecting piece is connected with the building main body and traverses the first wall body along the direction away from the first wall panel; wherein, the corner of first shingle nail is equipped with the penetrating structure, and the connecting piece passes the penetrating structure, and the second shingle nail is connected with the second end of connecting piece. In the technical scheme provided by the utility model, the connecting piece passes through the first wall body through the penetrating structure at the corner of the wall panel, and the connecting piece is matched with the penetrating structure. Not only can the waterproof property and the aesthetic property of the first wall panel be improved after the connecting piece penetrates through the first wall body, but also the construction efficiency of the wall body can be improved, and the quick installation and construction of the wall body are facilitated.

Description

Wall surface node structure of multilayer wall panel

Technical Field

The utility model relates to the field of buildings, in particular to a wall surface node structure of a multi-layer wall panel.

Background

With the continuous development of construction technology and building materials, more and more buildings begin to use sandwich boards as wall materials, and the sandwich boards not only have better building characteristics (high strength and light weight), but also are beneficial to rapid construction of walls. Now, in order to improve the structural performance of wall or improve the aesthetic property of wall, generally can install double-deck wall panel outside the building main part, first layer wall panel is direct to be connected with building main part structure, and the second floor wall panel sets up with first layer wall panel interval, and the second floor wall panel is connected with the building main part through the fossil fragments that go out.

However, the lifting runners used to connect the second layer of wall panels need to traverse the first layer of wall panels to connect with the second layer of wall panels, so that holes need to be made in the first layer of wall panels when the lifting runners are installed. The construction and installation mode not only can easily reduce the waterproof performance of the first layer of wall panel, but also can influence the installation efficiency and increase the construction difficulty. In addition, holes are formed on the first layer of wall panels at will, and the aesthetic property of the wall panels is seriously affected.

Disclosure of Invention

In view of the above, embodiments of the present utility model have been made to provide a wall surface node structure of a multi-layered wall panel that solves the above-mentioned problems.

In one embodiment of the utility model there is provided a wall node structure for a multi-layered wall panel comprising:

a building main body;

a first wall panel connected to the building body to form a first wall;

the second wall panel is arranged on one side of the first wall panel and is arranged at intervals with the first wall panel to form a second wall body;

a connector having a first end connected to the building body and traversing the first wall in a direction away from the first wall panel;

the corner of the first wall panel is provided with a penetrating structure, the connecting piece penetrates through the penetrating structure, and the second wall panel is connected with the second end of the connecting piece.

Optionally, the boundary profile of the through structure and the boundary profile of the connecting piece are matched with each other;

the penetrating structure is arranged in the middle position area of the first wall panel;

or, one corner or four corners of the first wall panel are provided with penetrating structures.

Optionally, a second building is also included;

one side of the second building body is connected with the second end of the connecting piece, and the second wall panel is connected with the other side of the second building body.

Optionally, the first wall panel is a sandwich panel, and the second wall panel is: a single plate grille, a metal wallboard, a corrugated plate, a decorative plate and the like.

Optionally, the first wall body comprises a plurality of first wall panels, and the sides of different first wall panels are mutually spliced;

the penetrating structure is positioned at a butt joint seam or an inserting joint seam formed by mutually inserting different first wall panels.

Optionally, the second wall body includes a plurality of single board grids, different single board grids are arranged at intervals, and the length direction of the single board grids is in the same direction as the height direction of the building main body.

Optionally, the building body comprises a first body and a second body;

the second main body is connected with the first main body through the embedded part, and the first wall panel is connected to the second main body.

Optionally, the first main body is a concrete wall, and the second main body is a purlin frame wall.

Optionally, further comprising a conduit;

the pipeline traverses the first wall panel and is communicated with the inner side and the outer side of the first wall;

the cross-sectional shape of the pipe is the same as the cross-sectional shape of the connector.

Further optionally, the conduit traverses the first wall panel through the through structure, the boundary profile of the conduit and the boundary profile of the through structure matching each other.

In the technical scheme provided by the utility model, the connecting piece passes through the first wall body through the penetrating structure at the corner of the wall panel, and the connecting piece is matched with the penetrating structure. Not only can the waterproof property and the aesthetic property of the first wall panel be improved after the connecting piece penetrates through the first wall body, but also the construction efficiency of the wall body can be improved, and the quick installation and construction of the wall body are facilitated.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model and do not constitute a limitation on the utility model. In the drawings:

FIG. 1 is a first node diagram of a wall node structure of a multi-layered wall panel according to an embodiment of the present utility model;

FIG. 2 is a second node diagram of a wall node structure of a multi-layered wall panel according to an embodiment of the present utility model;

FIG. 3 is a schematic block diagram of a wall node structure of a multi-layered wall panel according to an embodiment of the present utility model;

FIG. 4 is a left side view of a wall node structure of a multi-layered wall panel according to an embodiment of the present utility model;

FIG. 5 is a schematic view of an exploded view of a wall node structure of a multi-layered wall panel according to an embodiment of the present utility model;

FIG. 6 is a schematic illustration of one splice of a plurality of first wall panels according to an embodiment of the utility model;

FIG. 7 is a schematic illustration of another splice of a plurality of first wall panels according to an embodiment of the utility model.

Detailed Description

In order to make the objects, technical solutions and advantages of the present utility model more apparent, the technical solutions of the present utility model will be clearly and completely described below with reference to specific embodiments of the present utility model and corresponding drawings. It will be apparent that the described embodiments are only some, but not all, embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should also be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article or apparatus that comprises the element.

Fig. 1 is a first node diagram of a wall surface node structure of a multi-layered wall panel according to an embodiment of the present utility model, and fig. 2 is a second node diagram of a wall surface node structure of a multi-layered wall panel according to an embodiment of the present utility model. Referring to fig. 1 and 2, in one embodiment of the present utility model, there is provided a wall node structure of a multi-layered wall panel, the wall node structure of the multi-layered wall panel comprising: building main body 1, first wall panel 2, second wall panel 3 and connecting piece 4. The first wall panel 2 is attached to the building body 1 to form a first wall. The second wall panel 3 is disposed on one side of the first wall panel 2 and is spaced from the first wall panel 2 to form a second wall. Specifically, the first wall panel 2 and the second wall panel 3 may be the same wall panel, may be different wall surfaces, or may be wall panels with different functions. For example, the first wall panel 2 is a sandwich panel and the second wall panel 3 is a decorative wall panel. The plurality of first wall panels 2 are spliced with each other to form a wall surface of the first wall body. A plurality of second wall panels 3 are combined to form a second wall. For example, a plurality of square sandwich panels with four sides grooved and tongued are spliced with each other to form a first wall. The large wall surface of the first wall body is approximately parallel to the large wall surface of the second wall body, and a spacing space is arranged between the first wall body and the second wall body.

The building main body 1 may be a wall body such as a brick wall or a concrete wall, a structure such as a purlin frame, or a building structure such as a column or a support column. It should be noted that the first wall panel 2 and the second wall panel 3 mentioned in the present utility model do not refer to a first wall panel and a second wall panel, and it is understood that the first wall panel and the second wall panel are the first functional wall panel and the second functional wall panel.

Further, referring to fig. 5 in combination, the first end of the connector 4 is connected to the building body 1 and traverses the first wall in a direction away from the first wall panel 2. The second end of the connecting element 4 is used for connecting the second wall panel 3, and the connecting element 4 is vertically connected with the building main body 1, which can be understood that the connecting element 4 extends along a direction away from the first wall panel 2 to form a cantilever keel, and the second wall panel 3 is fixed at the tail end of the cantilever keel. Wherein, the corner of the first wall panel 2 is provided with a penetrating structure 21, the connecting piece 4 penetrates through the penetrating structure 21, and the second wall panel 3 is connected with the second end of the connecting piece 4. Specifically, the penetrating structure 21 is a notch or hole at the corner of the first wall panel 2. When the second wall panels 3 are spliced with each other, the first wall panel 2 with the penetrating structure 21 therein is combined with other wall panels to form a first wall with a penetrating hole. The connector 4 may extend through the through-going hole from the inside of the second wall panel 3 to the outside of the second wall panel 3.

Further, the penetrating structures 21 are not disposed on the part of the first wall panels 2 on the boundary of the first wall, and one or more penetrating structures 21 are disposed on the other first wall panels 2, in a specific embodiment, as shown in fig. 6, the drawing is a schematic structural diagram of mutually splicing a plurality of (six) wall panels, and it can be considered that all six wall panels in the drawing are first wall panels 2, and six different first wall panels 2 are mutually spliced to form a local structure of the first wall. In the figure, the wall panel 01, the wall panel 02, the wall panel 03 and the wall panel 04 are respectively provided with a penetrating structure 21, and the penetrating structure 21 is a square notch at the corner of the wall panel. After the wall panel 01 is spliced with the adjacent wall panel, the side edges of the adjacent wall panel are enclosed outside the penetrating structure 21 of the wall panel 01, so as to form a penetrating hole. The connecting piece 4 can pass through the penetrating hole and extend from the inner side to the outer side of the first wall body.

In order to make the periphery of the connecting piece 4 closely connected with the periphery of the penetrating structure 21 when the connecting piece 4 passes through the penetrating structure 21, so as to reduce gaps between the connecting piece 4 and the penetrating structure 21, the boundary contour of the penetrating structure 21 is matched with the boundary contour of the connecting piece 4. Specifically, the diameter of the through hole formed by the surrounding of the through structure 21 and the adjacent wall panel is approximately equal to the diameter of the connecting piece 4. In the technical solution provided by the present utility model, the shape of the penetrating structure 21 includes, but is not limited to: square, circular, semicircular, multi-deformed, triangular, etc. In a specific embodiment, the shape of the penetrating structure 21 is preferably a regular shape such as square, circular, etc., so as to facilitate the processing of the penetrating structure. The shape of the penetrating structure 21 may be adaptively changed according to the sectional shape of the connection member 4.

Further, the penetrating structure 21 is disposed at a middle position area of the first wall panel 2, or, referring to fig. 6, a corner of the penetrating structure 21 disposed at one side of the first wall panel 2, and the penetrating structure 21 disposed at the corner of the first wall panel 2 and the adjacent wall panel are combined with each other to form a penetrating hole. Alternatively, referring to fig. 7 in combination, two corners of a part of the first wall panel 2 (such as wall panel 01) are provided with penetrating structures 21, and four corners of a part of the first wall panel 2 (such as wall panel 02) are provided with penetrating structures 21. The through structures 21 on a first wall panel 2 and the through structures 21 on an adjacent wall panel are combined with each other to form a through hole through which the connector 4 can traverse the first wall.

Through setting up the penetrating structure 21 in the corner department of shingle nail, after polylith shingle nail concatenation combination, will form a plurality of penetrating holes on the first wall body, connecting piece 4 accessible penetrating hole traverses first wall body. It can also be considered that the connection 4 is traversed by the penetrating structure 21 across the first wall. In one embodiment, the factory can place the penetrating structure 21 on the wall panel when prefabricating the wall panel, then transport the prefabricated wall panel to the construction site, and after finishing the installation of the wall panel, form a penetrating hole with uniform size on the first wall. Compared with the traditional construction method (the hole is formed in the installation site), the technical scheme not only can ensure that the size of the through hole on the wall body is consistent, but also can carry out edge sealing treatment on the side edge of the through structure 21 so as to ensure the integrity of the wall panel and improve the waterproof performance of the wall panel. In addition, the wall panel provided with the penetrating structure 21 can be directly conveyed to a construction site for installation, and the installation efficiency and the installation quality are greatly improved.

In order to ensure the reliability of the connection of the second wall panel 3, see fig. 3 to 5, in one embodiment provided by the utility model, the wall node structure of the multi-layer wall panel further comprises a second building body 5. One side of the second building body 5 is connected to the second end of the connector 4, and the second wall panel 3 is connected to the other side of the second building body 5. Specifically, the second building body 5 is a frame assembly formed by connecting transverse purlines and longitudinal purlines, one side of the frame assembly is connected with the second end of the connecting piece 4, and the second wall panel 3 is mounted on the other side of the frame assembly.

Further, in one embodiment, the first wall panel 2 is a sandwich panel, and the second wall panel 3 is: a single plate grille, a metal wallboard, a corrugated plate, a decorative plate and the like. The plurality of sandwich boards are mutually spliced to form a sealed first wall body, the plurality of single board grids are combined to form a second wall body, and the single board grids can be used for decoration. The material of the single plate grating comprises the following materials: metal plate, wood plate, plastic plate, stone plate, etc

In one embodiment of the present utility model, the first wall includes a plurality of first wall panels 2, the sides of different first wall panels 2 are mutually spliced, and the penetrating structure 21 is located at a butt joint or an inserting joint formed by mutually splicing different first wall panels 2. Specifically, the different first wall panels 2 are mutually butted through a butt joint structure, the butt joint structure comprises a male head and a female head, and when the different wall panels are mutually butted, the male head and the female head are mutually matched and connected.

Further, the second wall body comprises a plurality of single board grids, different single board grids are arranged at intervals, and the length direction of the single board grids is in the same direction as the height direction of the building main body 1. The multiple single-plate grids are combined to form the second wall, the spacing distances between the different single-plate grids are the same, or the spacing distances between the different single-plate grids can be set according to the construction requirement. In a specific embodiment, the single-board grille is longitudinally disposed along the height direction of the building body 1, and in addition, the single-board grille may be disposed transversely or obliquely according to actual situations, which is not particularly limited herein.

Referring to fig. 1 to 5, in one embodiment provided by the present utility model, a building body 1 includes a first body 11 and a second body 12, the second body 12 is connected to the first body 11 through an embedded part 6, and a first wall panel 2 is connected to the second body 12. Specifically, the first main body 11 and the second main body 12 are arranged in parallel at intervals, the base of the embedded part 6 is arranged in the first main body 11, and the second main body 12 is connected with the connecting end of the embedded part 6 through a fastener.

Further, in one embodiment, the first body 11 is a concrete wall and the second body 12 is a purlin frame wall. The purline frame wall body comprises transverse purlines and longitudinal purlines, and a plurality of transverse purlines and a plurality of longitudinal purlines are mutually combined and connected to form the purline frame wall body. The first main body 11 and the first wall panel 2 are respectively positioned at two sides of the purlin frame wall body, the purlin frame wall body is connected with the concrete wall body through the embedded part 6, and the first wall panel 2 is connected to the purlin frame wall body through a fastener. The purlin frame wall is combined with the first wall panel 2 to form a first wall.

The first end of the connecting member 4 is connected to the building body 1, specifically, the first end of the connecting member 4 is connected to the second body 12, and the connecting member 4 may be connected to the purlin frame wall by means of a fastener or welding, or both the fastener and welding. In one embodiment, the connector 4 is a square steel structure cantilever keel, and the first end of the square steel structure cantilever keel is connected to the longitudinal purline of the purline frame wall body through a fastener.

In one embodiment of the present utility model, the wall node structure of the multi-layered wall panel further comprises a duct (not shown in the figure) traversing the first wall panel 2 and communicating the inside and outside of the first wall. The cross-sectional shape of the conduit is the same as the cross-sectional shape of the connector 4. The conduit traverses the first wall panel 2 through the through structure 21, the boundary contour of the conduit matching the boundary contour of the through structure 21. The duct traverses a wall panel in the same way as the connector 4 traverses the first wall panel 2.

In the above embodiment, when the connecting piece 4 or the pipe passes through the penetrating structure 21, the sealant can be filled between the connecting piece 4, the pipe and the penetrating structure 21, so that the gap is filled, and the sealing performance of the first wall is effectively improved.

Referring to fig. 1 to 5 in combination, since the second wall panel 3 is installed at the outer side of the first wall panel 2 and the second wall panel 3 is connected to the building body 1 through the connection member 4, the connection member 4 is installed in advance before the second wall panel 3 is installed. In addition, the connecting piece 4 traverses the first wall panel 2, and for convenience of construction, the connecting piece 4 is first connected to the building main body 1 before the first wall panel 2 is installed.

In a specific embodiment, the connecting piece 4 is a lifting keel, and during construction, one end of the lifting keel is connected with the building main body 1, and the lifting keel is perpendicular to the surface of the building main body 1 and extends outwards. The first wall panel 2 is then mounted to the building body 1, and the penetrating structure 21 of a wall panel is required to be mutually matched with the connecting member 4 when the first wall panel 2 is mounted. After the first wall panels 2 are installed in place, the connectors 4 will traverse different through structures 21 in the first wall. Finally, the second wall panel 3 is installed.

As set forth above, the building body 1 includes the first body 11 and the second body 12, wherein the first body 11 is a concrete wall, and the second body 12 is a purlin frame wall.

Since the connector 4 is attached to the second body 12, the second body 12 is completed before the connector 4 is installed. In addition, since the second body 12 is connected to the first body 11 through the embedded part 6, the construction and installation of the first body 11 and the embedded part 6 need to be completed in advance before the second body 12 is constructed. In one embodiment, first the first body 11 is constructed and the embedment 6 is installed in place during the construction process. Then, the second main body 12 is constructed, specifically, a plurality of transverse purlines and a plurality of longitudinal purlines are combined and connected, and meanwhile, the purline frames are connected to the embedded part 6. After the construction of the first body 11 and the second body 12 is completed, the connector 4 can be attached to the purlin frame wall. It should be noted that the connection between the different bodies or the different components may be connected by means of fasteners (e.g., self-tapping screws, bolts, etc.) and/or welding.

In a conventional construction scheme, a through hole is formed in the first wall panel 2 according to the position of the connecting piece 4, and then the second processed first wall panel 2 is installed. The construction method is low in efficiency, and the problem of poor position accuracy exists in the through holes which are randomly formed by constructors on site. In addition, after the second processing of the first wall panel 2, the structure of the first wall panel 2 is damaged, so that the waterproof performance of the first wall panel is reduced.

Referring to fig. 1 and fig. 5 in combination, in the technical scheme provided by the utility model, when designing a building structure, the setting position of the connecting piece 4 is considered in advance, and the position of the connecting piece 4 is adjusted in a lofting and modeling mode. Then, according to the design drawing, when the first wall panel 2 is prefabricated in the factory, the penetrating structure 21 is simultaneously arranged on the first wall panel 2. The first wall panel 2 is then transported to the job site and the first wall panel 2 is connected to the second body 12 by fasteners. When a plurality of first wall panels 2 are prefabricated in a factory, the penetrating structure 21 is arranged on the wall panels according to design requirements. Because the spacing between different connecting pieces 4 is the same as the width of the first wall panel 2, and the penetrating structure 21 on the first wall panel 2 can be mutually matched with the connecting pieces 4, when a plurality of first wall panels 2 are installed, the first wall panels 2 can be perfectly matched with the connecting pieces 4 only by installing the first wall panels 2 at the designed preset positions. The construction mode is similar to a jigsaw puzzle game, and the construction of the first wall body can be efficiently and quickly completed by only installing different first wall panels 2 at preset positions.

Since the penetrating structure 21 is opened on the first wall panel 2 by a machine when the first wall panel 2 is prefabricated, the dimensions of the penetrating structure 21 are unified. In addition, the edge side of the penetrating structure 21 may be subjected to edge sealing. So after the first wall panel 2 is installed, the gap between the first wall panel 2 and the connecting piece 4 can be effectively controlled within a reasonable range. After the installation, the gap can be filled only by simple glue spraying treatment, and the edge collecting piece is not required to be arranged at the joint of the first wall panel 2 and the connecting piece 4, so that the water-proof performance of the first wall body is ensured, and meanwhile, the attractiveness of the first wall body is effectively improved.

Before the second wall panel 3 is installed on the end of the connecting piece 4, in order to ensure the installation stability of the second wall panel 3, the wall surface node of the multi-layer wall panel further comprises a second building body 5, and the second wall panel 3 is installed on the second building body 5 after the second building body 5 is installed on the end of the connecting piece 4. Specifically, the second building body 5 is a purlin frame structure, which includes a plurality of transverse purlins and a plurality of longitudinal purlins. In the construction process, a plurality of transverse purlines and a plurality of longitudinal purlines are first combined and connected to form a second building body 5, and the second building body 5 is connected to the end of the connecting member 4. After the above construction steps are completed, a plurality of second wall panels 3 are installed at different positions of the second building body 5 by fasteners.

In summary, in the technical scheme provided by the utility model, the connecting piece passes through the first wall body through the penetrating structure at the corner of the wall panel, and the connecting piece is matched with the penetrating structure. Not only can the waterproof property and the aesthetic property of the first wall panel be improved after the connecting piece penetrates through the first wall body, but also the construction efficiency of the wall body can be improved, and the quick installation and construction of the wall body are facilitated.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model.

Claims (10)

1. A wall node structure of a multi-layered wall panel, comprising:

a building main body;

the first wall panels are connected to the building main body, and a plurality of the first wall panels are spliced to form a first wall;

the first wall panels are arranged at intervals on the outer sides of the first wall panels, and a plurality of second wall panels are combined to form a second wall body;

a connector having a first end connected to the building body and traversing the first wall in a direction away from the first wall panel;

the corner of the first wall panel is provided with a penetrating structure, the connecting piece penetrates through the penetrating structure, and the second wall panel is connected with the second end of the connecting piece.

2. The wall node structure of a multi-layered wall panel according to claim 1, wherein a boundary profile of the through structure and a boundary profile of the connection member are matched with each other;

the penetrating structure is arranged in the middle position area of the first wall panel;

or, one corner or four corners of the first wall panel are provided with penetrating structures.

3. The wall node structure of a multi-layered wall panel of claim 1, further comprising a second building body;

one side of the second building body is connected with the second end of the connecting piece, and the second wall panel is connected with the other side of the second building body.

4. A wall node structure of a multi-layered wall panel according to claim 3, wherein the first wall panel is a sandwich panel and the second wall panel is: one of a single plate grille, a metal wallboard, a corrugated plate and a decorative plate.

5. The wall node structure of multi-layered wall panels according to claim 4, wherein the first wall body comprises a plurality of first wall panels, and the sides of different first wall panels are mutually spliced;

the penetrating structure is positioned at a butt joint seam or an inserting joint seam formed by mutually inserting different first wall panels.

6. The wall surface node structure of a multi-layered wall panel according to claim 4, wherein the second wall body comprises a plurality of single-plate gratings, different single-plate gratings are arranged at intervals, and the length direction of the single-plate gratings is the same as the height direction of the building main body.

7. The wall node structure of a multi-layered wall panel according to claim 1, wherein the building body comprises a first body and a second body;

the second main body is connected with the first main body through the embedded part, and the first wall panel is connected to the second main body.

8. The wall node structure of a multiwall wall panel of claim 7, wherein the first body is a concrete wall and the second body is a purlin framing wall.

9. The wall node structure of a multi-layered wall panel of claim 1, further comprising a duct;

the pipeline traverses the first wall panel and is communicated with the inner side and the outer side of the first wall;

the cross-sectional shape of the pipe is the same as the cross-sectional shape of the connector.

10. The wall node structure of a multi-layered wall panel according to claim 9, wherein the duct traverses the first wall panel through the through structure, and wherein a boundary contour of the duct matches a boundary contour of the through structure.