CN217782663U - Opening node structure of wall surface and assembled wall body - Google Patents

Abstract

The utility model provides a hole node structure of a wall surface and an assembled wall body, wherein the hole node structure is suitable for implementing a dry hanging type assembly process at a hole of the wall body, the wall body is a basic wall body or a structural wall body, at least a window hole or a door hole is arranged on the wall body, and the hole at least comprises one of the window hole and the door hole; the hole node structure comprises: the expansion structural part is assembled on the wall surface on the upper side of the hole, and the expansion structural part is used for leveling the wall surface around the upper side of the hole to form an assembly reference surface, so that the wall surface around the upper side of the hole is leveled; the keel is assembled on the expansion structural member by referring to the assembly datum plane; one end of the first structural member is hung on the expansion structural member; the second structural member is fixed with the other end of the first structural member; and the wall board is dragged on the second structural member so as to be assembled on the wall surface on the upper side of the hole.

Description

Opening node structure of wall surface and assembled wall body

Technical Field

The utility model relates to an assembled fitment technical field, concretely relates to entrance to a cave node structure, assembled wall body of wall.

Background

After a traditional building is delivered to a blank house, leveling treatment is realized on a foundation wall surface (or also called a blank wall surface) through complex procedures of smearing bottom layer mortar, pasting mortar cakes and the like on the basis of a wet process, a structural wall surface is finally obtained, and subsequent decoration processes are carried out on the basis of the structural wall surface. An exemplary process for plastering mortar and plastering cake is as follows:

(1) Coating bottom layer mortar: firstly brushing a 107 cement grout bonding layer doped with 10% of water by weight on the surface of a foundation wall, then applying bottom layer mortar (cement mortar is adopted in a mixing proportion of 1 at normal temperature) in layers, wherein the thickness of each time is preferably 5mm, rubbing the bottom layer mortar with a wooden trowel after applying, and watering and maintaining every other day; and when the first time is six to seven times dry, smearing the mortar for the second time, wherein the thickness is about 8-12mm, scraping the mortar by using a wood bar, brushing the bristles by using a wood trowel, watering and curing every other day, and if the mortar needs to be smeared for the third time, performing the operation method of the plastering method for the second time until the bottom layer mortar is smeared. Filling and filling the lower part evenly, and finally rubbing out the rough surface by using a wooden trowel. Watering and maintaining after final setting according to weather conditions.

(2) Pasting an ash cake: and (3) coating prime lime on the base layer wall surface (namely the wall surface obtained by coating the prime mortar is called as the base layer wall surface), and making a plastering control point and surface on the base layer wall surface by using the mortar with a slightly dry point according to the verticality and the flatness of the wall surface and the position of the control point.

In conclusion, the traditional leveling treatment method based on the wet process has the following defects:

(1) Because a large amount of pollution-causing materials are used, secondary pollution is caused to the environment;

(2) The process is complex, time and labor are consumed, the construction efficiency is low, and the technical requirements on process personnel are high;

(3) Grooving of the structural wall surface is required to form a cavity for arranging a pipeline, such as a water/electricity pipeline cavity, so that the difficulty and complexity of the process are additionally increased, and meanwhile, the structural wall surface and even the basic wall surface are damaged;

(4) When the cavity of the pipeline needs to be increased, the structural wall surface and even the foundation wall surface need to be damaged, so that the construction difficulty and cost are increased.

SUMMERY OF THE UTILITY MODEL

An embodiment of the utility model provides an entrance to a cave node structure, assembled wall body of wall to overcome or alleviate above-mentioned problem.

The utility model adopts the technical proposal that:

a hole node structure of a wall body is suitable for implementing a dry hanging type assembly process at a hole of the wall body, the wall body is a basic wall body or a structural wall body, at least a window hole or a door hole is formed in the wall body, and the hole at least comprises one of the window hole and the door hole;

the hole node structure comprises:

the expansion structural part is assembled on the wall surface on the upper side of the hole, and the expansion structural part is used for leveling the wall surface around the upper side of the hole to form an assembly reference surface so that the wall surface around the upper side of the hole is leveled;

the keel is assembled on the expansion structural member by referring to the assembling datum plane;

one end of the first structural member is hung on the expansion structural member;

a second structural member fixed to the other end of the first structural member;

and the wallboard is dragged on the second structural member so as to be assembled on the wall surface on the upper side of the hole.

Optionally, a first mounting groove is formed in the one end of the first structural member, and the first structural member is hung on the expansion structural member through the first mounting groove.

Optionally, the groove opening direction of the first mounting groove is inclined downwards.

Optionally, a second mounting groove is formed in the middle of the first structural member, and the first structural member is hung on the expansion structural member through the second mounting groove.

Optionally, the groove opening direction of the second mounting groove is inclined downwards.

Optionally, the other end of the first structural member is provided with a mounting hole, and the second structural member is fixed on the first structural member through the mounting hole.

Optionally, a plurality of mounting holes are formed in the other end of the first structural member to adjust the use of the mounting holes according to the height of the assembly of the wall panel.

Optionally, the second structure comprises a connecting plate, a first mounting plate, a second mounting plate, the first mounting plate being located at one end of the connecting plate, the second mounting plate being located at the other end of the connecting plate, such that the first mounting plate is fixed at the second end of the first structure, and the second mounting plate drags the wall plate.

Optionally, when the second structure drags the wallboard, the extension direction of the connecting plate is from the wall surface to the outside of the wall, the extension direction of the first mounting plate is opposite to that of the second mounting plate, so that the first mounting plate can be fixed at the second end of the first structure, and the second mounting plate can drag the wallboard.

Optionally, the number of the expansion structural members is a plurality of, and a plurality of expansion structural members are arranged on the wall surface on the upper side of the opening in sequence along the transverse direction, so as to form the assembly reference surface.

Optionally, the expansion structure enables a gap to be formed between the wall surface on the upper side of the hole and the keel, and the gap is used as a pipeline gap.

Optionally, the expansion structure is a nail-type plastic expansion plug.

Optionally, the keel is at least one of a cross keel and a vertical keel.

Optionally, the hole node structure further includes: the waterproof structure body is arranged on the wall surface on the upper side of the hole and between the keels.

Optionally, the waterproof structure body is a waterproof membrane, and the waterproof membrane covers the wall surface on the upper side of the hole and is fixed on the wall surface on the upper side of the hole through the expansion structural member.

Optionally, the wallboard includes a base plate and a veneer, the veneer is overlaid on the base plate, and the veneer is dragged on the second structural member, so that the base plate is located between the keel and the veneer.

Optionally, the veneer is adhered to the substrate by structural adhesive.

Optionally, the substrate is a calcium silicate substrate.

An assembled wall body comprising an opening node structure according to any of the embodiments of the present application.

The scheme based on the embodiment of the application has the following advantages:

(1) Because a large amount of pollution-causing materials cannot be used, secondary pollution to the environment is avoided;

(2) The process is simple, time-saving and labor-saving, the construction efficiency is high, and the process personnel is not required to have high technology;

(3) The structure wall surface does not need to be grooved to form a pipeline cavity such as a water/electricity pipeline cavity, so that the difficulty and complexity of the process are reduced, and meanwhile, the structure wall surface and even a basic wall surface are prevented from being damaged;

(4) When the cavity of the pipeline needs to be increased, the structural wall surface does not need to be damaged, and therefore the construction difficulty and cost are reduced.

Drawings

FIG. 1 is a schematic perspective view of an assembled wall according to an embodiment of the present disclosure;

FIG. 2 is a schematic front view of an assembled wall according to an embodiment of the present application;

fig. 3 is a schematic structural diagram of a node structure of an opening according to an embodiment of the present application;

FIG. 4 is a schematic structural view of a first structural member according to an embodiment of the present disclosure;

fig. 5 is a schematic structural diagram of a second structural member according to an embodiment of the present application.

Detailed Description

To make the technical problems, technical solutions and advantages of the present invention clearer, the following description is made in conjunction with the accompanying drawings and specific embodiments.

FIG. 1 is a schematic perspective view of an assembled wall according to an embodiment of the present disclosure; fig. 2 is a schematic front view of an assembled wall 300 according to an embodiment of the present disclosure.

As shown in fig. 1 and 2, the hole 400 node structure is suitable for implementing a dry-hang type assembly process at the hole 400 of the wall 300, where the wall 300 is a foundation wall or a structural wall, and the foundation wall is a blank wall or a steel plate wall, for example. The structural wall may be a wall formed by assembling some structural members on a foundation wall. Here, in the assembly type field, the foundation wall and the structural wall are only relative concepts, and are not absolute concepts. Alternatively, the wall 300 may be located outdoors or indoors, and further, the fabricated structure may be applied outdoors or indoors. The dry hanging type assembly process is implemented at the hole 400 of the wall body 300 through the copper buckle node structure, so that standardized production in a factory and convenient and fast assembly on the site are facilitated.

The wall 300 is at least provided with a window opening 400 or a door opening 400, and the opening 400 at least comprises one of the window opening 400 and the door opening 400. The shape of the opening 400 may be, for example, circular or square. The number of the holes 400 is not particularly limited.

Fig. 3 is a schematic structural diagram of a node structure of an opening 400 according to an embodiment of the present application. As shown in fig. 3, the node structure of the opening 400 includes: an expansion structure 101, a keel 102, a first structure 103, a second structure 104, and a wall panel 105.

Aiming at the expansion structure member 101, the expansion structure member 101 is assembled on the wall surface positioned on the upper side of the hole 400, and the expansion structure member 101 levels the wall surface around the upper side of the hole 400 to form an assembly reference surface, so that the wall surface around the upper side of the hole 400 is leveled; for example, the leveling processing is performed according to a preset leveling angle, so that the leveling processing is conveniently and quickly realized.

Specifically, in this embodiment, the preset leveling angle is 0 to 90 degrees. For example, if the foundation wall is a blank wall, the degree of concavity and convexity is different, and the preset leveling angles can be different.

Optionally, the number of the expansion structure members 101 is multiple, and the multiple expansion structure members 101 are arranged on the wall surface on the upper side of the hole 400 in sequence along the transverse direction, so as to form the assembly reference surface.

Optionally, the expansion structure 101 forms a gap between the wall surface on the upper side of the opening 400 and the keel 102, and the gap serves as a pipeline gap, so that the problem that in the prior art, a wet process needs to perform grooving on the structural wall body to form a wiring gap such as a water/electricity pipeline cavity is avoided, the difficulty and complexity of the process are reduced, and meanwhile, the structural wall body, even a foundation wall body, is prevented from being damaged. When the cavity of wiring needs to be increased, the structural wall does not need to be damaged, so that the difficulty and the cost of construction are reduced.

Optionally, the expansion structure 101 is a nail-shaped plastic expansion plug, so as to facilitate assembly on site, and at the same time, a stable fixation of the keel 102 can be formed, thereby ensuring the structural stability of the assembled wall.

For the keel 102, referring to the assembly datum plane, the keel 102 is assembled on the expansion structure 101; optionally, the keel 102 is at least one of a cross keel 102 and a vertical keel 102. The specific construction of the keel 102 is not limited. Preferably, the keel 102 is a cross keel, so that a hanging connection relationship is formed between the leveling expansion plug and the keel 102, the structural stability of the keel 102 is improved, and the structural stability of the whole assembly type wall is further ensured.

With respect to the first structural member 103, one end of the first structural member 103 is hung on the expansion structure 101.

Exemplarily, fig. 4 is a schematic structural view of a first structural member 103 according to an embodiment of the present application; as shown in figure 4 of the drawings,

a first mounting groove 151 is formed at the one end of the first structural member 103, and the first structural member 103 is hung on the expansion structure 101 through the first mounting groove 151. Specifically, optionally, the notch direction of the first installation groove 151 is inclined downward, so that the first installation groove 151 can be conveniently and quickly hung on the expansion structure 101 during assembly, and can be slid through the first installation groove 151 when maintenance is required, so that the first structure 103 can be quickly removed from the expansion structure 101.

Optionally, a second installation groove 152 is formed in a middle position of the first structural member 103, and the first structural member 103 is hung on the expansion structural member 101 through the second installation groove 152.

Optionally, the notch direction of the second mounting groove 152 is inclined downwards.

The second installation groove 152 and the first installation groove 151 are simultaneously formed, so that the installation groove can be flexibly selected to be used on the spot according to construction habits, such as left-hand habits or right-hand habits of workers. In addition, the installation height can be flexibly adjusted by configuring the two installation grooves, and the requirements of different application scenes are met.

Optionally, a mounting hole 153 is opened on the other end of the first structural member 103, and the second structural member 104 is fixed to the first structural member 103 through the mounting hole 153.

Optionally, a plurality of mounting holes 153 are formed at the other end of the first structural member 103, so as to adjust the use of the mounting holes 153 according to the height of the assembly of the wall plate 105.

The specific number and shape of the mounting holes 153 are determined according to an application scenario.

Specifically, the second structural member 104 may be fixed to the first structural member 103 by passing a screw through the mounting hole 153.

The screw fastening is merely exemplary and not restrictive, and in other embodiments, may be fastened by other structural members.

Regarding the second structural component 104, the second structural component 104 includes a connecting plate 114, a first mounting plate 124, and a second mounting plate 134, as shown in fig. 5, which is a schematic structural diagram of the second structural component 104 according to an embodiment of the present application; as shown in fig. 5, the first mounting plate 124 is located at one end of the connecting plate 114, and the second mounting plate 134 is located at the other end of the connecting plate 114, such that the first mounting plate 124 is fixed at the second end of the first structural member 103, and the second mounting plate 134 is pulled over the wall panel 105, which is equivalent to the wall panel 105 being pulled over the second structural member 104.

Optionally, when the second structural member 104 is pulled over the wall plate 105, the extension direction of the connecting plate 114 is directed to the outside of the wall from the wall surface, the first mounting plate 124 and the second mounting plate 134 are extended in the opposite direction, so that the first mounting plate 124 can be fixed to the second end of the first structural member 103, and the second mounting plate 134 can be pulled over the wall plate 105, so that the second structural member 104 is zigzag-shaped, thereby facilitating on-site assembly and improving assembly efficiency.

Here, the connection plate 114, the first mounting plate 124, and the second mounting plate 134 may be integrally configured or may be connected separately. The materials of the connecting plate 114, the first mounting plate 124 and the second mounting plate 134 are not limited as long as the second structural member 104 can hold the wall panel 105.

The specific structure of the second structure 104 is merely an example, and is not limited thereto, and in other examples, other structures may be adopted as long as the technical function of the present application can be achieved.

For the wall panel 105, the wall panel 105 is pulled over the second structural member 104 to fit the wall panel 105 to the wall surface on the upper side of the opening 400.

Optionally, the wall panel 105 includes a base plate 115 and a veneer 125, the veneer is overlaid on the base plate, and the veneer is dragged on the second structural member 104, so that the base plate is located between the keel 102 and the veneer, thereby improving the assembling efficiency and reducing the assembling difficulty.

Optionally, the facing sheet is adhered to the base plate by structural glue, thereby ensuring structural stability of the wall panel 105.

Optionally, the substrate is a calcium silicate substrate, thereby providing fire-retardant properties to the wall panel 105 while reducing the difficulty of assembling the wall panel 105. Such as ceramic tiles.

Optionally, in this embodiment, the node structure of the hole 400 further includes: and a waterproof structure 105 disposed between the wall surface on the upper side of the opening 400 and the keel 102, so that the wall 300 is not damaged when water leakage is prevented.

Optionally, in this embodiment, the waterproof structure is a waterproof membrane, the waterproof membrane covers the wall on the upper side of the hole 400, and is fixed on the wall on the upper side of the hole 400 through the expansion structure 101, so as to facilitate construction on site and improve the construction efficiency.

In summary, the embodiment of the present application is based on the wall surface of the opening 400 node structure, so that the implementation of the dry process is ensured, and the following technical effects are achieved:

(1) Because a large amount of materials causing pollution cannot be used, secondary pollution to the environment is avoided;

(2) The process is simple, time-saving and labor-saving, the construction efficiency is high, and the process personnel is not required to have high technology;

(3) The structure wall surface does not need to be grooved to form a pipeline cavity such as a water/electricity pipeline cavity, so that the difficulty and complexity of the process are reduced, and meanwhile, the structure wall surface and even a basic wall surface are prevented from being damaged;

(4) When the cavity of the pipeline needs to be increased, the structural wall surface does not need to be damaged, and therefore the construction difficulty and cost are reduced.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those of ordinary skill in the art.

Furthermore, the technical features mentioned in the different embodiments of the invention described below can be combined with each other as long as they do not conflict with each other.

The above-mentioned embodiments are only specific embodiments of the present invention, and are not intended to limit the technical solutions of the present invention, and the protection scope of the present invention is not limited thereto, although the present invention is described in detail with reference to the foregoing embodiments, those skilled in the art should understand that: those skilled in the art can still make modifications or changes to the technical solutions described in the foregoing embodiments, or make equivalent substitutions for some technical features, within the technical scope of the present disclosure; such modifications, changes or substitutions do not substantially depart from the spirit and scope of the embodiments of the present invention, and are intended to be included within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (19)

1. The hole node structure of the wall surface is characterized in that the hole node structure is suitable for implementing a dry-hanging type assembly process at a hole of a wall body, the wall body is a basic wall body or a structural wall body, the wall body is at least provided with a window hole or a door hole, and the hole at least comprises one of the window hole and the door hole;

the hole node structure comprises:

the expansion structural part is assembled on the wall surface on the upper side of the hole, and the expansion structural part is used for leveling the wall surface around the upper side of the hole to form an assembly reference surface so that the wall surface around the upper side of the hole is leveled;

the keel is assembled on the expansion structural part by referring to the assembly datum plane;

one end of the first structural member is hung on the expansion structural member;

the second structural part is fixed with the other end of the first structural part;

and the wallboard is dragged on the second structural part so as to be assembled on the wall surface on the upper side of the hole.

2. The hole opening node structure as claimed in claim 1, wherein said one end of said first structural member is provided with a first mounting groove, and said first structural member is hung on said expansion structural member through said first mounting groove.

3. The hole node structure of claim 2, wherein the direction of the notch of the first mounting groove is inclined downward.

4. The hole node structure of claim 1, wherein a second mounting groove is formed in a middle position of the first structural member, and the first structural member is hung on the expansion structural member through the second mounting groove.

5. The hole node structure of claim 4, wherein the direction of the notch of the second mounting groove is inclined downward.

6. The hole node structure of claim 1, wherein a mounting hole is formed at the other end of the first structural member, and the second structural member is fixed to the first structural member through the mounting hole.

7. The hole node structure of claim 6, wherein a plurality of mounting holes are formed at the other end of the first structural member to adjust the use of the mounting holes according to the height of the assembly of the wall panel.

8. The hole node structure of claim 6, wherein the second structural member comprises a connecting plate, a first mounting plate at one end of the connecting plate, a second mounting plate at the other end of the connecting plate, such that the first mounting plate is secured to the second end of the first structural member and the second mounting plate drags the wall plate.

9. The hole node structure of claim 8, wherein said connecting plate extends in a direction from said wall surface to an exterior of said wall when said second structural member is pulled over said wall panel, said first mounting plate extending in a direction opposite to said second mounting plate such that said first mounting plate is securable to said second end of said first structural member and said second mounting plate is pulled over said wall panel.

10. The hole node structure of claim 1, wherein the number of the expansion structures is plural, and the plural expansion structures are arranged on the wall surface on the upper side of the hole in sequence along the transverse direction to form the assembly reference surface.

11. The hole node structure of claim 1, wherein the expansion structure forms a gap between the wall surface on the upper side of the hole and the keel, and the gap is used as a pipeline gap.

12. The hole node structure of claim 1, wherein the expansion structure is a nail-type plastic expansion plug.

13. The hole node structure of claim 1, wherein the keel is at least one of a cross keel and a vertical keel.

14. The portal node structure of any of claims 1-13, further comprising: the waterproof structure body is arranged on the wall surface on the upper side of the hole and between the keels.

15. The hole node structure of claim 14, wherein the waterproof structure is a waterproof membrane, and the waterproof membrane is covered on the wall surface on the upper side of the hole and is fixed on the wall surface on the upper side of the hole through the expansion structure.

16. The hole node structure of claim 15, wherein the wall panel comprises a base panel and a trim panel overlaying the base panel and being pulled over the second structural member such that the base panel is between the keel and the trim panel.

17. The hole node structure of claim 16, wherein the veneer is adhered to the base plate by structural glue.

18. The portal node structure of claim 17, wherein said substrate is a calcium silicate substrate.

19. An assembled wall comprising the hole node structure of any one of claims 1-18.

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