CN220889280U - Assembled environment-friendly composite wallboard system - Google Patents

Abstract

The utility model provides an assembled environment-friendly composite wallboard system which comprises vertical keels, transverse keels, composite wallboards and hanging pieces, wherein the vertical keels are vertically fixed on the side surfaces of a wall body and are distributed at intervals along the horizontal direction, and the transverse keels are horizontally fixed on the vertical keels and are distributed at intervals along the vertical direction. The top of horizontal fossil fragments has the draw-in groove, and the top of pendant is connecting portion, and its bottom is buckle portion, and the connecting portion of pendant and composite wall panel's medial surface fixed connection, the buckle portion of pendant is hung and is detained in the draw-in groove of horizontal fossil fragments. The component manufacturing of the composite wallboard system can realize industrial production and standardized processing, assembly type construction is adopted on site, the assembly process is simple and convenient, and the time and labor cost are saved. The composite wallboard system is characterized by being detachable and movable in an assembling mode, and is convenient to detach and reuse; the method is very beneficial to projects with flexibility requirements such as temporary buildings, reconstruction projects and the like, and meanwhile, the waste of building materials is reduced.

Description

Assembled environment-friendly composite wallboard system

Technical Field

The utility model belongs to the field of building interior decoration wall surfaces, and particularly relates to an assembled environment-friendly composite wallboard system.

Background

Along with the increasing demands of building engineering, the demands of the market on environmental protection, energy conservation, safety, durability, low cost and the like are also increasing. The traditional wallboard materials such as wallpaper, other synthetic materials and the like have the problems of high construction difficulty, long construction period, poor environmental protection and the like, have complex installation procedures and cannot meet the requirements of modern buildings. Therefore, development of a composite wallboard which is environment-friendly, safe, durable, easy to construct and low in cost is an urgent need.

Most of environment-friendly composite wallboards in the current market are prefabricated and produced by factories, the use occasions are limited, the installation is complex, the application efficiency is not high, and certain problems and difficulties exist in the transportation, storage and installation processes. It is therefore necessary and significant to provide an assembled environmental protection composite wallboard system and method of assembling the same.

Disclosure of utility model

The utility model aims to provide an assembled environment-friendly composite wallboard system, which aims to solve the problems that the prior environment-friendly composite wallboard is prefabricated by a factory, has limited use occasions, is complex to install and low in efficiency, and has great difficulty in transportation, storage and installation processes.

The utility model is realized in such a way, the assembled environment-friendly composite wallboard system comprises vertical keels, transverse keels, composite wallboards and hanging pieces, wherein a plurality of vertical keels are vertically and fixedly arranged on the side surface of a wall body and are sequentially and alternately distributed along the horizontal direction, and a plurality of transverse keels are horizontally and fixedly arranged on the vertical keels and are sequentially and alternately distributed along the vertical direction; the top of horizontal fossil fragments has the draw-in groove, the top of pendant is connecting portion, and its bottom is buckle portion, the connecting portion of pendant with composite wall panel's medial surface fixed connection, the buckle portion of pendant is hung and is detained in the draw-in groove of horizontal fossil fragments.

Further, the transverse keels are steel U-shaped keels, and the vertical sections of the transverse keels are U-shaped.

Further, the buckling part of the pendant is wavy along the vertical direction.

Further, each composite wallboard is connected with a plurality of hanging pieces through screws, and a plurality of composite wallboards are sequentially paved on the outer side face of the transverse keel and connected with the transverse keel through hanging buckles of the hanging pieces.

Further, the transverse keels are fixed on the outer side surfaces of the vertical keels through screws.

Compared with the prior art, the utility model has the beneficial effects that:

1. The component manufacturing of the composite wallboard system can realize industrial production and standardized processing, assembly type construction is adopted on site, the assembly process is simple and convenient, and a large number of tools and equipment are not required to be used; compared with the traditional wallboard construction mode, the time and labor cost are saved. And the keel and the plane material are connected into an integral structure through the connecting piece, so that the efficiency and the quality of building construction are improved, and the high-impact-resistance composite material has high impact resistance.

2. The composite wallboard system is characterized by being detachable and movable in an assembling mode, and can be conveniently detached and reused; the method is very beneficial to projects with flexibility requirements such as temporary buildings, reconstruction projects and the like, and meanwhile, the waste of building materials is reduced.

3. The composite wallboard is made of environment-friendly materials and degradable filling materials, substances harmful to the environment cannot be generated, and the filling materials can be naturally decomposed after being used, so that the pollution to the environment is reduced. In addition, the design and the structure of the wallboard can also provide good heat insulation and sound insulation performance, and the energy benefit of the building is improved.

Drawings

FIG. 1 is a schematic elevational view of an assembled environmental protection composite wall panel system;

FIG. 2 is a schematic side structural view of an assembled environmental protection composite wallboard system;

FIG. 3 is an enlarged view of area A of FIG. 2;

FIG. 4 is a schematic diagram of a cross clip for controlling the size of a panel slot.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Referring to fig. 1 and 2, an assembled environment-friendly composite wallboard system provided by the embodiment is shown, which comprises vertical keels 1, transverse keels 2, composite wallboards 3 and hanging pieces 4, wherein a plurality of vertical keels 1 are vertically and fixedly installed on the side surface of a wall body, are sequentially distributed at intervals along the horizontal direction, and a plurality of transverse keels 2 are horizontally and fixedly installed on the outer side surface of the vertical keels 1 through self-drilling screws 5 and are sequentially distributed at intervals along the vertical direction.

Referring to fig. 3 together, the top of the transverse keel 2 has a clamping groove 21, the top of the hanging member 4 is a connecting portion 41, the bottom of the hanging member is a clamping portion 42, the connecting portion 41 of the hanging member 4 is fixedly connected with the inner side surface of the composite wallboard 3, and the clamping portion 42 of the hanging member 4 is hung and buckled in the clamping groove 21 of the transverse keel 2. Each composite wallboard 3 is connected with a plurality of hanging pieces through self-tapping screws 6, so that the composite wallboard 3, the self-tapping screws 6 and the hanging pieces 4 are preformed into a whole before wallboard assembly; the compound wallboard 3 with the hanging piece 4 is sequentially paved on the outer side surface of the transverse keel 2 and is connected with the transverse keel 2 through the hanging piece 4 on the inner side surface of the compound wallboard 3.

Specifically, the transverse keel 2 of the embodiment is a steel U-shaped keel, and the vertical section of the transverse keel is U-shaped, so that a clamping groove for accommodating the hanging piece 4 is provided. The buckling part 42 of the hanging part 4 is wavy along the vertical direction, in this embodiment, the buckling part 42 of the hanging part 4 is of a side-mounted W shape, and through the shape design, even if the material of the buckling part 42 is thinner, the gap between the buckling part 42 and the inner wall of the clamping groove 21 can be reduced as much as possible, and the stability of the composite wallboard 3 is ensured on the premise of saving materials and the weight of components.

In order to more clearly embody the technical effects of the composite wallboard system of the present application, the following details are described in connection with the specific construction process:

And (5) selecting the style, the color sample and the specification of the composite wallboard 3 according to the design, and carrying out production planning in advance.

Performing typesetting design of the composite wallboard 3 according to the construction site size, and drawing a typesetting map; after the composite wallboard 3 enters the site, the composite wallboard 3 is lifted to the installation position manually or mechanically, the plate stacking site is firm, flat and dry and cannot be in direct contact with the ground, and covering and raising measures are adopted in the rainy period;

Firstly, fixing the vertical keels 1 on the side surfaces of the wall body, and locally adjusting and leveling the wall body when the wall surface is uneven;

The transverse keels 2 are fixed on the outer side surfaces of the vertical keels 1 by adopting the self-drilling screws 5, the standard length of the transverse keels 2 is 3 meters, the transverse keels 2 are assembled in sequence at equal intervals of 400MM according to the transverse interval, and 2 cross slot screws with the length of 4.8 MM and 16MM are fixed at intervals of 200 MM;

the standard whole board specification of the composite wallboard 3 is 1000 MM wide and 1200MM wide, 2400MM high, 2700MM high and 3000MM high, and when part of the size needs to be cut, a line mark is drawn, and then the cutting operation is carried out by using a portable machine, so that the cut part is ensured to be flat and straight, and the wallboard loss is reduced;

installing a composite wallboard 3 and a hanging piece 4;

placing the composite wallboard 3 on a leveling platform or a leveling place, and popping up a standard size position line by using an ink fountain according to a 400MM interval;

Installing hanging pieces 4, wherein each hanging piece 4 is fixed on the inner side surface of the composite wallboard 3 by 3M 4 x 10mm self-tapping screws 6, and the hanging pieces 4 are arranged according to a drawing;

The composite wall boards 3 are sequentially installed from left to right; when a door opening is provided, the door opening is preferably installed from the door opening to two sides.

According to construction scheme and design requirement, carry out the installation work of composite wall panel 3, adopt the hanging method to install generally, pendant 4 place to be leveled, perpendicular, horizontal interval is to be kept unanimous with horizontal interval of horizontal fossil fragments 2, adopts the end to put on the wall body, makes pendant 4 and horizontal fossil fragments 2 hang each other and detain and connect and fix, ensures that composite wall panel 3 is whole firm reliable.

When the composite wallboard 3 is installed, gaps are uniformly reserved, the size of the gaps is controlled by adopting the cross clamping pieces 7 according to the gaps required by design (as shown in figure 4), and after the composite wallboard 3 is fixed and stable, the cross clamping pieces 7 can be taken out.

After the composite wallboard 3 is preliminarily assembled, flatness and verticality are checked by a 2m straight guiding rule, and the direction of the composite wallboard 3 is adjusted and corrected by an adjusting hanging piece 4.

In the installation process, the requirements of wall perpendicularity, levelness and the like need to be paid attention to, and professional tools and measuring equipment are used for checking and adjusting.

In summary, the assembled environment-friendly composite wallboard system of the embodiment can realize the following technical effects:

1. The component manufacturing of the composite wallboard system can realize industrial production and standardized processing, assembly type construction is adopted on site, the assembly process is simple and convenient, and a large number of tools and equipment are not required to be used; compared with the traditional wallboard construction mode, the time and labor cost are saved. And the keel and the plane material are connected into an integral structure through the connecting piece, so that the efficiency and the quality of building construction are improved, and the high-impact-resistance composite material has high impact resistance.

2. The composite wallboard system is characterized by being detachable and movable in an assembling mode, and can be conveniently detached and reused; the method is very beneficial to projects with flexibility requirements such as temporary buildings, reconstruction projects and the like, and meanwhile, the waste of building materials is reduced.

3. The composite wallboard 3 is made of environment-friendly materials and degradable filling materials, substances harmful to the environment are not generated, and the filling materials can be naturally decomposed after being used, so that the pollution to the environment is reduced. In addition, the design and the structure of the wallboard can also provide good heat insulation and sound insulation performance, and the energy benefit of the building is improved.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (5)

1. The assembled environment-friendly composite wallboard system is characterized by comprising vertical keels, transverse keels, composite wallboards and hanging pieces, wherein a plurality of vertical keels are vertically and fixedly arranged on the side surface of a wall body, are sequentially and alternately distributed along the horizontal direction, and a plurality of transverse keels are horizontally and fixedly arranged on the vertical keels and are sequentially and alternately distributed along the vertical direction; the top of horizontal fossil fragments has the draw-in groove, the top of pendant is connecting portion, and its bottom is buckle portion, the connecting portion of pendant with composite wall panel's medial surface fixed connection, the buckle portion of pendant is hung and is detained in the draw-in groove of horizontal fossil fragments.

2. The modular environmental protection composite wall panel system of claim 1, wherein the transverse keels are steel U-shaped keels having a U-shaped vertical cross section.

3. The assembled environmental protection composite wall panel system of claim 1, wherein the buckle portion of the pendant is wavy in a vertical direction.

4. The assembled environmental protection composite wallboard system of claim 1, wherein each composite wallboard is connected with a plurality of hanging pieces through screws, and a plurality of composite wallboards are sequentially paved on the outer side surface of the transverse keel and connected with the transverse keel through hanging pieces.

5. The modular environmental protection composite wall panel system of claim 1, wherein the transverse keels are secured to the outer sides of the vertical keels by screws.