CN111926983A - Suspended ceiling module, suspended ceiling system and construction method thereof - Google Patents

Abstract

The invention provides a suspended ceiling module, a suspended ceiling system and a construction method of the suspended ceiling module. The suspended ceiling module bends the edge of a gypsum board with a decorative layer to one side of a non-decorative surface, so as to form enclosure and decoration around the suspended ceiling module, and shield structures such as a decorative keel on the non-decorative surface of the gypsum board, so as to beautify the appearance of the suspended ceiling module; meanwhile, the mounting position, the mounting angle and the like of the suspended ceiling module can be adjusted at will by utilizing the at least two covering keels, the modeling adjustable range of the suspended ceiling system is enlarged, and the modeling of the suspended ceiling system is changeable.

Description

Suspended ceiling module, suspended ceiling system and construction method thereof

Technical Field

The invention relates to the technical field of building decoration, in particular to a suspended ceiling module, a suspended ceiling system and a construction method of the suspended ceiling system.

Background

The suspended ceiling system is the indispensable building structure in the architectural decoration engineering, and suspended ceiling system has functions such as heat preservation, thermal-insulated, sound insulation, decoration usually to remedy the defect that building house itself exists, increase the stereovision in space, also be the important structure who shelters from spaces such as electric, ventilation air conditioner, communication and fire prevention.

Among the current gypsum board suspended ceiling system, be concatenation formula suspended ceiling system, connect through structures such as fossil fragments or profile between the adjacent gypsum board promptly to it mostly is the structure that plane or a plurality of plane concatenation formed to cause suspended ceiling system, can only design through the pattern of gypsum board or the shape of furred ceiling module, and the molding is single.

Suspended ceiling systems have emerged in order to diversify the structure of the ceiling system, to be suitable for and to satisfy more users' decorative needs. However, in the existing suspended ceiling system, due to the inclined or staggered arrangement of the ceiling modules, the installation and connection structures on the back of the ceiling modules can be seen easily, and the appearance of the suspended ceiling system is seriously influenced.

Disclosure of Invention

The present invention is directed to solving the problems described above. It is an object of the present invention to provide a ceiling module, a suspended ceiling system and a construction method thereof that solve any one of the above problems. Specifically, the invention provides a suspended ceiling module, a suspended ceiling system and a construction method thereof, wherein the suspended ceiling module can beautify the appearance, has variable shapes and is convenient to install.

According to a first aspect of the invention, the invention provides a ceiling module, which comprises a gypsum board with a decorative surface layer and at least two surface keel arranged in parallel on the opposite surface of the decorative surface of the gypsum board, wherein four edges of the gypsum board are bent towards the opposite surface of the decorative surface of the gypsum board by a preset height, and the adjacent end parts of the four edges of the gypsum board are fixedly connected through an adhesive.

The gypsum board is characterized in that V-shaped back grooves are formed in the bending positions of four edges of the gypsum board, and the depth of each V-shaped back groove is smaller than the thickness of the gypsum board.

Wherein the preset height is greater than the thickness of the cladding keel.

Wherein the ceiling module further comprises a bonding layer, the bonding layer being located between the gypsum board and the facing grid.

The suspended ceiling module further comprises a reinforcing layer and a plurality of reinforcing pieces, the reinforcing layer is located between the gypsum boards and the facing keels, the reinforcing layer is fixedly connected with the gypsum boards through bonding layers, and the reinforcing layer is fixedly connected with the facing keels through the reinforcing pieces.

Wherein the reinforcing layer comprises gypsum laths and/or paper-faced gypsum board.

The suspended ceiling module further comprises a plurality of hanging pieces, and the hanging pieces are arranged on the covering keel at intervals.

The web of the cladding keel is fixedly connected with the gypsum board, and the hanging piece penetrates through flanges on two sides of the cladding keel.

According to another aspect of the invention, the suspended ceiling system comprises a plurality of ceiling modules as described above, and further comprises a hanging member arranged on the roof in an intervening manner, wherein the cladding keel is connected with the hanging member, and adjacent ceiling modules are not connected with each other.

According to a third aspect of the present invention, there is also provided a construction method of the suspended ceiling system as described above, the construction method comprising the steps of:

bending four edges of the gypsum board towards the opposite surface of the decorative surface of the gypsum board by a preset height, and fixedly connecting the adjacent end parts of the four edges of the gypsum board through a bonding agent;

fixing at least two parallel covering keels on the opposite surface of the decorative surface of the gypsum board;

mounting the hanging piece at a preset position of the roof;

and connecting the cladding keel on the gypsum board with the corresponding hanging piece.

The suspended ceiling module bends the edge of the gypsum board with the decorative surface layer to one side of the non-decorative surface, so that the periphery of the suspended ceiling module is enclosed and decorated, structures such as the decorative keel and the like on the non-decorative surface of the gypsum board are shielded, the appearance of the suspended ceiling module is beautified, and the appearance of a suspended ceiling system is beautified; meanwhile, the mounting position, the mounting angle and the like of the suspended ceiling module can be adjusted at will by utilizing the at least two covering keels, the modeling adjustable range of the ceiling system is enlarged, the ceiling system is variable in modeling, the requirements of various decoration styles are met, and the construction is convenient.

Other characteristic features and advantages of the invention will become apparent from the following description of exemplary embodiments, which is to be read in connection with the accompanying drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments of the invention and together with the description, serve to explain the principles of the invention. In the drawings, like reference numerals are used to indicate like elements. The drawings in the following description are directed to some, but not all embodiments of the invention. For a person skilled in the art, other figures can be derived from these figures without inventive effort.

FIG. 1 schematically illustrates one construction of a ceiling module of the present invention;

FIG. 2 schematically illustrates another structural view of the ceiling module of the present invention;

FIG. 3 schematically illustrates a third construction of the ceiling module of the present invention;

FIG. 4 schematically illustrates one construction of the suspended ceiling system of the present invention;

fig. 5 schematically illustrates a flow chart of a method of constructing the suspended ceiling system of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention. It should be noted that the embodiments and features of the embodiments in the present application may be arbitrarily combined with each other without conflict.

With the furred ceiling panel of veneer gypsum board as the furred ceiling module, bend the preset height with four limits of gypsum board towards the opposite face of the decorative cover of gypsum board for connecting structure or mounting structure such as cladding fossil fragments that set up on the opposite face of the decorative cover of gypsum board shelter from, effectively beautify the outward appearance of furred ceiling module, thereby beautify suspended ceiling system's outward appearance. Through set up two at least clad can fossil fragments that are parallel to each other and set up a plurality of hanging pieces at the clad can fossil fragments interval on the non-decorative face of gypsum board, the construction installation of not only being convenient for can realize the mounted position of furred ceiling module and installation angle's arbitrary regulation moreover, effectively enlarges the mounting means of furred ceiling module to expanded the figurative variability of suspension furred ceiling system by a wide margin, increase suspension furred ceiling system's application scope and application scene.

The suspended ceiling module, the suspended ceiling system and the construction method thereof provided by the invention are described in detail below with reference to the accompanying drawings.

Fig. 1 shows a schematic structural diagram of a specific embodiment of the ceiling module of the present invention, and referring to fig. 1, the ceiling module 1 includes a gypsum board 11 with a decorative surface layer and at least two facing keels 12 arranged in parallel with each other on the opposite surface of the decorative surface of the gypsum board 11 (i.e., the non-decorative surface of the gypsum board 11), the gypsum board 11 is used as a decorative plate of the ceiling module 1, and the facing keels 12 are used for connecting with structures such as embedded parts or suspension rods on a roof to realize the installation of the ceiling module 1.

Wherein, the height setting is predetermine all to bend towards the opposite face of gypsum board 11's decorative cover on four limits of gypsum board 11 for gypsum board 11 forms uncovered box formula structure, and limit portion after gypsum board 11 bends can shelter from the clad can fossil fragments 12 isotructures of setting on its non-decorative cover, effectively beautifies suspended ceiling module 1's outward appearance, in order to guarantee to accomplish at suspended ceiling system construction back, stands and can not expose because of clad fossil fragments 12 isotructures and influence suspended ceiling system's aesthetic property in suspended ceiling system below.

Further, in order to ensure the stability of the shape of the gypsum board 11 after the edges are bent, the adjacent ends of the four edges of the gypsum board 11 are fixedly connected by an adhesive, thereby ensuring the stability of the shape of the ceiling module 1.

In order to prevent the edge of the ceiling module 1 from generating gaps or deviation of patterns, the ceiling module 1 of the present invention adopts bending the four edges of the gypsum board 11 by a predetermined height, rather than connecting other gypsum laths to the edges of the gypsum board 11. Specifically, since the gypsum board 11 is a hard material product with a certain thickness, in order to facilitate bending of the edge of the gypsum board 11, V-shaped back grooves are formed at the bending positions of four edges on the non-decorative surface of the gypsum board 11, and the depth of the V-shaped back grooves is smaller than the thickness of the gypsum board 11, so as to prevent the decorative layer of the gypsum board 11 from being broken through to affect the appearance of the suspended ceiling module. If the gypsum board 11 is bent to form a structure in which the bent edge is perpendicular to the decorative surface of the gypsum board 11 as in this embodiment, the angle of the V-shaped back groove is 90 degrees, and the bent angle of the edge of the gypsum board 11 of the ceiling module 1 can be designed to be an acute angle or an obtuse angle according to the actual shape of the suspended ceiling system, that is, the included angle between the bent edge of the gypsum board 11 and the decorative surface of the gypsum board 11 is an acute angle or an obtuse angle, and the V-shaped back groove is correspondingly set to be an obtuse angle or an acute angle.

Further, in order to sufficiently achieve the shielding effect after the edges of the gypsum board 11 are bent, the preset height of the four-edge bending of the gypsum board 11 needs to be greater than the thickness of the facing keel 12, which is embodied in this embodiment that the bending height of the four edges of the gypsum board 11 is greater than the flange height of the facing keel 12 when the web of the facing keel 12 is connected with the gypsum board 11.

In this embodiment, the ceiling module 1 further includes an adhesive layer 13, the adhesive layer 13 is located between the gypsum board 11 and the facing keel 12, and the fixing of the facing keel 12 on the gypsum board 11 is realized through the adhesive layer 13. For example, the adhesive layer 13 may be made of adhesive such as plaster adhesive or 3M glue, which can fix the facing keel 12 and the gypsum board 11. In this case, the preset height of the four-side bending of the gypsum board 11 should be greater than or equal to the sum of the thickness of the adhesive layer 13 and the thickness of the cladding keel 12.

Fig. 2 shows a schematic structural view of another embodiment of the ceiling module 1 of the present invention, and referring to fig. 2, in this embodiment, the ceiling module 1 further includes a reinforcing layer 14 and a plurality of reinforcing members 15, the reinforcing layer 14 is located between the gypsum board 11 and the furring channel 12 for reinforcing the connection strength and stability between the furring channel 12 and the gypsum board 11, and at the same time, the reinforcing layer 14 is more easily connected with the gypsum board 11, the reinforcing layer 14 and the furring channel 12, and the furring channel 12 and the gypsum board 11 can be more easily connected without damaging the decorative layer of the gypsum board 11. Specifically, the reinforcing layer 14 is fixedly connected with the gypsum board 11 through the bonding layer 13, and the reinforcing layer 14 is fixedly connected with the facing keel 12 through the reinforcing member 15. Illustratively, the reinforcement member 15 may be a countersunk screw, such as a flat head self-tapping screw.

The reinforcing layer 14 may be a gypsum lath or a common gypsum plaster board. For example, in the embodiment shown in fig. 2, the reinforcing layer 14 is a plain paper-faced gypsum board having the same shape as the gypsum board 11 and having a smaller outer dimension than the bent gypsum board 11.

Fig. 3 shows a structural schematic view of a third embodiment of the ceiling module 1, in which the reinforcing layer 14 is a gypsum lath having a width slightly greater than the width of the web of the furring channel 12. In addition, the ceiling module 1 of this embodiment further includes a plurality of hanging members 16, and the plurality of hanging members 16 are disposed on the covering keel 12 at intervals for connecting with connecting members such as hanging members disposed on the roof, so as to complete the installation of the ceiling module 1. Furthermore, the adjustment of the installation height and the installation angle of the corresponding position of the suspended ceiling module 1 can be realized by adjusting the installation height of different hanging pieces 16 relative to the roof (namely, adjusting the installation position of the hanging pieces 16 on the hanging pieces or adjusting the hanging length of the hanging pieces and the like), so that the modeling transformation of the suspended ceiling system is realized, and the requirements of decoration effect are met. For example, a plurality of hanging pieces 16 are arranged on each facing keel 12 at intervals, and the positions of the hanging pieces 16 can be adjusted to be gradually increased or gradually decreased along the extending direction of the facing keel 12, so that the effect of obliquely installing the ceiling module 1 is achieved. If the ceiling module 1 is required to be arranged in parallel to the roof, the ceiling modules 1 are only required to be provided with the hanging pieces 16 at the same height.

In the embodiment shown in fig. 3, the facing keel 12 is a C-shaped keel, and a web of the facing keel 12 is fixedly connected with the gypsum board 11; the hanging members 16 are rod-shaped fixing members such as screws, and the hanging members 16 are disposed through both side flanges of the facing keels 12 to secure the installation firmness of the hanging members 16 and the installation stability of the connected ceiling modules 1. In another embodiment, the cladding keel 12 may be a keel of another structure, such as an H-shaped keel or a T-shaped keel, and the corresponding hanging member 16 may also be a connector of another structure, so that it is only necessary to ensure that the hanging members 16 are spaced apart from each other on the cladding keel 12, stably connected, and conveniently connected to and installed with a structure such as a hanging member on a roof.

The invention also provides a suspended ceiling system, and fig. 4 shows a schematic structural diagram of a specific embodiment of the suspended ceiling system, and as shown by comprehensively referring to fig. 1 and fig. 4, the suspended ceiling system comprises a plurality of ceiling modules 1 as described above, and further comprises a plurality of hanging pieces 2 arranged on the roof in an intervening manner, and if the suspended ceiling modules 1 are connected with the hanging pieces 2 one by one according to a preset rule, so that the suspended ceiling system with a preset shape is formed. Specifically, the ceiling modules 1 have their facing keels 12 connected one by one to the hangers 2. The suspended ceiling system is characterized in that the adjacent ceiling modules 1 are independently installed and are not connected with each other, namely, each ceiling module 1 is independently hoisted. In actual work progress, can realize the position control of furred ceiling module 1 through the hookup location of adjusting furred ceiling module 1 and pendant 2, realize the regulation of the mounting height and the angle of furred ceiling module 1 through the length of the pendant 2 of adjusting the different positions that correspond to furred ceiling module 1 for the molding variability of suspension furred ceiling system is high, realizes suspension furred ceiling system's molding transform, satisfies fitment decorative effect's demand. If the suspended ceiling module 1 is required to be arranged in parallel to the roof, the length of the hanging piece 2 is only required to be adjusted to be at the same height.

Specifically, the cladding keel 12 may be directly connected to the hanging member 2, or may be connected to the hanging member through another structural member. For example, when the ceiling module 1 shown in fig. 3 is used for installation, the plurality of hanging pieces 16 are arranged on the covering keel 12 at intervals, and at this time, the hanging pieces 16 and the hanging pieces 2 can be connected in a one-to-one corresponding hanging or clamping manner, so that the installation of the ceiling module 1 is completed.

In accordance with the suspended ceiling system, the present invention further provides a construction method of the suspended ceiling system, fig. 5 shows a construction flow chart of the construction method, and referring to fig. 5, the construction method includes the following steps:

step S1: bending four edges of the gypsum board 11 towards the opposite surface of the decorative surface of the gypsum board 11 by a preset height, and fixedly connecting the adjacent end parts of the four edges of the gypsum board 11 through an adhesive;

step S2: at least two cladding keels 12 which are parallel to each other are fixed on the opposite surface of the decorative surface of the gypsum board 11;

step S3: mounting a pendant 2 at a preset position of a roof;

step S4: and connecting the cladding keel 12 on the gypsum board 11 with the corresponding hanging piece 2 to complete the installation of the suspended ceiling module 1.

The steps are installation steps of one suspended ceiling module 1, and according to the steps, the suspended ceiling modules 1 are installed one by one according to a preset rule, so that the suspended ceiling system with the preset shape can be formed.

Specifically, step S1 includes: a V-shaped back groove is formed in a position (or a forming dimension position relative to the ceiling module 1) on the opposite surface of the decorative surface of the gypsum board 11, which is a predetermined distance from the edge portion, on the opposite surface of the decorative surface of the gypsum board 11 (i.e., on the non-decorative surface of the gypsum board 11), the corner portion at the intersection of the adjacent V-shaped back grooves is cut off, then the edge portion of the gypsum board 11 is bent one by one toward the non-decorative surface of the gypsum board 11 along the V-shaped back groove, and then the end portions of the adjacent bent edges are fixed by bonding agent.

Step S2 specifically includes: an adhesive layer 13, which may be 3M glue with a predetermined thickness and a predetermined width or gypsum conglomerates with predetermined sizes distributed at intervals, is coated on the non-decorative surface of the gypsum board 11 and the position of the facing keel 12 to be installed, and then the web of the facing keel 12 is fixed on the gypsum board 11 through the adhesive layer 13 to form the ceiling module 1.

In another specific embodiment, when a reinforcing layer 14 (which may be a gypsum lath or a common gypsum plasterboard) is further disposed between the facing keel 12 and the gypsum board 11, step S2 specifically includes:

step S21: fixedly connecting the reinforcing layer 14 with the cladding keel 12 through a reinforcing member 15;

step S22: applying adhesive layers 13, which may be 3M glue or plaster dough, at predetermined intervals on the non-decorative side of the gypsum board 11;

step S23: the reinforcing layer 14 to which the furring channels 12 are fixed is fixed to the gypsum board 11 by means of the adhesive layer 13 to form the ceiling module 1.

When the ceiling module 1 is connected to the suspension member 2 through the suspension member 16, the step S2 further includes, before the step S21 or after the step S23: a plurality of hangers 16 are mounted to the cladding keel 12 at predetermined locations. In this case, step S4 specifically includes: and connecting the hanging pieces 16 on the covering keels 12 with the corresponding hanging pieces 2 one by one to complete the installation of the ceiling module 1.

The suspended ceiling system of one embodiment is constructed as follows:

step S11: forming 90-degree V-shaped back grooves on the non-decorative surface of the gypsum board 11 with the decorative layer and at positions 50mm away from the four sides, removing the residual materials of the four corners formed by the intersection of the end parts of the four V-shaped back grooves, bending the four sides of the gypsum board 11 towards the non-decorative surface of the gypsum board 11 along the corresponding V-shaped back grooves respectively, and fixing the end parts of the adjacent sides through adhesives to form a uncovered rectangular box-shaped structure;

step S21: processing a C-shaped keel with the length less than or equal to that of the V-shaped back groove to be used as a covering keel 12, processing a gypsum lath with the width of 100mm and the thickness of 12mm to be used as a reinforcing layer 14, wherein the length of the reinforcing layer 14 is consistent with that of the covering keel 12, and fixing the gypsum lath and a web plate of the covering keel 12 through a self-tapping screw;

step S22: a hanging piece 16 is arranged on the cladding keel 12 at an interval of 400mm, and a butt-penetrating screw can be selected;

step S23: coating adhesive plaster sticky masses or 3M glue on the non-decorative surface of the gypsum board 11, adhering and fixing the gypsum lath with the gypsum board 11 through the plaster sticky masses or the 3M glue, and waiting for the complete condensation of the plaster sticky masses or the 3M glue to form the suspended ceiling module 1; gypsum sticky balls or 3M glue can be coated on the inner wall of the periphery of the bent gypsum board 11, and the facing keel 12 and the side face of the gypsum board strip are bonded and fixed with the bent inner wall of the gypsum board 11;

step S3: mounting the hanger 2 at a predetermined position of the top (roof or floor) of the building structure by means of an expansion bolt;

step S4: the suspended ceiling modules 1 after gypsum conglomeration or 3M glue final setting are connected with the hanging pieces 2 at corresponding positions one by one according to a preset rule, namely, the suspended ceiling modules 1 are installed through one-to-one connection between the hanging pieces 16 on the suspended ceiling modules 1 and the hanging pieces 2;

step S5: and repeating the step S4, and mounting the plurality of suspended ceiling modules 1 one by one to form the suspended ceiling system with the preset shape.

The above-described aspects may be implemented individually or in various combinations, and such variations are within the scope of the present invention.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, 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 an …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Finally, it should be noted that: the above examples are only for illustrating the technical solutions of the present invention, and are not limited thereto. Although the present invention 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 solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. A ceiling module (1), characterized in that, the ceiling module (1) includes a gypsum board (11) with a decorative surface layer and at least two facing keels (12) arranged in parallel with each other on the opposite surface of the decorative surface of the gypsum board (11), wherein, four sides of the gypsum board (11) are all bent towards the opposite surface of the decorative surface of the gypsum board (11) for a preset height, and adjacent ends of the four sides of the gypsum board (11) are fixedly connected through an adhesive.

2. The ceiling module (1) according to claim 1, wherein the gypsum board (11) is provided with a V-shaped back groove at the bending position of four sides, and the depth of the V-shaped back groove is smaller than the thickness of the gypsum board (11).

3. A ceiling module (1) according to claim 1, wherein the predetermined height is greater than the thickness of the overlay grid (12).

4. A ceiling module (1) according to claim 1, wherein the ceiling module (1) further comprises an adhesive layer (13), the adhesive layer (13) being located between the plasterboard (11) and the facing grid (12).

5. A ceiling module (1) according to claim 1, wherein the ceiling module (1) further comprises a reinforcing layer (14) and a plurality of reinforcing members (15), the reinforcing layer (14) being located between the gypsum board (11) and the facing grid (12), the reinforcing layer (14) being fixedly connected to the gypsum board (11) by means of an adhesive layer (13), and the reinforcing layer (14) being fixedly connected to the facing grid (12) by means of the reinforcing members (15).

6. A ceiling module (1) according to claim 1, wherein the reinforcing layer (14) comprises gypsum laths and/or gypsum plasterboard.

7. A ceiling module (1) according to claim 1, wherein the ceiling module (1) further comprises a plurality of hanging members (16), the plurality of hanging members (16) being spaced apart on the facing grid (12).

8. A ceiling module (1) according to claim 7, characterised in that the web of the facing grid (12) is fixedly connected to the plasterboard (11), the suspension elements (16) being arranged through the two side flanges of the facing grid (12).

9. A suspended ceiling system, characterized in that the suspended ceiling system comprises a plurality of ceiling modules (1) according to any one of claims 1 to 8, and further comprises hanging members (2) provided on the roof if intervening, the covering keels (12) are connected with the hanging members (2), and the adjacent ceiling modules (1) are not connected with each other.

10. A method of constructing a suspended ceiling system according to claim 9, wherein the method comprises the steps of:

bending four edges of the gypsum board (11) towards the opposite surface of the decorative surface of the gypsum board (11) by a preset height, and fixedly connecting the adjacent end parts of the four edges of the gypsum board (11) through an adhesive;

at least two mutually parallel cladding keels (12) are fixed on the opposite surface of the decorative surface of the gypsum board (11);

mounting the hanging piece (2) at a preset position of a roof;

and connecting the cladding keel (12) on the gypsum board (11) with the corresponding hanging piece (2).

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