CN215054468U - Modulization furred ceiling structure - Google Patents

Abstract

The utility model discloses a modular suspended ceiling structure, which comprises a plurality of base materials, a plurality of first frame modules and a plurality of second frame modules, wherein the first frame modules and the second frame modules are arranged along the length direction of the base materials, and the first frame module and the plurality of second frames are sequentially arranged at intervals on both sides of the base material, a first region to be installed is formed on the first frame module, a second region to be installed is formed on the second frame, the first frame module and the second frame module are used as a foundation and are copied to form a grid-shaped suspended ceiling structure, and the first area to be installed and the second area to be installed are formed to selectively install functional modules such as lamps or shelters, so that the modeling and the functions are combined, the space experience is enhanced, and the attractiveness is improved.

Description

Modulization furred ceiling structure

Technical Field

The utility model relates to a furred ceiling technical field especially relates to a modulization furred ceiling structure.

Background

The suspended ceiling is used for decorating the ceiling, can be provided with lamps and various decorating parts, has the characteristics of convenient installation, beautiful decoration and the like, and is widely applied to track traffic, for example. Wherein there is the exposure region track traffic ceiling fitment, should expose regional area and density relation and mainly depend on the furred ceiling molding, and equipment such as the furred ceiling that has in addition and lamps and lanterns are the independent design, do not integrate the regional equipment management line of exposing and terminal point position, have influenced pleasing to the eye effect and space experience.

SUMMERY OF THE UTILITY MODEL

The utility model provides a modulization furred ceiling structure has overcome prior art's difficulty, has created an effective combination molding and function, and has reinforceed the modulization furred ceiling structure that the space experienced.

The utility model provides a modulization furred ceiling structure, it is including a plurality of substrates, a plurality of first frame module and a plurality of second frame module, it is a plurality of first frame module and a plurality of second frame module all along the length direction of substrate is arranged and is set up, and first frame module is a plurality of the second frame interval in proper order sets up the both sides of substrate, form the first region of waiting to install on the first frame module, it waits to install the region to form the second on the second frame.

Optionally, the second frame module comprises a fifth profile and a sixth profile, two ends of the fifth profile and the sixth profile are respectively connected with the substrate, and lower ends of the fifth profile and the sixth profile are connected to the same position of the substrate, and the fifth profile, the sixth profile and the substrate enclose the second region to be mounted.

Optionally, the first frame module comprises a first profile, a second profile, a third profile and a fourth profile, the lower ends of the first profile, the second profile and the third profile are connected to the same position of the substrate, the second profile is located between the first profile and the third profile, and the fourth profile is connected between the second profile and the first profile.

Optionally, the second profile is integrally formed with the sixth profile.

Optionally, the third section bar is parallel to the fourth section bar and is arranged perpendicular to the first section bar.

Optionally, the first and second profile upper ends are connected to the substrate at their upper ends.

Optionally, the fourth profile is connected to the second profile upper end.

Optionally, the first region to be mounted and the second region to be mounted are right-angled triangles.

Optionally, adjacent profiles are connected by a connecting plate.

Optionally, the web is V-shaped or T-shaped.

Due to the adoption of the technology, the utility model has the advantages of it is following:

the first frame module and the second frame module are used as a foundation and are copied to form a grid-shaped suspended ceiling structure, and the first to-be-installed area and the second to-be-installed area are formed to selectively install functional modules such as lamps or shelters, so that the modeling and the functions are combined, the space experience is enhanced, and the attractiveness is improved.

The present invention will be further described with reference to the accompanying drawings and examples.

Drawings

Fig. 1 is a schematic structural view of the modular ceiling structure of the present invention;

fig. 2 is a schematic structural view of a first embodiment of the connecting plate of the present invention;

fig. 3 is a schematic structural diagram of a second embodiment of the connection plate of the present invention.

Detailed Description

As shown in fig. 1 to 3, the modular ceiling structure includes a plurality of base materials 100, a plurality of first frame modules 200 and a plurality of second frame modules 300, wherein the plurality of first frame modules 200 and the plurality of second frame modules 300 are arranged in a row along a length direction of the base materials 100, the first frame modules 200 and the plurality of second frames 300 are sequentially arranged at intervals on two sides of the base materials 100, a first region 2001 to be installed is formed on the first frame module 200, and a second region 3001 to be installed is formed on the second frame 300.

The first frame module 200 and the second frame module 300 are used as a foundation and are copied to form a grid-shaped suspended ceiling structure, and the formed first area to be installed 2001 and the second area to be installed 3001 are used for selectively installing functional modules such as lamps or shelters, so that modeling and functions are combined, space experience is enhanced, and attractiveness is improved.

The first frame module 200 and the second frame module 300 are located at two sides of the length direction of the substrate 100, and the first frame module 200 and the second frame module 300 are sequentially arranged at intervals, that is, one second frame module 300 is arranged between two adjacent first frame modules 200, and the substrate 100 is connected between the first frame module 200 and the second frame module 300. The base material 100 not only serves to connect and fix the first frame module 200 and the second frame module 300, but also forms a first region to be mounted 2001 between the base material 100 and the first frame module 200, and forms a second region to be mounted 3001 between the base material 100 and the second frame module 300, further increasing the number of the first region to be mounted 2001 and the second region to be mounted 3001.

As shown in fig. 1, the second frame module 300 includes a fifth section bar 310 and a sixth section bar 320, both ends of the fifth section bar 310 and the sixth section bar 320 are respectively connected to the substrate 100, and the lower ends of the fifth section bar 310 and the sixth section bar 320 are connected to the same position of the substrate 100, and the upper ends of the fifth section bar 310 and the sixth section bar 320 are respectively connected to one of the first frame modules 200. With continued reference to fig. 1, a plurality of the second frame modules 300 are arranged along the length direction of the substrate 100, wherein the upper ends of the fifth profiles 310 of the previous second frame module 300 are connected with the upper ends of the sixth profiles 320 of the next second frame module 300 and are connected to the same position of the substrate 100.

The area enclosed by the fifth profile 310, the sixth profile 320 and the substrate 100 forms the second region to be mounted 3001, the area of the second region to be mounted 3001 is determined by the structure of the second frame module 300, and in one example, the second region to be mounted 3001 is triangular.

As shown in fig. 1, the first frame module 200 includes a first profile 210, a second profile 220, a third profile 230, and a fourth profile 240, lower ends of the first profile 210, the second profile 220, and the third profile 230 are connected to the same position of the substrate 100, the second profile 220 is located between the first profile 210 and the third profile 230, the second profile 220 may be integrally formed with the sixth profile 320, and the fourth profile 240 is connected between the second profile 220 and the first profile 210. With continued reference to fig. 1, a plurality of the first frame modules 200 are arranged along the length direction of the substrate 100, wherein the upper ends of the second profile 220 and the third profile 230 of the latter one of the first frame modules 200 are connected to the first profile 210 of the last one of the first frame modules 200, and the upper ends of the first profile 210 and the second profile 220 are connected to the substrate 100 at the upper ends thereof.

Specifically, the third profile 230 is parallel to the fourth profile 240, the fourth profile 240 may be vertically disposed to the first profile 210, and the fourth profile 240 is connected to the upper end of the second profile 220.

The first area to be installed 2001 is defined by the area enclosed by the first section bar 210, the second section bar 220 and the fourth section bar 240, the second section bar 220 and the third section bar 230 which are the next one, the first area to be installed 2001 is defined by the first section bar 210 which is the previous one, the third section bar 230 which is the next one, the first area to be installed 2001 is enclosed between the first section bar 210 which is the previous one and the base material 100, and the first area to be installed 2001 is enclosed between the first section bar 210 which is the next one, the fourth section bar 240 which is the previous one and the base material 100. The first region to be mounted 2001 may have a triangular shape.

The base material 100, the first profile 210, the second profile 220, the third profile 230, the fourth profile 240, the fifth profile 310 and the sixth profile 320 are all profiles, the lengths and the widths of the profiles are consistent, and the profiles are spliced at 90 degrees to obtain a grid-shaped suspended ceiling structure. The fifth profile 310 and the sixth profile 320 are perpendicular to each other, the first profile 210 and the fourth profile 240 are perpendicular to each other, and the first profile 210 and the third profile 230 are perpendicular to each other, that is, the first area to be mounted 2001 and the second area to be mounted 3001 are both in the shape of a right triangle.

The first area to be mounted 2001 and the second area to be mounted 3001 are formed by joining profiles, and are used for mounting functional modules such as lamps or shades, and the functional modules can move along the profiles to adjust the area of the exposed area.

In addition, the base material 100 may be formed by splicing a plurality of profiles, and two profiles may be connected by a connection plate 400 and a fastener, where the fastener includes a screw or a bolt, that is, the fastener passes through the connection plate 400 and is connected with the profiles. Referring to fig. 2 and 3, the connection plate 400 may have a T-shape or a V-shape. Specifically, the first profile 210 and the fourth profile 240 are perpendicular to each other, and may be connected by a T-shaped connecting plate 400. The fifth profile 310 and the substrate 100 are at 30 ° and can be connected by a V-shaped connecting plate 400, wherein the angle of the V-shaped connecting plate 400 is also 30 °. More specifically, the first profile 210, the second profile 220, the third profile 230, the fourth profile 240, the fifth profile 310 and the sixth profile 320 are connected to the base material 100 through a V-shaped connecting plate 400.

In summary, the first frame module 200 and the second frame module 300 are used as a base and are copied to form a grid-shaped ceiling structure, and the formed first area to be installed 2001 and the second area to be installed 3001 are used for selectively installing functional modules such as a lamp or a shade, so that not only are modeling and functions combined, but also space experience is enhanced and attractiveness is improved.

The above-mentioned embodiments are only used for illustrating the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and to limit the scope of the present invention in terms of implementation, which is not limited by the present embodiment, i.e. all equivalent changes or modifications made in accordance with the spirit disclosed by the present invention still fall within the scope of the present invention.

Claims (10)

1. The utility model provides a modularization furred ceiling structure, its characterized in that includes a plurality of substrates, a plurality of first frame module and a plurality of second frame module, and is a plurality of first frame module and a plurality of second frame module all follow the length direction of substrate is arranged and is set up, and first frame module and a plurality of the second frame interval sets up in proper order the both sides of substrate, form the first region of waiting to install on the first frame module, it waits to install the region to form the second on the second frame.

2. A modular ceiling structure according to claim 1, wherein the second frame module comprises a fifth profile and a sixth profile, wherein the fifth profile and the sixth profile are connected to the base material at two ends, respectively, and the lower ends of the fifth profile and the sixth profile are connected to the same position of the base material, and the fifth profile, the sixth profile and the base material enclose the second region to be installed.

3. A modular ceiling structure according to claim 2, wherein the first frame module comprises a first profile, a second profile, a third profile and a fourth profile, the lower ends of the first, second and third profiles being connected to the substrate at the same location, the second profile being located between the first and third profiles and the fourth profile being connected between the second and first profiles.

4. The modular ceiling structure of claim 3, wherein the second profile is integrally formed with the sixth profile.

5. A modular ceiling structure according to claim 3, wherein the third profile is parallel to the fourth profile and is disposed perpendicular to the first profile.

6. A modular ceiling structure according to claim 3, wherein the upper ends of the first and second profiles are attached to the substrate at the upper ends thereof.

7. The modular ceiling structure of claim 3, wherein the fourth profile is attached to the second profile at an upper end.

8. The modular ceiling structure of claim 1, wherein the first area to be installed and the second area to be installed are right triangular.

9. A modular ceiling structure according to claim 1, wherein adjacent profiles are connected by a web.

10. The modular ceiling structure of claim 9, wherein the web is V-shaped or T-shaped.

Images