CN113833196A - Light trough structure and suspended ceiling - Google Patents

Abstract

The invention discloses a light trough structure and a suspended ceiling, relates to the field of building interior decoration and aims to provide a light trough structure which is simple in structure and convenient and fast to install. The troffer structure is mounted close to the top structure and comprises a plurality of first panels, a second panel and a troffer connecting assembly. The second panel is connected with the first panels respectively and encloses a lamp slot, and the opening of the lamp slot is arranged opposite to the second panel. A plurality of first panels all are connected with the top structure through a plurality of light trough coupling assembling, and the opening of light trough is kept away from the top structure. The invention is used for installing the indoor lamp trough structure.

Description

Light trough structure and suspended ceiling

Technical Field

The application relates to building interior decoration field especially relates to a light trough structure and furred ceiling.

Background

In the interior ceiling finishing process, a light trough structure is usually arranged. The general outline that surrounds the light trough structure forms the fossil fragments skeleton through a plurality of fossil fragments overlap joints, afterwards, at the surperficial paper gypsum board of laminating of fossil fragments skeleton to enclose into the light trough, and then improve indoor suspended ceiling's decorative effect.

However, the plurality of keel frameworks formed by overlapping the outlines of the light trough structure increase the using number of the keels, improve the complexity of the light trough structure and reduce the manufacturing and mounting speed of the light trough structure.

Disclosure of Invention

The invention aims to provide a light trough structure and a suspended ceiling, and aims to provide a light trough structure which is simple in structure and convenient and fast to install.

In order to achieve the purpose, the technical scheme is as follows:

in a first aspect, some embodiments of the present application provide a troffer structure, mounted proximate to a roof structure, that includes a plurality of first panels, a second panel, and a troffer connection assembly. The second panel is connected with the first panels respectively and encloses a lamp slot, and the opening of the lamp slot is arranged opposite to the second panel. A plurality of first panels all are connected with the top structure through a plurality of light trough coupling assembling, and the opening of light trough is kept away from the top structure.

In this application embodiment, because the light trough is directly connected by a plurality of first panels and second panel and is formed, and a plurality of first panels all are connected with the superstructure through light trough coupling assembling to fixed mounting light trough forms the light trough structure that the top structure was kept away from to the light trough opening. Compared with the prior art, the keel framework does not need to be erected along the outline of the lamp slot. Therefore, the material and the workload for erecting the keel framework are saved, the lamp slot structure is simpler, the installation operation difficulty of the lamp slot structure is reduced, and the installation is more convenient. Meanwhile, the lamp groove structure is favorable for improving the installation speed of the lamp groove structure and reducing the manufacturing and installation cost of the lamp groove structure.

In some embodiments, the first and second face sheets are both glass mat faced high strength fibrous gypsum boards. The glass-felt-surface high-strength fiber gypsum board is adopted to manufacture the lamp trough structure, and the structural strength and the fire resistance limit are higher.

In some embodiments, a troffer attachment assembly includes a troffer attachment member and a troffer fastener. The light trough connecting piece comprises a first connecting plate and a second connecting plate which are connected in a bending mode, and the first connecting plate and one side, far away from the light trough, of the first panel are connected in a laminating mode. And one end of the lamp groove fastener is connected with the top structure, and the other end of the lamp groove fastener is connected with the second connecting plate. To fixedly connect the first panel with the roof structure.

In some embodiments, the troffer fastener includes a troffer expansion sleeve and a troffer hanger. One end of the lamp groove hanging rod is provided with a lamp groove protruding structure, and the lamp groove hanging rod is connected with the top structure through a lamp groove expansion sleeve. The other end of the lamp groove suspender is connected with a second connecting plate through at least two nuts, and the second connecting plate is positioned between the at least two nuts. The height of the lamp trough connecting piece can be adjusted by adjusting the two groups of nuts, so that the height position of the lamp trough structure can be adjusted.

In some embodiments, the troffer attachment assembly includes a plurality of troffer attachments and a plurality of troffer fasteners. Each first panel is connected with a plurality of lamp trough connecting pieces which are distributed at intervals, and each lamp trough connecting piece is connected with one lamp trough fastening piece. The structure of the lamp groove connecting pieces arranged at intervals is small and exquisite, and the lamp groove connecting pieces are beneficial to saving materials and reducing cost.

In some embodiments, the troffer connector is an elongated structure and is disposed in a direction parallel to the second panel and each of the connected first panels. The troffer connection assembly includes a plurality of troffer fasteners, each connected to a plurality of spaced apart troffer fasteners. The light trough connecting piece is connected with the light trough fastening piece in a long strip keel structure.

In some embodiments, the first panels are two side walls of the lamp slot opposite to each other. A design scheme of a lamp groove.

In some embodiments, the light trough is an annular light trough that communicates end-to-end. A second embodiment of the lamp vessel.

In some embodiments, the number of the first panels is at least three, and the first panels are sequentially connected end to form a ring structure. And a third design scheme of the lamp groove.

In a second aspect, some embodiments of the present application also provide a suspended ceiling comprising the light trough structure of the first aspect and a ceiling structure connected to a side of each first panel remote from the light trough. The ceiling structure includes a keel assembly and a ceiling panel. The keel assembly comprises a keel fastener, a main keel hanger, a main keel, a secondary keel hanger and a secondary keel. One end of the keel fastener is connected with the top structure, the other end of the keel fastener is connected with the main keel hanger, and the main keel hanger is hung on the main keel hanger. The secondary keel is vertically hung on the main keel through the secondary keel hanging piece, and the secondary keel is arranged along the direction parallel to each first panel and each second panel which are close to each other. And the ceiling panel is connected with one side of the secondary keel far away from the top structure, and the first panel and the ceiling panel are respectively connected with two adjacent sides of the secondary keel close to the first panel.

Because the furred ceiling that this application embodiment provided includes the light trough structure in the first aspect, consequently the same technical problem can be solved to the two to reach the same technological effect.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic view of a related art drop ceiling;

FIG. 2 is a front view of a suspended ceiling provided by an embodiment of the present application;

FIG. 3 is an enlarged, fragmentary view of the troffer attachment assembly shown in FIG. 2;

FIG. 4 is an enlarged, fragmentary view of the troffer fastener shown in FIG. 3;

FIG. 5 is a right side view of the first troffer configuration shown in FIG. 2;

FIG. 6 is a right side view of the second troffer configuration shown in FIG. 2;

FIG. 7 is a bottom view of the troffer shown in FIG. 2;

FIG. 8 is a bottom view of a second troffer provided in accordance with an embodiment of the present disclosure;

FIG. 9 is a bottom view of a third light trough provided in accordance with embodiments of the present application;

fig. 10 is an enlarged partial schematic view of the ceiling structure shown in fig. 2.

Reference numerals:

01-suspended ceiling; 02-main keel; 03-minor keel; 04-a panel; 05-lamp groove;

100-suspended ceiling;

10-lamp trough structure;

11-a first panel;

12-a second panel;

13-a light trough connection assembly; 131-a troffer connection; 1311-first connection board; 1312-a second connecting plate; 132-a troffer fastener; 1321-a troffer boom; 1322-lamp trough expansion sleeve; 1323-lamp trough convex structure;

14-a lamp groove;

20-ceiling construction;

21-a keel assembly; 211-keel fasteners; 212-main keel hanger; 213-main keel; 214-a secondary keel hanger; 215-false keel;

22-ceiling panels;

200-top structure.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. 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 application.

In the description of the present application, it is to be understood that the terms "upper", "lower", "left", "right", "front", "rear", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present application and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present application.

The terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless otherwise specified.

It should be noted that in practical applications, due to the limitation of the precision of the device or the installation error, the absolute parallel or perpendicular effect is difficult to achieve. In the present application, the vertical, parallel or equidirectional description is not an absolute limitation condition, but means that the vertical or parallel structural arrangement can be realized within a preset error range, and a corresponding preset effect is achieved, so that the technical effect of limiting the features can be realized to the maximum extent, and the corresponding technical scheme is convenient to implement and has high feasibility.

In the description of the present application, it is to be noted that the terms "mounted," "connected," and "connected" are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected unless otherwise explicitly stated or limited. 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 application can be understood by those of ordinary skill in the art as appropriate.

In the embodiments of the present application, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, 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, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, article, or apparatus that comprises the element.

In the embodiments of the present application, words such as "exemplary" or "for example" are used to mean serving as an example, instance, or illustration. Any embodiment or design described herein as "exemplary" or "e.g.," is not necessarily to be construed as preferred or advantageous over other embodiments or designs. Rather, use of the word "exemplary" or "such as" is intended to present concepts related in a concrete fashion.

The suspended ceiling is a common structure in building interior decoration, not only can beautify the indoor environment, but also can create a colorful indoor space artistic image. As shown in fig. 1, in the related art, a suspended ceiling 01 includes a plurality of main runners 02, a runner skeleton formed in an inverted U shape is erected on the plurality of main runners 02, and a secondary runner 03 vertically connected to the main runners 02 and a plurality of panels 04 attached to the secondary runner 03 are sequentially installed inside the runner skeleton, so that the plurality of panels 04 surround a light trough 05.

Wherein, light trough 05 can regard as a decoration molding of furred ceiling 01 to improve furred ceiling 01's interior decoration effect. In addition, decorative lamps such as lamp tubes or lamp strips can be installed in the lamp groove 05 to improve indoor light rendering effect. However, in the light trough structure of the suspended ceiling 01, a keel frame including a plurality of main keels 02 and a plurality of cross keels 03 needs to be previously installed in a contour direction of the light trough 05. Consequently, the main joist 02 and the secondary joist 03 that can use a large amount of that set up of fossil fragments skeleton to make this furred ceiling 01's light trough structure more complicated, can reduce the preparation installation rate of light trough structure.

In order to solve the above problems, it is necessary to simplify the structure of the lamp vessel. Based on this, as shown in fig. 2, embodiments of the present application provide a suspended ceiling 100 mounted adjacent to a roof structure 200. The suspended ceiling 100 includes a troffer structure 10. The troffer structure 10 includes a plurality of first panels 11, a second panel 12, and a plurality of troffer connection assemblies 13. The first panels 11 are divided into two groups, the second panels 12 are respectively connected with the two groups of first panels 11 and enclose a lamp trough 14 with a downward opening, and the openings of the second panels 12 and the lamp trough 14 are arranged oppositely.

With continued reference to fig. 2, the two sets of first panels 11 are distributed in the left-right direction. Correspondingly, a plurality of light trough coupling assembling 13 divide into two sets ofly equally, and the upper end of every group first panel 11 is connected with a set of light trough coupling assembling 13's lower extreme, and light trough coupling assembling 13's upper end all is connected with top structure 200. In this way, the first panels 11 are connected to the top structure 200 through the light trough connecting assemblies 13 to fixedly mount the light trough 14.

Compared with the prior art, the light trough structure 10 provided by the embodiment of the application does not need to set up a keel frame along the outline of the light trough 14. Therefore, the material and the workload for erecting the keel framework are saved, the light trough structure 10 is simpler, the installation operation difficulty of the light trough structure 10 is reduced, and the installation is more convenient. Meanwhile, the installation speed of the light trough structure 10 is improved, and the manufacturing and installation cost of the light trough structure 10 is reduced.

Wherein, the upper end surfaces of the two groups of first panels 11 distributed at the left and right can be flush with the upper side surface of the second panel 12. The upper end surfaces of the two sets of first panels 11 may be attached to the lower side surface of the second panel 12. It is also possible to project the upper ends of the two sets of first panels 11 upwardly above the upper side of the second panel 12. A downwardly opening troffer 14 may be formed. The second panel 12 may be in contact with or even attached to the top structure 200, or may be spaced from the top structure 200.

Illustratively, as shown in fig. 2. First, one set of the first panel 11, the second panel 12 and the other set of the first panel 11 may be sequentially and vertically connected by steel nails or screws to form the light trough 14. In this case, the two sets of first panels 11 are two side walls of the lamp trough 14, and the second panels 12 are bottom walls of the lamp trough 14. Subsequently, two outer side surfaces of the two sets of first panels 11 away from each other are directly and fixedly connected with the top structure 200 through the two sets of light trough connecting assemblies 13, respectively, to form the light trough structure 10.

Alternatively, the two sets of first panels 11 may be first fixedly mounted, and then the second panels 12 may be connected between the two sets of first panels 11 to form the light trough 14.

With continued reference to fig. 2, in the process of connecting the first panel 11 and the light trough connecting assemblies 13, one set of light trough connecting assemblies 13 is connected to the left side surfaces of the left set of first panels 11, and the other set of light trough connecting assemblies 13 is connected to the right side surfaces of the right set of first panels 11. So, the direction of insertion of the screw of connecting light trough coupling assembling 13 and first panel 11 is on a parallel with top structure 200, can avoid top structure 200 to influence the connection operation of light trough coupling assembling 13 and first panel 11, installation convenient and fast.

Further, in the case where the second panel 12 is connected between the two sets of first panels 11, the chute connection assembly 13 may also be connected to the upper end faces of the two sets of first panels 11. And is not limited herein.

In some embodiments, the first panel 11 and the second panel 12 may be any one of a wood board, a metal board, or a plastic board. Because the nail-holding force between the plate and the steel nail or the screw is good, the screw or the steel nail is not easy to loosen, and the plate has high structural strength, which is beneficial to improving the structural strength of the light trough structure 10.

Therefore, the light trough structure 10 is manufactured by the first panel 11 and the second panel 12, and the first panel 11 and the second panel 12 have high structural strength and good nail holding force with a steel nail or a screw, that is, the first panel 11 and the second panel 12 can be used as part of the stress structure of the light trough structure 10, which is beneficial to simplifying the structure of the light trough structure 10.

In addition, the first panel 11 and the second panel 12 may also be a glass mat faced high strength fiber gypsum board, including a gypsum board base layer in the middle, and a glass fiber facing layer (i.e., a glass mat facing) that is in intimate contact with opposite sides of the gypsum board. The channel structure 10 has a higher fire resistance limit due to the use of glass mat-faced high strength gypsum boards having fire resistance of class a as the first panel 11 and the second panel 12. Moreover, the structural strength of the gypsum board can be improved through the double-layer glass felt surface, so that the gypsum board is not easy to crack. In addition, glass fibers may also be filled in the gypsum board base layer to increase the structural strength of the gypsum base layer.

So, can make the holding power between glass felt face high strength fiber gypsum board and steel nail or the screw better, screw or steel nail are difficult for the pine to take off promptly, and panel itself has higher structural strength. In the up-down and left-right directions, the light trough structure 10 made of a plurality of glass-felt-surface high-strength fiber gypsum boards is nailed, so that the first panel 11 and the second panel 12 can bear the whole mass load of the light trough structure 10, and the whole structural strength of the light trough structure 10 is improved.

Illustratively, as shown in fig. 2, in the case where the second panel 12 is located between two sets of the first panels 11. When connecting first panel 11 and second panel 12, use steel nail or screw to insert first panel 11 and the right-hand member (the left end) of second panel 12 from right left (or from left right) in proper order to realize being connected of first panel 11 and second panel 12, the installation is simple convenient. Since the second panel 12 generally bears the gravity from top to bottom, the screws or steel nails transversely arranged from left to right have better bearing capacity for the second panel 12. However, the left and right ends of the second panel 12 may be bonded to the first panel 11, but are not limited thereto.

In some embodiments, referring to fig. 3, the troffer connector assembly 13 includes a troffer connector 131 and a troffer fastener 132, and the troffer connector 131 includes a first connector plate 1311 and a second connector plate 1312 that are vertically connected.

As shown in fig. 3, in the set of the chute connection assemblies 13 located on the left side of the chute 14, the first connection plate 1311 is connected to the left side surface of the first panel 11 on the left side. As can be seen from fig. 2 and 3, in the corresponding set of the light trough connecting assemblies 13 located on the right side of the light trough 14, the first connecting plate 1311 is connected to the right side surface of the first panel 11 on the right side.

The first connection plate 1311 and the first panel 11 may be connected by bonding, or the first panel 11 and the first connection plate 1311 may be directly connected by screws. For example, the first connection plate 1311 may be mounted in contact with the first panel 11, and a cushion layer may be placed between the first connection plate 1311 and the first panel 11, which is not limited herein. For the first connecting member 131, if the first panel 11 is perpendicular to the top structure 200, since the first connecting plate 1311 is perpendicular to the second connecting plate 1312, the first connecting plate 1311 can be attached to the first panel 11, and the second connecting plate 1322 can also be attached to the top structure 200. The angle between the first connecting plate 1311 and the second connecting plate 1312 may be an acute angle or an obtuse angle. Since the roof structure 200 may be a floor slab located above the room, it may also be a roof beam located above the room. The floor and the top beam can be of reinforced concrete structure, wood structure or steel structure. And is not limited herein.

And the second coupling plate 1312 is coupled to the top structure 200 by the troffer fasteners 132. The roof structure 200 is generally a reinforced concrete structure, and thus, the light trough fastening member 132 is fixed to the positioning hole of the roof structure 200 by the expansion sleeve structure.

Illustratively, as shown in FIG. 4, the troffer fastener 132 includes a troffer hanger 1321 and a troffer expansion sleeve 1322. The upper end of the lamp slot suspender 1321 is provided with a lamp slot protruding structure 1323, the lamp slot expansion sleeve 1322 is sleeved on the lamp slot suspender 1321, and the lamp slot suspender 1321 is further provided with an external thread. Then, the upper end of the lamp slot suspender 1321 provided with the lamp slot expansion sleeve 1322 is inserted into the positioning hole, and the nut below the lamp slot expansion sleeve 1322 is screwed, so that the lamp slot projection structure 1323 approaches and is squeezed into the lamp slot expansion sleeve 1322 from the upper end of the lamp slot expansion sleeve 1322, and the upper end of the lamp slot expansion sleeve 1322 is expanded in the positioning hole, so that the upper end of the lamp slot suspender 1321 is squeezed and fixed in the positioning hole. Two nuts are further arranged at the lower end of the lamp slot suspender 1321, the second connecting plate 1312 is located between the two nuts, and the second connecting plate 1312 can be fixed to the lamp slot suspender 1321 at any height by screwing the two nuts, so that the fixed height of the lamp slot connecting piece 131 can be flexibly adjusted.

The light trough hanger 1321 may be a lead screw, among others. Correspondingly, a cone-shaped nut is connected to the upper end of the screw rod to serve as a lamp slot projection structure 1323, the diameter of the upper end of the cone-shaped nut is larger than that of the lower end of the cone-shaped nut, the cone-shaped nut can also be used for blocking the lamp slot expansion sleeve 1322, and the lamp slot expansion sleeve 1322 is enabled to expand in the positioning hole, so that the upper end of the lamp slot suspender 1321 is fixed in the positioning hole in an extruding mode. The nuts used to fasten the second connecting plate 1312 may be three, four or more, so that the second connecting plate 1312 may be fastened more firmly by more nuts.

In addition, the lamp slot fastening member 132 may be an expansion bolt or a screw with an expansion sleeve, so that the upper end of the lamp slot connecting member 131 is installed in the positioning hole of the top structure 200 through the expansion bolt or the screw with the expansion sleeve, which is beneficial to reducing the distance between the lamp slot connecting member 131 and the top structure 200.

When the top structure 200 is a wood structure or a steel structure, the socket fastening member 132 may be a screw or a bolt-nut structure, and is directly and fixedly connected with the positioning hole of the top structure 200. The troffer fasteners 132 may also be welded directly to the top structure 200 if the top structure 200 is steel.

In some embodiments, as shown in FIG. 5, FIG. 5 is a right side view of the troffer structure 10 shown in FIG. 2. Therefore, the set of first panels 11 on the right side shown in fig. 2 is two in number and distributed in the front-rear direction in fig. 5. Correspondingly, the group of light trough connecting assemblies 13 on the right side includes four light trough connecting members 131, every two light trough connecting members 131 are connected with one first panel 11, and each light trough connecting member 131 is fixedly connected with the top structure 200 through one light trough fastener. To couple and secure the first panel 11 under the top coupling structure 200. The set of light trough connecting assemblies 13 on the left side of fig. 2 and the set of first panels 11 on the left side are correspondingly arranged.

Since the plurality of light trough connectors 131 are arranged at intervals in the front-rear direction, the light trough connectors 131 do not need to be arranged continuously, and the light trough connectors 131 arranged at intervals are beneficial to reducing the material consumption of the light trough 14 when the first panel 11 is connected with the top structure 200.

Wherein the first panels 11 in each group may also be one, three, four, five or even more. If the first panels 11 are provided in two sets disposed left and right, the size and number of the second panels 12 are the same as those of the first panels 11 of one set. Each first panel 11 may also be connected to three, four, five or even more troffer connectors 131.

Illustratively, along fore-and-aft direction, the width of light trough connecting piece 131 is 2 ~ 5cm, and simple structure is small and exquisite. Thus, each of the troffer connectors 131 is typically connected to the top structure 200 by one of the troffer fasteners 132, which facilitates installation and saves material. In addition, in order to increase the stability of the connection of each of the socket connection assemblies 13, it is also possible to provide that each of the socket connection members 131 is connected to two, three or more of the socket fasteners 132.

In other embodiments, as shown in fig. 6, the light trough connecting member 131 may be a long keel, and the length of the light trough connecting member 131 is arranged along the front-back direction and is connected to the group of first panels 11. At this time, the number of the light trough fastening members 132 in each set of the light trough connecting assembly 13 is plural, and the plural light trough fastening members 132 are also distributed at intervals along the front-rear direction, so as to fixedly connect the keel-like light trough connecting member 131 below the roof structure 200.

Wherein each set of first panels 11 may be connected to the roof structure by means of a keel-like light trough connector 131. If the length of each group of first panels 11 in the front-back direction is much greater than the length of the keel-like light trough connectors 131, at this time, each group of light trough connectors 13 includes a plurality of keel-like light trough connectors 131, each group of first panels 11 sequentially connects the plurality of keel-like light trough connectors 131 in the front-back direction, and each keel-like light trough connector 131 is connected with the top structure 200 through a plurality of light trough fasteners 132.

In addition, in the case that the light trough 14 has a box-shaped structure with an opening at one side, the keel-shaped light trough connectors 131 may be a curved structure, and at least three groups of the first panels 11 on the side wall of the light trough 14 are all connected with the top structure 200 through one curved light trough connector 131. At this time, the light trough connecting members 13 are a set including a light trough connecting member 131 of a curved keel structure and a plurality of light trough fastening members 132.

In the embodiment of the socket connector assembly 11 shown in fig. 5 and 6, the socket connector 131 may have an L-shaped structure or a groove-shaped structure (including a third connecting plate connected to the second connecting plate or the first connecting plate), but is not limited thereto.

It should be noted that the second panel 12 and the two sets of first panels 11 enclose a light trough 14. In the case where the two sets of first panels 11 are parallel and both perpendicular to the second panels 12, the front-to-back direction shown in fig. 5 and 6 is parallel to both the first panels 11 and the second panels 12. In addition, if the cross sections of the troffers 14 perpendicular to the front-rear direction are different, as shown in fig. 2, 5 and 6, the right-side set of troffer connecting assemblies 13 are arranged in a direction parallel to the second panel 12 and the right-side set of first panels 11, and the left-side set of troffer connecting assemblies 13 are arranged in a direction parallel to the second panel 12 and the left-side set of first panels 11.

In the above embodiment, as shown in fig. 2, the two sets of first panels 11 are respectively two side walls of the lamp slot 14, and in combination with fig. 7, fig. 7 is a bottom view of the lamp slot 14 shown in fig. 2. The light trough structure 10 includes two sets of first panels 11 disposed oppositely, and the two sets of first panels 11 and the second panel 12 enclose a straight light trough 14. At this time, the lamp groove 14 itself is a through groove structure.

In the front-rear direction, the front end and the rear end of the light trough 14 may be directly connected to the side walls on the front side and the rear side of the room, or may be panels fixed to the side walls. The first panels 11 may have a certain curvature so that the two sets of first panels 11 on the left and right sides enclose the lamp groove 14 having a curvature in the front-rear direction.

As shown in fig. 8, the light trough structure 10 includes two sets of first panels 11, the number of the two sets of first panels 11 is 4 respectively, and the first panels 11 in each set are sequentially connected end to form a rectangular frame. One group of first panels 11 surrounds the other group of first panels 11, and 4 second panels 12 are connected between the two groups of first panels 11 to form an annular light trough 14 which is communicated end to end. The number of the second panels 12 and the number of the first panels 11 in each group can be flexibly set according to different sizes of the annular lamp grooves 14. For example, the number of the first panels 11 in each group may be 8, and the number of the second panels 12 may be 8 or 12, which is not limited herein.

In other embodiments, as shown in fig. 9, the light trough structure 10 includes six groups of first panels 11, and the six groups of first panels 11 are connected end to form a hexagonal ring structure, which forms an open-bottom light trough 14 with the second panel 12.

Illustratively, the light trough structure 10 may also include three, four, five, seven or even more groups of first panels 11, and the groups of first panels 11 are connected end to end in sequence to form a corresponding triangular, rectangular, pentagonal, heptagonal ring structure, and form a light trough 14 with an open lower side with the second panel 12.

It should be noted that in the above three embodiments, the number of each group of first panels 11 may be one, or may be two, three or more. And is not limited herein.

In some embodiments, as shown in fig. 2, ceiling 100 also includes a ceiling structure 20. The troffer structure 10 is generally used in conjunction with a ceiling structure 20, and the first panel 11 of the troffer structure 10 is connected to the ceiling structure 20. The ceiling structure 20 includes, among other things, a keel assembly 21 and a ceiling panel 22.

As shown in fig. 7, from top to bottom, the keel assembly 21 includes, in order, a keel fastener 211, a main keel hanger 212, a main keel 213, a cross keel hanger 214, and a cross keel 215.

Referring to figure 10, the main runner 213 is connected to the roof structure 200 by a runner fastener 211 and a main runner hanger 212. Illustratively, the keel fastener 211 comprises a keel hanger bar (not shown), the upper end of the keel hanger bar is provided with a keel projection (not shown) as shown in fig. 4 and sleeved with a corresponding keel expansion sleeve (not shown), and then inserted into the positioning hole of the roof structure 200, and the nut on the lower side of the keel expansion sleeve is tightened to fixedly connect the upper end of the keel hanger bar with the roof structure 200. The external thread and the two nuts are arranged at the lower end of the keel suspender, the upper end of the main keel suspender 212 is arranged between the two nuts, and the main keel suspender 212 can be fixed at any height on the screw rod by screwing the two nuts, so that the main keel suspender 212 and the top structure 200 are arranged at intervals, and the height of the main keel suspender 212 can be flexibly adjusted.

In addition, the keel fasteners 211 may also be expansion bolts or screws with expansion sleeves to secure the upper end of the main keel hanger 212 directly to the locating holes of the roof structure 200.

With continued reference to fig. 10, since the main runner hanger 212 is provided at the lower end thereof with a hook, the main runner 213 is then hung on at least two main runner hangers 212 spaced apart from each other, and the main runner 213 is extended in the left-right direction (i.e., the direction perpendicular to the first panel 11), thereby completing the installation of the main runner 213. Wherein, the setting height of the main keel 213 can be adjusted by adjusting the up-and-down position of the main keel hanger 212 fixed on the keel hanger rod.

Continuing downward, the cross runners 215 are suspended from at least two main runners 213 in a fore-aft direction as shown in figure 10. Each cross keel 215 is hung on one main keel 213 through one cross keel hanger 214, that is, the length of the cross keel 215 extends along the front-back direction, and the length direction of the cross keel 215 is perpendicular to the length direction of the main keel 213.

Illustratively, as shown in fig. 10, the cross runner 215 is a channel runner with an opening at the upper side, and an inward bent flange is provided at the opening to form a clamping structure, the lower end of the cross runner hanger 214 is clamped with the upper opening of the cross runner 215, and the upper end of the cross runner hanger 214 is lapped on the main runner 213 to hang the cross runner 215 on the main runner 213.

In addition, the lower end of the secondary keel hanger 214 can be provided with an opening, and the secondary keel 215 is sleeved with the opening along the front-back direction; the upper end of the cross runner hanger 214 is lapped on the main runner 213, and the cross runner 215 can be hung on the main runner 213. Wherein the cross runner hanger 214 lapped over the main runner 213 can slide in the left-right direction to adjust the position of the cross runner 215 in the left-right direction.

After the secondary joist 215 is installed, as shown in fig. 2 and 10, the secondary joists 215 are distributed at intervals along the left-right direction, the lower sides of the secondary joists 215 are coplanar, and the upper side of the ceiling panel 22 is in contact with or even in fit connection with the lower sides of the secondary joists 215. In this manner, the ceiling panels 22 and the cross runners 215 are connected by screws to form the ceiling structure 20. In addition, the ceiling panel 22 and the secondary joist 215 may be connected by gluing, and the ceiling panel 22 and the secondary joist 215 may be provided with corresponding through holes respectively, and the ceiling panel 22 and the secondary joist 215 may be connected by rivets or aircraft bolts.

With continued reference to fig. 2 and 10 in connecting the troffer structure 10 and the ceiling structure 20, fig. 10 is an enlarged partial schematic view of a set of ceiling structures 20 on the left side of the troffer structure 10. The rightmost cross runner 215 is positioned adjacent to the left side of the left first panel 11 and the cross runner 215 are attached by screws or rivets. At this time, the right side surface of the rightmost cross runner 215 is connected with the first panel 11, and the lower side surface of the rightmost cross runner 215 is attached to the ceiling panel 22, so that the connection setting of the light trough structure 10 and the ceiling structure 20 is realized. Wherein, when connecting first panel 11 and secondary joist 215, also can adjust the position of secondary joist 215 for the left surface and the first panel 11 laminating of secondary joist 215, thereby make secondary joist 215 be connected more firmly with first panel 11.

Wherein, when the side end face of the ceiling panel 22 is attached to the first panel 11, the height of the keel assembly 21 can be adjusted so that the lower end face of the first panel 11 is flush with the lower side face of the ceiling panel 22. It is also possible to arrange the ceiling panel 22 to be attached to the lower end face of the first panel 11, and to make the right end face of the ceiling panel 22 flush with the right side face of the first panel. The joint of the first panel 11 and the ceiling panel 22 can form a right-angle transitional connection structure without gaps, and the structure is simple and attractive.

In addition, when the side end surface of the ceiling panel 22 is attached to the first panel 11, the height of the ceiling panel 22 may be adjusted by adjusting the height of the main runners 213, so that the lower end of the first panel 11 protrudes downward from the lower side surface of the ceiling panel 22.

It should be noted that the ceiling structure 20 shown in fig. 10 is a set on the left side of the troffer structure 10. Correspondingly, the ceiling structure 20 on the right in fig. 2 may be arranged in conjunction with the solution shown in fig. 10, such that the lower side of the ceiling panel 22 on the right of the troffer structure 10 is flush with the lower end surfaces of the set of first panels 11 on the right, so as to form a simple and attractive right-angle transitional connection structure.

In the description herein, particular features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present application should be covered within the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (10)

1. A troffer structure, mounted adjacent to a roof structure, comprising:

a plurality of first panels;

the second panel is respectively connected with the plurality of first panels and encloses into a lamp trough, and an opening of the lamp trough is opposite to the second panel; and the number of the first and second groups,

the light trough coupling assembling, a plurality of first panels all pass through light trough coupling assembling with the top structure is connected, just the opening of light trough is kept away from the top structure.

2. The troffer structure of claim 1, wherein said first and second panels are both glass mat faced high strength fiber gypsum board.

3. The troffer structure of claim 1, wherein said troffer attachment assembly comprises:

the lamp groove connecting piece comprises a first connecting plate and a second connecting plate which are connected in a bending mode, and the first connecting plate is connected with one side, far away from the lamp groove, of the first panel in a fitting mode; and the number of the first and second groups,

and one end of the lamp trough fastener is connected with the top structure, and the other end of the lamp trough fastener is connected with the second connecting plate.

4. The troffer structure of claim 3, wherein said troffer fasteners comprise:

a lamp slot expansion sleeve; and the number of the first and second groups,

one end of the lamp trough hanging rod is provided with a lamp trough convex structure, and the lamp trough hanging rod is connected with the top structure through the lamp trough expansion sleeve; the other end of the lamp groove hanging rod is connected with the second connecting plate through at least two nuts, and the second connecting plate is located between the at least two nuts.

5. The troffer structure of claim 3, wherein said troffer attachment assembly comprises a plurality of troffer attachments and a plurality of troffer fasteners;

each first panel is connected with a plurality of light trough connecting pieces which are distributed at intervals, and each light trough connecting piece is connected with one light trough fastening piece.

6. The troffer structure of claim 3, wherein said troffer connector is an elongated structure and is disposed in a direction parallel to said second panel and each of said first panels connected thereto;

the light trough connecting assembly comprises a plurality of light trough fasteners, and each light trough connecting assembly is connected with the light trough fasteners which are distributed at intervals.

7. The light trough structure according to any one of claims 1 to 6, wherein the first panels are two side walls of the light trough which are oppositely arranged.

8. The light trough structure according to any one of claims 1 to 6, wherein the light trough is an annular light trough which is communicated end to end.

9. The light trough structure according to any one of claims 1 to 6, wherein the number of the first panels is at least three, and the first panels are sequentially connected end to form a ring structure.

10. A suspended ceiling comprising a light trough structure according to any one of claims 1 to 9 and a ceiling structure attached to a side of each of the first panels remote from the light trough; the ceiling structure includes:

the keel assembly comprises a keel fastener, a main keel hanger, a main keel, a secondary keel hanger and a secondary keel; one end of the keel fastener is connected with the top structure, the other end of the keel fastener is connected with the main keel hanger, and the main keel is hung on the main keel hanger; the secondary keel is vertically hung on the main keel through the secondary keel hanging piece, and the secondary keel is arranged along a direction parallel to each of the first panel and the second panel which are close to each other; and the number of the first and second groups,

the suspended ceiling panel is connected with one side of the secondary keel, which is far away from the top structure; and the first panel and the ceiling panel are respectively connected with two adjacent sides of the secondary keel close to the first panel.

Images