CN220451214U - Single-layer keel hanging suspended ceiling - Google Patents

Abstract

The utility model provides a single-layer keel hanging suspended ceiling, and belongs to the technical field of suspended ceiling installation. The single-layer keel hanging suspended ceiling comprises a plurality of hanging pieces, a plurality of keel connecting pieces, a plurality of suspended ceiling boards, a plurality of suspended ceiling connecting pieces, a single-layer keel assembly and a plurality of edge collecting pieces. According to the utility model, the bottom end of the lifting piece is connected with the reinforced structure of the single-layer keel assembly, the single-layer keel assembly is arranged along the axial direction parallel to the second side part adjacent to the first side part on the suspended ceiling plate, the bottom end of the keel connecting piece is connected with the top end of one suspended ceiling connecting piece, and the top end of the keel connecting piece is connected with the connecting structure of the single-layer keel assembly, so that the overall installation efficiency is higher; the reinforcing structure is concavely arranged in the mounting cavity, so that the strength of the first connecting plate can be increased, the integral strength of the single-layer keel assembly is further increased, and the mounting structure can be suitable for mounting heavier components; adopt the individual layer fossil fragments subassembly, cancel the form of auxiliary joist and can reduce the roof space invasion of furred ceiling installation, save the cost for the user.

Description

Single-layer keel hanging suspended ceiling

Technical Field

The utility model relates to the technical field of suspended ceiling installation, in particular to a single-layer keel suspended ceiling.

Background

In current furred ceiling fitment, because the intensity of current individual layer fossil fragments is weaker, the bearing capacity is not strong, unable adaptation is heavier rearmounted part's installation, adopt the individual layer fossil fragments to hoist the stability of lifting plate when the furred ceiling board is hung in the current furred ceiling installation relatively poor, so adopt the mounting means of double-deck fossil fragments to hoist the furred ceiling board in current furred ceiling board installation, but double-deck fossil fragments can occupy more space, the holistic installation leveling efficiency of furred ceiling is lower, simultaneously the invasion of furred ceiling headspace is more, the invasion of space can increase user use cost, space utilization is lower.

Chinese patent publication No. CN214272623U, publication days 2021-09-24 disclose a fireproof suspended ceiling structure, comprising a boom, a bearing keel, a cladding keel disposed on the bearing keel, and a fireproof suspended ceiling disposed on the cladding keel; the one end of jib is fixed to be provided with expansion bolts, the other end of jib is fixed to be provided with first connecting piece, fixedly be provided with support piece on the first connecting piece, articulated on the support piece has the limiting plate, enclose into the space that is used for holding the bearing keel between support piece and the limiting plate, the limiting plate deviates from the fixed second connecting piece that is provided with of one end of articulated shaft, the cover is equipped with the sleeve pipe on the jib, when the limiting plate lock is on support piece, the sleeve pipe can be overlapped and establish on first connecting piece and second connecting piece. The application has the effect of easy to assemble. Adopt to bear fossil fragments and cladding fossil fragments combined action in the above-mentioned patent, lift up the furred ceiling board, although can improve two fossil fragments holistic intensity, bear fossil fragments and cladding fossil fragments whole can occupy more space, the holistic installation leveling efficiency of furred ceiling is lower, and furred ceiling roof space is invaded more simultaneously, and space invades and can increase user use cost, and space utilization is lower.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art and provide a single-layer keel hanging suspended ceiling.

The utility model provides a single-layer keel hanging suspended ceiling, which comprises a plurality of hanging pieces, a plurality of keel connecting pieces, a plurality of suspended ceiling plates, a plurality of suspended ceiling connecting pieces arranged along the axial direction of a first side part of the suspended ceiling plates, a single-layer keel assembly arranged along the axial direction of a second side part adjacent to the first side part on the suspended ceiling plates, and a plurality of edge collecting pieces respectively connected with the suspended ceiling plates, wherein the bottom end of one suspended ceiling connecting piece is used for respectively connecting two adjacent suspended ceiling plates, the single-layer keel assembly comprises two first connecting plates which are symmetrically arranged, a mounting cavity arranged between the two first connecting plates, connecting structures respectively connected with the bottom ends of the two first connecting plates, and a reinforcing structure concavely arranged in the mounting cavity and used for increasing the integral strength of the single-layer keel assembly.

Further, the furred ceiling board is including setting up in two grafting grooves of two first side departments of furred ceiling board respectively, the furred ceiling connecting piece includes first base plate, middle part connect in the first plugboard of first base plate bottom, first plugboard both ends are pegged graft respectively in two adjacent grafting grooves on two adjacent furred ceiling boards.

Further, the suspended ceiling connecting piece further comprises two seam limiting plates which are respectively connected to two side faces of the first base plate and used for limiting seams of two adjacent suspended ceiling plates, and the two suspended ceiling plates are respectively abutted to the corresponding seam limiting plates.

Further, the furred ceiling connecting piece still includes the middle part and connects in the second plugboard on first base plate top, fossil fragments connecting piece includes the second base plate, connects respectively in two first plugboards of second base plate bottom, sets up the first through-hole that articulates between two first plugboards, the axis of first plugboard is on a parallel with the axis direction of the first lateral part of furred ceiling board, the both ends of second plugboard are in when first base plate top passes first plugboard through-hole overlap joint respectively in two first plugboards.

Further, the connection structure comprises two supporting parts connected to the bottom ends of the two first connection plates respectively and a first connection through hole arranged between the two supporting parts, the keel connection piece further comprises a hanging structure, two ends of the second connection plate are connected to the hanging structure and the second substrate respectively, and two ends of the hanging structure are respectively lapped on the two supporting parts when the top ends of the second connection plate penetrate through the first connection through holes.

Further, the supporting part comprises a first supporting plate, a first stop plate and a second stop plate, wherein one end of the first supporting plate is connected to the bottom end of the first connecting plate, the first stop plate is connected to the other end of the first supporting plate and is arranged towards the inner side of the installation cavity, the hanging structure comprises a third connecting plate, the middle part of the third connecting plate is connected to the second connecting plate, two second hanging plates are arranged towards the second base plate, and the axis of the third connecting plate is parallel to the axis direction of the second side part of the suspended ceiling plate; the two second hanging plates are respectively connected to the two ends of the third connecting plate, and the second hanging plates are lapped on the first supporting plate.

Further, the reinforced structure comprises a second supporting plate arranged in the mounting cavity, two fourth connecting plates with two ends connected to the top ends of the two first connecting plates and the second supporting plate respectively, a fixing through hole is formed in the second supporting plate, and one end of the lifting part penetrates through the fixing through hole and is fixedly connected to the wall top, and the other end of the lifting part is abutted to the bottom end of the second supporting plate.

Further, the fourth connecting plate comprises a first connecting part parallel to the second supporting plate, an arc-shaped part protruding towards the axis of the installation cavity, and a second connecting part with two ends connected to the bottom end of the arc-shaped part and the top end of the second supporting plate respectively, wherein one end of the first connecting part is connected to the top end of the first connecting plate and the top end of the arc-shaped part.

Further, the keel connecting piece further comprises two protection plates for protecting two side faces of the second connecting plate respectively, and the two protection plates are connected to two ends of the second base plate respectively.

Further, the edge folding piece comprises a first edge folding plate fixedly connected to the ceiling plate and a second edge folding plate connected to the wall surface, and the second edge folding plate is vertically connected to the first edge folding plate.

The single-layer keel hanging suspended ceiling has the following beneficial effects:

the edge of the suspended ceiling plate is folded through the edge folding piece, the suspended ceiling connecting pieces are arranged along the axial direction of the first side parts of the suspended ceiling plates, the bottom ends of the suspended ceiling connecting pieces are respectively connected to the adjacent two suspended ceiling plates, the bottom ends of the suspended ceiling connecting pieces are connected to the reinforcing structure of the single-layer keel assembly, the single-layer keel assembly is arranged along the axial direction parallel to the second side parts, adjacent to the first side parts, of the suspended ceiling plates, the bottom ends of the keel connecting pieces are connected to the top ends of the suspended ceiling connecting pieces, the top ends of the suspended ceiling connecting pieces are connected to the wall tops, and the integral installation efficiency is high; the reinforcing structure is concavely arranged in the mounting cavity, so that the strength of the first connecting plate can be increased, the integral strength of the single-layer keel assembly is further increased, and the mounting structure can be suitable for mounting heavier components; the single-layer keel assembly is adopted, and the auxiliary keel is omitted, so that the invasion of the top space of the suspended ceiling installation can be reduced, and the cost is saved for users; the components can be prefabricated in a factory, assembled and installed on site, and can be disassembled and reused, so that the energy-saving and standardized advantages are realized; the whole installation simple operation, the installation threshold is lower.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description, serve to explain the principles of the utility model. In the drawings, like reference numerals are used to identify like elements. The drawings, which are included in the description, illustrate some, but not all embodiments of the utility model. Other figures can be derived from these figures by one of ordinary skill in the art without undue effort.

Fig. 1 is a schematic structural view of a single-layer keel suspended ceiling according to an embodiment of the utility model;

fig. 2 is a schematic view of a part of a ceiling board in a single-layer keel hanging ceiling according to an embodiment of the utility model;

FIG. 3 is a schematic view of a single-layer keel suspended ceiling in which the ceiling connectors are connected to two adjacent ceiling boards, respectively;

fig. 4 is a schematic view of a part of a single-layer keel hanging ceiling in which a keel connecting piece is connected with a single-layer keel assembly and a ceiling connecting piece respectively;

fig. 5 is a schematic structural view of a single-layer keel hanging ceiling connecting piece in a suspended ceiling according to an embodiment of the utility model;

fig. 6 is a schematic view of a single-layer keel hanging ceiling keel connector according to an embodiment of the utility model;

figure 7 is a first side view of a single layer keel link in a suspended ceiling according to an embodiment of the utility model;

figure 8 is a second side view of a single layer keel hanging ceiling keel connection according to the embodiment of the utility model;

FIG. 9 is a schematic view of a single-layer ceiling-mounted ceiling with ceiling connectors attached to the ceiling connectors according to an embodiment of the present utility model;

fig. 10 is a schematic structural view of a single-layer keel assembly in a single-layer keel hung ceiling according to an embodiment of the utility model;

fig. 11 is a schematic view of a single-layer keel assembly in a single-layer keel hung ceiling according to an embodiment of the utility model, as connected to a keel joint;

fig. 12 is a schematic structural view of a single-layer keel hanging ceiling according to an embodiment of the utility model when a edging member is connected to the ceiling plate;

fig. 13 is a schematic view of a portion of a single-layer keel hanging ceiling according to an embodiment of the utility model, where the hanging members are connected to the single-layer keel assembly.

In the figure: 1-ceiling tile, 11-first side, 111-splice channel, 12-second side, 2-ceiling connector, 21-first base plate, 22-first splice, 23-second splice, 24-splice closure, 3-keel connector, 31-second base plate, 32-first splice, 33-second splice, 34-third splice, 35-second splice, 36-protective panel, 37-first splice opening, 4-single layer keel assembly, 41-first splice, 42-support, 421-first support panel, 422-first stop panel, 43-second support panel, 44-fourth splice, 441-first splice, 442-second splice, 443-arcuate, 45-first splice opening, 5-hoist, 6-trim, 61-first trim panel, 62-second trim panel.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model. It should be noted that, in the case of no conflict, the embodiments and features in the embodiments may be arbitrarily combined with each other.

Please refer to fig. 1 to 13. The single-layer keel hanging suspended ceiling comprises a plurality of hanging pieces 5, a plurality of keel connecting pieces 3, a plurality of suspended ceiling plates 1, a plurality of suspended ceiling connecting pieces 2 arranged along the axis direction of a first side part 11 of the suspended ceiling plates 1, a single-layer keel assembly 4 arranged along the axis direction parallel to a second side part 12 adjacent to the first side part 11 on the suspended ceiling plates 1, a plurality of edge collecting pieces 6 respectively connected with the suspended ceiling plates 1, wherein the bottom end of one suspended ceiling connecting piece 2 is used for respectively connecting two adjacent suspended ceiling plates 1, the single-layer keel assembly 4 comprises two first connecting plates 41 symmetrically arranged, a mounting cavity arranged between the two first connecting plates 41, a connecting structure respectively connected with the bottom ends of the two first connecting plates 41, a reinforcing structure concavely arranged in the mounting cavity and used for increasing the integral strength of the single-layer keel assembly 4, two ends of the reinforcing structure are respectively connected with the top ends of the two first connecting plates 41, the bottom ends of the hanging pieces 5 are connected with the reinforcing structure, the top ends of the one suspended ceiling connecting piece 2 are connected with the top ends of the one suspended ceiling connecting piece 2, and the top ends of the top end are connected with the connecting structure.

Here, the ceiling tile 1 is a rectangular plate, and one ceiling tile 1 includes two parallel first side portions 11, two parallel second side portions 12, and one second side portion 12 is connected to the two first side portions 11, respectively, and an axial direction of the first side portion 11 is perpendicular to an axial direction of the second side portion 12. The additional strengthening is sunken to be set up in safe intracavity, under the condition of guaranteeing to increase individual layer fossil fragments subassembly 4 bulk strength, avoid additional strengthening upwards to bulge in the installation cavity outside, and make the occupation space of expanding unilateral fossil fragments subassembly in the vertical direction, so compare in the basis of current bilayer fossil fragments in this application 4 can reduce the roof space of installing the furred ceiling under guaranteeing sufficient intensity and invade, save the cost for the user, improve space utilization, utilize a fossil fragments to hoist furred ceiling board 1 in this application simultaneously, use bilateral fossil fragments to hoist furred ceiling board 1 in current furred ceiling installation, this application is installed conveniently, efficiency is higher.

Specifically, the first side portions 11 of two adjacent ceiling boards 1 are arranged in parallel, the bottom end of one ceiling connecting piece 2 is connected to the first side portions 11 of two adjacent ceiling boards 1 respectively, the top surfaces of the plurality of ceiling boards 1 are kept flush, edge collecting pieces 6 are installed around the plate structure formed after all the ceiling boards 1 are installed, and edge collecting is carried out on the plate structure through the edge collecting pieces 6. The edging 6 may comprise a first edging plate 61 fixedly connected to the ceiling tile 1, a second edging plate 62 connected to the wall surface, the second edging plate 62 being vertically connected to the first edging plate 61. The length of the first side 11 on the ceiling board 1 may be greater than the length of the second side 12, that is, the first side 11 is a long side, the second side 12 is a short side, a plurality of keel connectors 3 may be connected to one single-layer keel assembly 4, each keel connector 3 corresponds to one ceiling connector 2 one to one, and the length of one single-layer keel assembly 4 may be equal to the sum of the short sides of the plurality of ceiling boards 1.

The ceiling board 1 may include two insertion grooves 111 respectively disposed at two first side portions 11 of the ceiling board 1, and the ceiling connecting piece 2 includes a first base plate 21, a first insertion plate 22 with a middle portion connected to a bottom end of the first base plate 21, and two ends of the first insertion plate 22 are respectively inserted into two adjacent insertion grooves 111 on two adjacent ceiling boards 1.

Specifically, the ceiling board 1 is horizontally disposed, the first base plate 21 is vertically disposed, the first base plate 21 is perpendicular to the ceiling board 1, and the first plug board 22 is perpendicular to the first base plate 21.

Specifically, the suspended ceiling connector 2 further includes a plugging protrusion disposed on the first plug board 22 and away from one end of the first substrate 21 and protruding upwards, where the plugging protrusion can improve the connection stability of the first plug board 22 and the plugging slot 111.

The ceiling connecting piece 2 may further include two seam limiting plates 24 respectively connected to two side surfaces of the first base plate 21 for limiting seams of two adjacent ceiling boards 1, and the two ceiling boards 1 respectively abut against the corresponding seam limiting plates 24.

Specifically, a plurality of seam limiting plates 24 may be disposed on one side of the first substrate 21, and the same number of seam limiting plates 24 may be symmetrically disposed on the other side, where the seam limiting plates 24 are perpendicular to the first substrate 21. When the slit limiting plate 24 abuts against the first side portion 11 of the ceiling plate 1, an end of the first plug board 22 away from the first base plate 21 abuts against an end of the plug groove 111 located inside.

The ceiling connecting piece 2 may further include a second plugboard 23 with a middle portion connected to the top end of the first substrate 21, the keel connecting piece 3 includes a second substrate 31, two first hanging boards 32 respectively connected to the bottom end of the second substrate 31, and a first hanging hole 37 disposed between the two first hanging boards 32, where the axis of the first hanging board 32 is parallel to the axis direction of the first side 11 of the ceiling board 1, and two ends of the second plugboard 23 respectively overlap with the two first hanging boards 32 when the top end of the first substrate 21 passes through the first hanging hole 37.

Specifically, the first hanging plate 32 is parallel to the top surface of the ceiling board 1, that is, the first hanging plate 32 is perpendicular to the first substrate 21, the second inserting plate 23 may include a first straight plate with a middle portion perpendicularly connected to the top end of the first substrate 21, a second straight plate parallel to the first straight plate and having a height higher than that of the first straight plate, and first arc plates with two ends respectively connected to the first straight plate and the second straight plate, wherein the second straight plates are two symmetrically arranged, the first arc plates are two symmetrically arranged, the first straight plates are overlapped with the first hanging plate 32, and the second straight plates are abutted against the second substrate 31. The axes of the two first hooking plates 32 are parallel to the axis of the first side 11, and the axis of the second base plate 31 is perpendicular to the axis of the first hooking plates 32. The second plug board 23 is parallel to the first plug board 22, the second plug board 23 is perpendicular to the first base board 21, and the suspended ceiling connecting piece 2 is an i-shaped piece.

The connection structure may include two supporting portions 42 respectively connected to bottom ends of the two first connecting plates 41, and a first connecting hole 45 disposed between the two supporting portions 42, and the keel connecting piece 3 further includes a hanging structure, and two ends of the hanging structure are respectively connected to the hanging structure and the second connecting plate 33 of the second substrate 31, and the two ends of the hanging structure overlap the two supporting portions 42 when the top ends of the second connecting plate 33 pass through the first connecting hole 45.

The supporting part 42 may include a first supporting plate 421 having one end connected to the bottom end of the first connecting plate 41, a first stopper plate 422 connected to the other end of the first supporting plate 421 and disposed toward the inside of the installation cavity, and the hooking structure includes a third connecting plate 34 having a middle portion connected to the second connecting plate 33, and two second hooking plates 35 each disposed toward the second base plate 31, the axis of the third connecting plate 34 being parallel to the axis direction of the second side portion 12 of the ceiling plate 1; the two second hanging plates 35 are respectively connected to two ends of the third connecting plate 34, and the second hanging plates 35 overlap the first supporting plate 421.

Specifically, the first connection plate 41 is vertically disposed, the first connection plate 41 is perpendicular to the top surface of the ceiling plate 1, the first connection plate 41 is perpendicular to the second substrate 31, the first support plate 421 is perpendicular to the first connection plate 41, then the first support plate 421 is parallel to the second substrate 31, the first stop plate 422 is upwardly protruded, the first stop plate 422 is perpendicular to the first support plate 421, the second connection plate 33 is perpendicular to the second substrate 31, the third connection plate 34 is parallel to the second substrate 31, that is, the third connection plate 34 is perpendicular to the second connection plate 33, the second connection plate 35 is downwardly disposed, the second connection plate 35 is perpendicular to the third connection plate 34, the second connection plate 35 is perpendicular to the first support plate 421, then the second connection plate 35 is parallel to the first stop plate 422, and the first stop plate 422 can limit the movement of the second connection plate 35 toward the axis direction of the mounting cavity when the bottom end of the second connection plate 35 is abutted to the first support plate 421.

The reinforcing structure may include a second supporting plate 43 disposed in the mounting cavity, two fourth connecting plates 44 with two ends respectively connected to the top ends of the two first connecting plates 41 and the second supporting plate 43, a fixing through hole is disposed on the second supporting plate 43, one end of the lifting member 5 passes through the fixing through hole and is fixedly connected to the wall top, and the other end is abutted to the bottom end of the second supporting plate 43.

Specifically, the lifting member 5 may include an expansion bolt fixed to the wall top, a screw having one end penetrating through the fixing through hole and screwed to the expansion bolt, and a fastening nut screwed to a portion of the screw located below the second support plate 43, the top end of the fastening nut being abutted to the second support plate 43. The lifting member 5 may be a leveling boom, the leveling boom bottom disc seat may be rotatably adjustable, and conventional booms may be used instead, but the leveling is changed to leveling the single layer keel assembly 4.

The fourth connection plate 44 may include a first connection portion 441 parallel to the second support plate 43, an arc portion 443 convexly provided toward the axis of the installation cavity, and a second connection portion 442 having both ends connected to the bottom end of the arc portion 443 and the top end of the second support plate 43, respectively, and one end of the first connection portion 441 is connected to the top end of the first connection plate 41 and the top end of the arc portion 443.

Specifically, the arc-shaped portion 443 can increase the weight, ensuring sufficient strength.

The keel joint 3 may further include two protection plates 36 for protecting both side surfaces of the second connection plate 33, respectively, and the two protection plates 36 are connected to both ends of the second substrate 31, respectively.

Specifically, the protection plate 36 may be perpendicular to the second substrate 31 to protect both side surfaces of the second connection plate 33, respectively.

Specifically, the following problems exist in existing ceiling installations: the single-layer keel has weaker installation mode strength and weak load bearing capacity, and cannot adapt to the installation of a heavier rear part; the traditional suspended ceiling top space is more and more aggressive, and the space invasion increases the use cost of users at the present day when the price of houses is rising more and more; the conventional suspended ceiling adopts a complex mounting mode, the surface is coated and brushed, and the like, so that the suspended ceiling is difficult to repair and disassemble in the later period; the traditional construction site has serious pollution, high noise, much dust, incapability of reusing parts and serious resource waste; the traditional process has complicated operation steps and low construction efficiency. The single-layer keel assembly 4 is subjected to multiple reinforcement design, wherein the strength is ensured by increasing the weight through the arc-shaped part 443, so that the single-layer keel assembly can be suitable for mounting heavy rear components; the keels in the application are in a single-layer main keel mode, and the top space occupation of suspended ceiling installation can be reduced by canceling the auxiliary keels, so that the cost is saved for users; in the installation, the installation can be completed only by leveling the lifting piece 5, installing the single-layer keel assembly 4, installing the I-shaped piece, installing the plate, and closing in and fixing, and the integral installation is convenient and fast and has high efficiency; the components in the application can be prefabricated in a factory, assembled and installed on site, and can be disassembled and reused, so that the energy-saving and standardized advantages are realized; the whole installation operation is convenient, and the installation threshold is low

The method for installing the single-layer keel hung suspended ceiling comprises the following steps of:

s1: arranging a plurality of ceiling connecting pieces 2 along the axial direction of the first side part 11 of the ceiling plate 1 respectively, and connecting the bottom end of each ceiling connecting piece 2 with two adjacent ceiling plates 1 respectively;

s2: a reinforcing structure for connecting the bottom end of the lifting member 5 to the single-layer keel assembly 4;

s3: arranging the single-layer keel assembly 4 along the axis direction parallel to the second side part 12 adjacent to the first side part 11 on the suspended ceiling plate 1, and connecting the bottom end of each keel connecting piece 3 to the top end of one suspended ceiling connecting piece 2 and the top end to the connecting structure of the single-layer keel assembly 4;

s4: connecting the top end of the lifting piece 5 to the wall top;

s5: the plurality of edging pieces 6 are connected to the plurality of ceiling boards 1, respectively.

Specifically, in order to avoid the inconvenience of connecting the bottom end of the lifting member 5 with the reinforcing structure after connecting the bottom ends of the keel connecting members 3 and the single-layer keel assembly 4, it is necessary to connect the bottom end of the lifting member 5 with the reinforcing structure of the single-layer keel assembly 4 first, and then connect the bottom end of each keel connecting member 3 with the top end of one suspended ceiling connecting member 2 and the top end with the connecting structure of the single-layer keel assembly 4. Firstly, paying off an original wall and an original roof, and determining the top surface finishing surface line and the top expansion bolt point positions; finishing the wall surface fixed installation of the edge folding piece 6 according to the finishing upper thread; carrying out bolt point position perforating and installing a lifting piece 5; assembling the single-layer keel assembly 4 with the lifting piece 5 in an upward buckling manner; the ceiling connecting piece 2 and the keel connecting piece 3 are penetrated, and are clamped upwards to be assembled with the single-layer keel assembly 4; the ceiling connector 2 can now be slid along the keel to mount the tiles in sequence and secured to the trim piece 6 at the tile edges.

The above description may be implemented alone or in various combinations and these modifications are within the scope of the present utility model.

It should be noted that, in the description of the present application, the terms "upper end," "lower end," and "bottom end" of the indicated orientation or positional relationship are based on the orientation or positional relationship shown in the drawings, or the orientation or positional relationship in which the product of the application is conventionally put in use, merely for convenience of describing the present application and simplifying the description, and do not indicate or imply that the device to be referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present application. Moreover, 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 one …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises an element.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting. Although the utility model 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 scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model.

Claims (10)

1. A single-layer keel hanging suspended ceiling which is characterized in that: including a plurality of furred ceiling connecting pieces (5), a plurality of fossil fragments connecting piece (3), a plurality of furred ceiling board (1), a plurality of furred ceiling connecting pieces (2) that set up along the axis direction of the first lateral part (11) of furred ceiling board (1), along being on a parallel with on furred ceiling board (1) with the adjacent second lateral part (12) of first lateral part axis direction setting's individual layer fossil fragments subassembly (4), connect respectively in a plurality of edging piece (6) of a plurality of furred ceiling boards (1), one furred ceiling connecting piece (2)'s bottom is used for connecting two adjacent furred ceiling boards (1) respectively, individual layer fossil fragments subassembly (4) including two first connecting plates (41) that the symmetry set up, set up in the connection structure of two first connecting plates (41) bottom, sunken setting in the connection structure that is used for increasing individual layer fossil fragments subassembly (4) bulk strength in the installation intracavity, the both ends of reinforcing structure are connected respectively in two first connecting plate (41) tops, furred ceiling connecting piece (5) top are connected in reinforcing structure, one in top connecting piece (3), one top connecting piece (2) are connected in connection structure top.

2. The single-layer keel hung ceiling of claim 1 wherein: the suspended ceiling plate (1) comprises two inserting grooves (111) which are respectively formed in two first side parts (11) of the suspended ceiling plate (1), the suspended ceiling connecting piece (2) comprises a first base plate (21), and a first inserting plate (22) with the middle part connected to the bottom end of the first base plate (21), and two ends of the first inserting plate (22) are respectively inserted into two adjacent inserting grooves (111) on two adjacent suspended ceiling plates (1).

3. The single-layer keel hung ceiling of claim 2 wherein: the suspended ceiling connecting piece (2) further comprises two seam limiting plates (24) which are respectively connected to two side faces of the first base plate (21) and used for limiting seams of two adjacent suspended ceiling plates (1), and the two suspended ceiling plates (1) are respectively abutted to the corresponding seam limiting plates (24).

4. A single-layer keel hung ceiling according to claim 2 or 3, wherein: the ceiling connecting piece (2) further comprises a second plugboard (23) with the middle part connected to the top end of the first base plate (21), the keel connecting piece (3) comprises a second base plate (31), two first hanging plates (32) respectively connected to the bottom end of the second base plate (31), and a first hanging through hole (37) arranged between the two first hanging plates (32), the axis of the first hanging plates (32) is parallel to the axis direction of the first side part (11) of the ceiling plate (1), and two ends of the second plugboard (23) are respectively lapped on the two first hanging plates (32) when the top end of the first base plate (21) passes through the first hanging through hole (37).

5. The single-layer keel hung ceiling of claim 4 wherein: the connection structure comprises two supporting parts (42) which are respectively connected to the bottom ends of the two first connection plates (41), and a first connection through hole (45) which is formed between the two supporting parts (42), wherein the keel connecting piece (3) further comprises a hanging structure, two ends of the keel connecting piece are respectively connected to the hanging structure and a second connection plate (33) of the second substrate (31), and the two ends of the hanging structure respectively overlap the two supporting parts (42) when the top ends of the second connection plates (33) penetrate through the first connection through hole (45).

6. The single-layer keel hung ceiling of claim 5 wherein: the supporting part (42) comprises a first supporting plate (421) with one end connected to the bottom end of the first connecting plate (41), and a first stop plate (422) connected to the other end of the first supporting plate (421) and arranged towards the inner side of the installation cavity, the hanging structure comprises a third connecting plate (34) with the middle part connected to the second connecting plate (33), and two second hanging plates (35) which are arranged towards the second base plate (31), and the axis of the third connecting plate (34) is parallel to the axis direction of the second side part (12) of the suspended ceiling plate (1); the two second hanging plates (35) are respectively connected to two ends of the third connecting plate (34), and the second hanging plates (35) are lapped on the first supporting plate (421).

7. A single-layer keel hung ceiling according to claim 1 or 2, wherein: the reinforced structure comprises a second supporting plate (43) arranged in the mounting cavity, and two fourth connecting plates (44) with two ends respectively connected to the top ends of the two first connecting plates (41) and the second supporting plate (43), wherein a fixing through hole is formed in the second supporting plate (43), and one end of the lifting part (5) penetrates through the fixing through hole and is fixedly connected to the wall top, and the other end of the lifting part is abutted to the bottom end of the second supporting plate (43).

8. The single-layer keel hung ceiling of claim 7 wherein: the fourth connecting plate (44) comprises a first connecting portion (441) parallel to the second supporting plate (43), an arc-shaped portion (443) protruding towards the axis of the installation cavity, and a second connecting portion (442) with two ends connected to the bottom end of the arc-shaped portion (443) and the top end of the second supporting plate (43), wherein one end of the first connecting portion (441) is connected to the top end of the first connecting plate (41) and the top end of the arc-shaped portion (443).

9. A single-layer keel hung ceiling according to claim 1 or 2, wherein: the keel connecting piece (3) further comprises two protection plates (36) used for protecting two side surfaces of the second connecting plate (33) respectively, and the two protection plates (36) are connected to two ends of the second base plate (31) respectively.

10. A single-layer keel hung ceiling according to claim 1 or 2, wherein: the edge folding piece (6) comprises a first edge folding plate (61) fixedly connected to the ceiling plate (1) and a second edge folding plate (62) connected to the wall surface, and the second edge folding plate (62) is vertically connected to the first edge folding plate (61).