CN115627873B - Stack-level ceiling system of assembled plug-in structure and assembling method - Google Patents

Stack-level ceiling system of assembled plug-in structure and assembling method Download PDF

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Publication number
CN115627873B
CN115627873B CN202211661695.9A CN202211661695A CN115627873B CN 115627873 B CN115627873 B CN 115627873B CN 202211661695 A CN202211661695 A CN 202211661695A CN 115627873 B CN115627873 B CN 115627873B
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China
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wall
plate
side plate
roof
groove
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CN202211661695.9A
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CN115627873A (en
Inventor
闫俊杰
梅能敏
孙春祥
邵俊义
赵静
贾路
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Huaneng Renju Technology Group Co ltd
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Heneng Home Technology Tianjin Group Co Ltd
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    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04BGENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
    • E04B9/00Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04BGENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
    • E04B9/00Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation
    • E04B9/006Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation with means for hanging lighting fixtures or other appliances to the framework of the ceiling
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04BGENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
    • E04B9/00Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation
    • E04B9/30Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation characterised by edge details of the ceiling; e.g. securing to an adjacent wall
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04GSCAFFOLDING; FORMS; SHUTTERING; BUILDING IMPLEMENTS OR AIDS, OR THEIR USE; HANDLING BUILDING MATERIALS ON THE SITE; REPAIRING, BREAKING-UP OR OTHER WORK ON EXISTING BUILDINGS
    • E04G21/00Preparing, conveying, or working-up building materials or building elements in situ; Other devices or measures for constructional work
    • E04G21/14Conveying or assembling building elements
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B30/00Energy efficient heating, ventilation or air conditioning [HVAC]

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  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Mechanical Engineering (AREA)
  • Roof Covering Using Slabs Or Stiff Sheets (AREA)

Abstract

The invention relates to the technical field of suspended ceilings, in particular to a stacked suspended ceiling system with an assembled plug-in structure and an assembling method, wherein the stacked suspended ceiling system comprises a side wall plate fixed on a wall body, a primary top plate fixed on an inner roof, a stacked side plate positioned below the primary top plate, a secondary top plate positioned below the stacked side plate and a stacked connecting mechanism which is arranged at the top end of the side wall plate and is fixedly connected with the wall body, the top end of the stacked connecting mechanism is connected with the primary top plate, and the stacked connecting mechanism is respectively connected with the stacked side plate and the secondary top plate; a pipeline placing area is arranged on the upper end face of the second-stage top plate and is positioned between the stacking connecting mechanism and the wall body; and a lamp strip placing area is arranged on the stacking connecting mechanism and used for laying lamp strips. The invention does not occupy the vertical space in the house; the keel-free laminated ceiling is realized through the laminated connecting mechanism, and the assembling process is simple; the problem of there is the potential safety hazard because the structure is complicated to result in taking a lot of work, taking material and the pipeline is crisscross when avoiding traditional furred ceiling to need the installation lamp area.

Description

Stack-level ceiling system of assembled plug-in structure and assembling method
Technical Field
The invention relates to the technical field of suspended ceilings, in particular to a stacked suspended ceiling system with an assembled plug-in structure and an assembling method.
Background
At present, because the traditional light steel keel, gypsum board and putty-scraping and painting suspended ceiling are made of various materials and have complex process, constructors need to master the manual skill and skill of the carpenters, and the traditional light steel keel, gypsum board and putty-scraping and painting suspended ceiling becomes a factor influencing the overall assembly speed and effect in the assembly type decoration construction.
Meanwhile, during construction, the light steel keel must be combined with the main keel, the cladding keel, the hanging fastener and the like, so that vertical space is occupied, the height of living space is reduced, and the inhabitant space experience is brought to residents; the light steel keel can only be made into a simple suspended ceiling, and when the light steel keel meets a lamp strip and a stacked suspended ceiling, the construction is complex, labor and materials are wasted, and the cost is rapidly increased; inside pipeline vertically and horizontally staggered of furred ceiling, random normal piping lane retrains, and strong and weak electricity is crisscross, and the potential safety hazard is more
Therefore, the traditional complex processes of light steel keel, gypsum board, putty scraping and paint brushing cannot meet the requirements of batch construction and delivery in assembly decoration.
Disclosure of Invention
Aiming at the defects of the prior art, the invention provides a stacked ceiling system with an assembly type plug-in structure and an assembly method thereof, and aims to solve the problems that the traditional ceiling process is complex, the vertical space is occupied, pipelines inside the ceiling are staggered, and the installation of a lamp takes much labor and much material.
In order to achieve the purpose, the invention provides a stacked ceiling system with an assembled plug-in structure, which comprises a side wall plate fixed on a wall body and a primary roof plate fixed on an inner roof, and further comprises a stacked side plate positioned below the primary roof plate, a secondary roof plate positioned below the stacked side plate and a stacked connecting mechanism which is arranged at the top end of the side wall plate and is fixedly connected with the wall body, wherein the top end of the stacked connecting mechanism is connected with the primary roof plate, and the stacked connecting mechanism is respectively connected with the stacked side plate and the secondary roof plate and is used for enabling the stacked side plate, the secondary roof plate and the primary roof plate to be matched with each other to form a stacked ceiling;
the upper end face of the second-stage top plate is provided with a pipeline placing area, and the pipeline placing area is positioned between the stacking connecting mechanism and the wall body and used for distributing pipelines;
and the stacking-level connecting mechanism is provided with a lamp strip placing area for laying lamp strips.
Further, it is including setting up wallboard plug connector, second grade roof pendant and the curb plate mounting on the side wall board top to fold level coupling mechanism, the one end that the side wall board was kept away from to the wallboard plug connector is connected with the one end of second grade roof, and the other end of second grade roof is connected with the one end of second grade roof pendant, the other end of second grade roof pendant is fixed on the wall body, second grade roof pendant, second grade roof and wall body form the triangular supports relation, the curb plate mounting is connected with the one-level roof, folds the level curb plate setting between second grade roof pendant and curb plate mounting.
Further, the wallboard plug connector includes wallboard concatenation groove and second grade roof concatenation wall, the top at the side wall board is established to the wall board concatenation groove cover, and the width in wallboard concatenation groove and side wall plate thickness phase-match, the second grade roof concatenation wall sets up on the lateral wall of keeping away from the wall body on wallboard concatenation groove and extends to the horizontal direction of keeping away from wallboard concatenation groove, second grade roof concatenation wall is connected with the one end of second grade roof.
Further, the second grade roof pendant includes second grade roof connection wall and the bracing wall of being connected with second grade roof connection wall one end, the other end and the second grade roof of second grade roof connection wall are connected, the one end and the wall body fixed connection of keeping away from second grade roof connection wall on the bracing wall, contained angle between bracing wall and the second grade roof connection wall is alpha, 180 > alpha > 90 °, fold level curb plate setting between second grade roof connection wall and curb plate mounting.
Further, the curb plate mounting includes first curb plate amalgamation groove and binding off wall, first curb plate is assembled the groove and is fixed on the one-level roof and the notch sets up to the direction of keeping away from the one-level roof, and first curb plate is assembled the groove cover and is established on overlapping level curb plate top, and the width in first curb plate amalgamation groove and overlap level curb plate thickness phase-match, keep away from a lateral wall connection of wall body on the one end of binding off wall and the first curb plate amalgamation groove, the other end contacts with the one-level roof for shelter from the joint line between first curb plate amalgamation groove and the one-level roof.
Furthermore, a shielding wall, a second-stage top plate assembling wall and a second side plate assembling groove are further arranged on the second-stage top plate connecting wall, the shielding wall and the second-stage top plate assembling wall are both arranged at one end, connected with the second-stage top plate, of the second-stage top plate connecting wall, the shielding wall extends in the vertical upward direction relative to the second-stage top plate connecting wall, a lamp strip placing area is arranged between the shielding wall and the first side plate assembling groove and is located on the upper end face of the second-stage top plate connecting wall, and the shielding wall is used for shielding the lamp strip placing area;
the second grade roof is assembled the wall and is located terminal surface under the second grade roof connection wall, and the wall is assembled to the second grade roof and is connected the wall with the second grade roof and form second grade roof spread groove for be connected with the second grade roof, second curb plate is assembled the groove and is set up the up end at second grade roof connection wall, and the position of second curb plate is assembled the position phase-match in groove and the first curb plate and is connected with the bottom of folding the grade curb plate.
Further, the second-level roof pendant still includes the fixed subassembly of bracing, the one end and the bracing wall connection of the fixed subassembly of bracing, the other end and wall connection, the fixed subassembly of bracing is used for connecting bracing wall and wall body, and adjusts the distance of being connected between bracing wall and the wall body.
Further, the bracing fixing assembly comprises a fixing piece and a fastening connecting piece, the fixing piece is fixed on the wall body, one end of the fastening connecting piece is connected with the fixing piece, the other end of the fastening connecting piece is connected with the bracing wall, and the fastening connecting piece is used for adjusting the connection distance between the bracing wall and the wall body.
Further, first curb plate amalgamation groove includes cell wall and the first back cell wall that matches with first preceding cell wall size, second curb plate amalgamation groove includes cell wall and the second back cell wall that matches with the preceding cell wall size of second before the second, the position of cell wall corresponds with the position of cell wall before the second before the first, the position of cell wall corresponds with the position of cell wall behind the second after the first, and the perpendicular distance of the top of cell wall to the interior roof of first curb plate amalgamation groove before the second is H 1 The height of the first front groove wall is H 2 The height of the second front groove wall is H 3 The height of the laminated side plate is H, and H = H 1 And H 2 ﹥H 3
The invention also provides an assembly method of the stacked ceiling system of the assembly type plug-in structure, which comprises the following steps:
s1, installing a side wall plate, and fixing the side wall plate on a wall body;
s2, assembling a primary roof plate, and fixing the primary roof plate on the inner roof;
s3, assembling a secondary top plate;
s3-1, installing a wallboard connector, sleeving a wallboard splicing groove at the top end of the side wallboard, and splicing a second-stage top plate splicing wall with one end of a second-stage top plate;
s3-2, mounting a secondary top plate pendant, sleeving the secondary top plate assembly wall at the other end of the secondary top plate, and connecting the inclined support wall with the wall body through an inclined support fixing component;
s4, laying a pipeline and a lamp strip, wherein the pipeline is laid in a pipeline placement area, and the lamp strip is laid in a lamp strip placement area;
s5, assembling the stacked side plates;
s5-1, fixing a first side plate splicing groove in a position, corresponding to the second side plate splicing groove, on the first-stage top plate;
s5-2, inserting the top end of the stacking side plate into the first side plate splicing groove in an inclined mode and moving the stacking side plate to the contact inner top wall, moving the stacking side plate towards the direction close to the second side plate splicing groove, enabling the bottom end of the stacking side plate to be just opposite to the second side plate splicing groove, placing the bottom end of the stacking side plate into the second side plate splicing groove, and completing assembly.
Compared with the closest prior art, the invention has the following beneficial effects:
the invention adopts the assembled stacked suspended ceiling structure, and the first-level top plate is directly arranged on the inner roof, thereby not occupying the vertical space in the house; the keel-free laminated ceiling is realized through the laminated connecting mechanism, the assembly process is simple, and the traditional process flows of keel, putty scraping, paint brushing and the like are not used; the lamp strip placing area and the pipeline placing area are arranged, so that the problem of potential safety hazard caused by labor waste, material waste and pipeline staggering due to complex structure when the lamp strip needs to be installed in the traditional suspended ceiling is solved; the stability of assembly is realized through the mutual limiting displacement on each side in the triangular supports relation, keeps the second grade roof to be the level setting, and the assembly process of furred ceiling has been simplified to this structure, because wallboard plug connector, second grade roof pendant, curb plate mounting, side wall board, fold level curb plate and the mutual size of second grade roof and the demand of assembly scene match each other, consequently need not the scene cut, bore the nail, has reduced construction process and used material.
Drawings
FIG. 1 is a schematic view of the overall construction of the stacked ceiling system of the present invention;
FIG. 2 is an enlarged schematic view at A in FIG. 1;
FIG. 3 is a schematic view of a partial structure of the stacked ceiling system of the present invention;
FIG. 4 is a schematic structural diagram of a second embodiment of the stacking mechanism of the present invention;
FIG. 5 is a schematic structural diagram of a stacking mechanism according to a third embodiment of the present invention;
FIG. 6 is a schematic view of the construction of the wall panel connector of the present invention;
FIG. 7 is a schematic structural view of a secondary roof suspension of the present invention;
figure 8 is a schematic view of the construction of the side panel fastener of the invention.
Reference numerals:
1. a side wall panel; 2. a first-level top plate; 3. a laminated side plate; 4. a secondary roof plate; 5. a wallboard connector; 6. a secondary roof plate hanger; 7. a side plate fixing member; 8. a light strip; 9. a pipeline; 41. a pipeline placement zone; 42. inserting grooves; 51. a wallboard assembly groove; 52. the second-level top plate is inserted into the wall; 61. a secondary roof connecting wall; 62. a sprag wall; 63. a diagonal bracing fixing assembly; 71. a first side plate assembling groove; 72. a closing wall; 611. a shield wall; 612. assembling walls by using a secondary top plate; 613. a second side plate assembling groove; 614. a lamp strip placement area; 621. a first connection hole; 631. a fixing member; 632. fastening a connecting piece; 633. a second connection hole; 711. a first front slot wall; 712. a first rear slot wall; 721. a slope section; 722. a vertical section; 6131. a second front slot wall; 6132. a second rear slot wall.
Detailed Description
The following describes embodiments of the present invention in further detail with reference to the accompanying drawings.
In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.
Example one
As described with reference to fig. 1 to 3, a stacked ceiling system of an assembly plug-in structure includes a side wall plate 1 fixed on a wall, a first-level top plate 2 fixed on an inner roof, a stacked side plate 3 located below the first-level top plate 2, a second-level top plate 4 located below the stacked side plate 3, and a stacked connecting mechanism disposed at the top end of the side wall plate 1 and fixedly connected with the wall, wherein the top end of the stacked connecting mechanism is connected with the first-level top plate 2, and the stacked connecting mechanism is respectively connected with the stacked side plate 3 and the second-level top plate 4, and is used for enabling the stacked side plate 3, the second-level top plate 4 and the first-level top plate 2 to cooperate with each other to form a stacked ceiling; a pipeline placing area 41 is arranged on the upper end face of the secondary top plate 4, and the pipeline placing area 41 is positioned between the stacking connecting mechanism and the wall body and used for arrangement of the pipelines 9; and a lamp strip placing area 614 is arranged on the stacking connecting mechanism and used for laying the lamp strip 8.
The first-stage roof plate 2 is directly arranged on the inner roof and does not occupy the vertical space in the house; the keel-free laminated ceiling is realized through the laminated connecting mechanism, the assembly process is simple, and the traditional process flows of keel, putty scraping, paint brushing and the like are not used; be equipped with the lamp area and place district 614 and pipeline and place district 41, avoided traditional furred ceiling to lead to taking a lot of work, taking a lot of material and the pipeline is crisscross when needing the installation lamp area because the structure is complicated, there is the problem of potential safety hazard.
The stacking connection mechanism comprises a wallboard connector 5, a secondary top plate pendant 6 and a side plate fixing piece 7, wherein the wallboard connector 5 is arranged at the top end of the side wallboard 1, the wallboard connector 5 is supported by the side wallboard 1, one end, far away from the side wallboard 1, of the wallboard connector 5 is connected with one end of the secondary top plate 4, the secondary top plate 4 is supported by splicing, and the secondary top plate 4 is limited in the vertical direction; the other end of second grade roof 4 is pegged graft with the one end of second grade roof pendant 6, and second grade roof pendant 6 supports the other end of second grade roof 4 and carries out spacingly to second grade roof 4 on the vertical direction, and the other end of second grade roof pendant 6 is fixed on the wall body, and second grade roof pendant 6, second grade roof 4 and wall body form the triangular support relation, curb plate mounting 7 is connected with one-level roof 2, overlaps level curb plate 3 and sets up between second grade roof pendant 6 and curb plate mounting 7. Wallboard plug connector 5 and second grade between the roof 4, between second grade roof pendant 6 and the second grade roof 4, second grade roof pendant 6 with fold level curb plate 3 and curb plate mounting 7 and fold level curb plate 3 between all adopt and piece together the connected mode, the steadiness of assembly is realized to limiting displacement each other through each limit in the triangular support relation, it is the level setting to keep second grade roof 4, the assembly process of furred ceiling has been simplified to this structure, because wallboard plug connector 5, second grade roof pendant 6, curb plate mounting 7, lateral wall board 1, it is mutual that the mutual size of fold level curb plate 3 and second grade roof 4 matches with the demand of assembly scene, consequently, do not need the scene to cut, bore the nail, construction process and use material have been reduced.
Example two
Combine fig. 1, fig. 4, fig. 6-fig. 8 to explain, wallboard plug connector 5 includes wallboard concatenation groove 51 and second grade roof concatenation wall 52, wallboard concatenation groove 51 cover is established on the top of side wall board 1, and the width of wallboard concatenation groove 51 and the thickness phase-match of side wall board 1, second grade roof concatenation wall 52 sets up on the lateral wall of keeping away from the wall body on wallboard concatenation groove 51 and extends to the horizontal direction of keeping away from wallboard concatenation groove 51, side wall board 1 supports second grade roof concatenation wall 52 through wallboard concatenation groove 51, second grade roof concatenation wall 52 is pegged graft with the one inserting groove 42 of serving the setting of second grade roof 4, the realization supports the one end of second grade roof 4.
The secondary roof hanging piece 6 comprises a secondary roof connecting wall 61 and an inclined strut wall 62 connected with one end of the secondary roof connecting wall 61, and the other end of the secondary roof connecting wall 61 is connected with the secondary roof 4; the secondary top plate connecting wall 61 is also provided with a shielding wall 611, a secondary top plate splicing wall 612 and a second side plate splicing groove 613, the shielding wall 611 and the secondary top plate splicing wall 612 are both arranged at one end of the secondary top plate connecting wall 61 connected with the secondary top plate 4, the shielding wall 611 extends in a vertical and upward direction relative to the secondary top plate connecting wall 61, a lamp strip placing area 614 is arranged between the shielding wall 611 and the first side plate splicing groove 71 and is positioned on the upper end surface of the secondary top plate connecting wall 61, and the shielding wall 611 is used for shielding the lamp strip placing area 614; second grade roof is assembled wall 612 and is located terminal surface under the second grade roof connecting wall 61, second grade roof is assembled wall 612 and is connected wall 61 with the second grade roof and form second grade roof spread groove, be used for being connected with second grade roof 4, second grade roof 4's the other end is arranged in the second grade roof spread groove, second grade roof is assembled wall 612 and is L shape structure, play ascending supporting role and being in the limiting displacement to keeping away from on the wall body direction horizontal plane to second grade roof 4, second side board concatenation groove 613 sets up the up end at second grade roof connecting wall 61, the position of second side board concatenation groove 613 matches with the position of first side board concatenation groove 71 and is connected with the bottom of overlapping grade curb plate 3, second side board concatenation groove 613 supports the bottom of overlapping grade curb plate 3, and carry on spacingly in the horizontal direction overlapping grade curb plate 3, make the facade side of overlapping grade curb plate 3 perpendicular with the horizontal plane.
One end of the inclined support wall 62, which is far away from the secondary top plate connecting wall 61, is fixedly connected with the wall body, the included angle between the inclined support wall 62 and the secondary top plate connecting wall 61 is alpha, 180 degrees and more than alpha and 90 degrees, the overlapped side plate 3 is arranged between the secondary top plate connecting wall 61 and the side plate fixing piece 7, the included angle alpha is adjusted according to the width requirement of the secondary top plate in the overlapped suspended ceiling on the assembly site, namely the inclined support wall 62 is equivalent to the inclined edge in the triangular support relationship, and the secondary top plate 4 and the wall body are equivalent to two right-angle edges in the triangular support relationship; when the length of one of them right-angle side increases, the corresponding external angle will increase, namely when second grade roof 4 length setting increases, the contained angle between corresponding bracing wall 62 and the second grade roof connecting wall 61 will increase for alpha to the setting of cooperation second grade roof 4 length, this structure has the adjustability, can adapt to the installation with the range upon range of size's cascade furred ceiling.
The side plate fixing piece 7 comprises a first side plate splicing groove 71 and a closing wall 72, the first side plate splicing groove 71 is fixed on the first-stage top plate 2, the notch of the first side plate splicing groove is arranged in the direction far away from the first-stage top plate 2, the first side plate splicing groove 71 is sleeved at the top end of the stacking side plate 3, the width of the first side plate splicing groove 71 is matched with the thickness of the stacking side plate 3, the first side plate splicing groove 71 limits the horizontal direction of the stacking side plate 3, and the first side plate splicing groove 71 is matched with the second side plate splicing groove 613 to enable the side vertical face of the stacking side plate 3 to be perpendicular to the horizontal plane; one end of the closing wall 72 is connected with one side wall of the first side plate splicing groove 71, which is far away from the wall body, the other end of the closing wall is contacted with the first-stage top plate 2, so that a connecting gap between the first side plate splicing groove 71 and the first-stage top plate 2 is blocked, and the closing wall 72 is obliquely arranged between one side wall of the first-stage top plate 2 and the first side plate splicing groove 71, which is far away from the wall body. In order to better shield a connecting gap between the first side plate splicing groove 71 and the first-stage top plate 2, the closing wall 72 is sequentially divided into an inclined surface section 721 and a vertical surface section 722, the bottom end of the inclined surface section 721 is connected with one side wall, far away from the wall body, of the first side plate splicing groove 71, the top end of the inclined surface section 721 is connected with the vertical surface section 722, and the vertical surface section 722 is in contact sealing with the first-stage top plate 2. The inclined section 721 not only shields the gap formed by the connection between the first side plate splicing groove 71 and the first-stage top plate 2, but also prevents dust from remaining under the action of the inclined surface; the vertical section 722 is perpendicular to the first-stage top plate 2, and one end of the tangent plane formed by the inclined plane is thinner than the whole thickness, so that the deformation is easy to occur, the vertical section 722 is not easy to deform, and the structural stability is enhanced.
EXAMPLE III
As described with reference to fig. 5, the secondary roof hanging member 6 further includes an inclined strut fixing component 63, one end of the inclined strut fixing component 63 is connected to the inclined strut wall 62, and the other end of the inclined strut fixing component 63 is connected to the wall, the inclined strut fixing component 63 is used to connect the inclined strut wall 62 to the wall and adjust the connection distance between the inclined strut wall 62 and the wall, and the inclined strut fixing component 63 is used to extend the length of the inclined strut wall 62 to connect to the wall, for example, when the length of the secondary roof 4 is increased, but the included angle between the inclined strut wall 62 and the secondary roof connecting wall 61 is determined to be unable to be adjusted, the length of the inclined strut wall 62 can be extended to connect to the wall by setting the inclined strut fixing component 63.
In order to better achieve the function of connection and fixation, specifically, the inclined strut fixing component 63 includes a fixing part 631 and a fastening connecting part 632, the fixing part 631 is fixed on the wall body, one end of the fastening connecting part 632 is connected with the fixing part 631, the other end is connected with the inclined strut wall 62, the length of the fastening connecting part 632 is adjusted through a screw thread, the fastening connecting part is used for adjusting the connection distance between the inclined strut wall 62 and the wall body, so that the secondary top plate 4 connected with the inclined strut wall 62 is kept horizontally, and the specific fastening connecting part 632 can use a turnbuckle.
Example four
As described with reference to fig. 4, 7 and 8, the first side plate assembling groove 71 includes a first front groove wall 711 and a first side plate groove wall 711A first rear groove wall 712 with a front groove wall 711 matched in size, a second side plate assembling groove 613 comprising a second front groove wall 6131 and a second rear groove wall 6132 matched with the second front groove wall 6131 in size, the position of the first front groove wall 711 corresponds to the position of the second front groove wall 6131, the position of the first rear groove wall 712 corresponds to the position of the second rear groove wall 6132, and the distance from the top end of the second front groove wall 6131 to the inner top wall of the first side plate assembling groove 71 is H 1 The height of the first front groove wall 711 is H 2 The height of the second front slot wall 6131 is H 3 The height of the cascade side plate 3 is H, H = H 1 And H 2 ﹥H 3
Since H = H 1 When the top end of the stacked side plate 3 enters the first side plate assembling groove 71, the bottom end of the stacked side plate 3 can move to the position right above the second side plate assembling groove 613 through the top end of the second front groove wall 6131; when the stacking-stage side plate 3 moved to the position right above the second side plate assembling groove 613 falls downward into the second side plate assembling groove 613, the vertical distance of downward movement of the second side plate assembling groove 613 is H 3 Due to H 2 ﹥H 3 Therefore, the vertical distance of the downward movement of the top end of the second side plate assembling groove 613 is less than the height of the first front groove wall 711, so that the top end of the cascade side plate 3 is still placed between the first front groove wall 711 and the first rear groove wall 712, and the first front groove wall 711 and the first rear groove wall 712 limit the horizontal direction of the top end of the cascade side plate 3.
In order to better match the first front groove wall 711 and the second front groove wall 6131 to limit the cascade side plate 3, the height of the first rear groove wall 712 is higher than that of the first front groove wall 711, and the height of the second rear groove wall 6132 is higher than that of the second front groove wall 6131.
EXAMPLE five
With reference to fig. 1-3 and 5-8, a method of assembling a modular plug-in structure stacked ceiling system, the method comprising the steps of:
s1, installing a side wall plate 1, and fixing the side wall plate 1 on a wall body;
s2, assembling a first-stage roof plate 2, and fixing the first-stage roof plate 2 on an inner roof;
s3, assembling a secondary top plate;
s3-1, installing a wallboard connector clip 5, sleeving a wallboard assembly groove 51 at the top end of the side wallboard 1, splicing a second-level top plate insertion wall 52 with one end of a second-level top plate 4, and supporting one end of the second-level top plate 4;
s3-2, mounting a secondary top plate hanging piece 6;
s3-2-1, placing the other end of the secondary top plate 4 in a secondary top plate connecting groove formed by a secondary top plate assembling wall 612 and a secondary top plate connecting wall 61, wherein the secondary top plate assembling wall 612 is of an L-shaped structure and plays a role in upward supporting the secondary top plate 4 and limiting the secondary top plate on a horizontal plane far away from the wall body;
s3-2-2, connecting the inclined strut wall 62 with the wall through an inclined strut fixing component 63; in order to match with the installation and use of the turn buckle, the inclined support wall 62 is provided with a first connecting hole 621, the fixing piece 631 is provided with a second connecting hole 633, the position of the first connecting hole 621 is matched with the position of the second connecting hole 633, the first connecting hole is used for matching with the installation and use of the turn buckle, the length of the turn buckle is adjusted by rotating the threads on the turn buckle, and the secondary top plate 4 is horizontally arranged.
S4, laying pipelines and lamp belts, wherein the pipelines are laid in the pipeline placement area 41, and the lamp belts are laid in the lamp belt placement area 614;
leading-out wires or leading-in wires of the pipelines and the lamp belts can be arranged through the mounting gaps between the wall body and the side wall plate 1, and the pipelines and the lamp belts are convenient to arrange.
S5, assembling the laminated side plate 3;
s5-1, fixing a first side plate splicing groove 71 at a position, corresponding to the second side plate splicing groove 613, on the first-stage top plate 2;
and S5-2, obliquely inserting the top end of the stacked side plate 3 into the first side plate splicing groove 71 and moving the top end into contact with the inner top wall, moving the stacked side plate 3 towards the direction close to the second side plate splicing groove 613, so that the bottom end of the stacked side plate 3 is just opposite to the second side plate splicing groove 613, and placing the bottom end of the stacked side plate 3 into the second side plate splicing groove 613 to finish assembly.
Finally, it should be noted that: although the present invention has been described in detail with reference to the above embodiments, it should be understood by those skilled in the art that: modifications and equivalents may be made to the embodiments of the invention without departing from the spirit and scope of the invention, which is to be covered by the claims.

Claims (9)

1. The laminated ceiling system with the assembled plug-in structure comprises a side wall plate (1) fixed on a wall body, and is characterized by further comprising a first-level top plate (2) directly fixed on an inner roof, a laminated side plate (3) positioned below the first-level top plate (2), a second-level top plate (4) positioned below the laminated side plate (3), and a laminated connecting mechanism arranged at the top end of the side wall plate (1) and fixedly connected with the wall body, wherein the top end of the laminated connecting mechanism is connected with the first-level top plate (2), and the laminated connecting mechanism is respectively connected with the laminated side plate (3) and the second-level top plate (4) and used for enabling the laminated side plate (3), the second-level top plate (4) and the first-level top plate (2) to be matched with each other to form a laminated ceiling;
the upper end face of the second-stage top plate (4) is provided with a pipeline placing area (41), and the pipeline placing area (41) is positioned between the stacking-stage connecting mechanism and the wall body and used for distributing pipelines (9);
the stacking connecting mechanism is provided with a lamp strip placing area (614) for laying a lamp strip (8);
the stacking connecting mechanism comprises wall plate plug connectors (5) arranged at the top ends of side wall plates (1), secondary top plate hanging pieces (6) and side plate fixing pieces (7), one ends, far away from the side wall plates (1), of the wall plate plug connectors (5) are connected with one ends of the secondary top plates (4), the other ends of the secondary top plates (4) are connected with one ends of the secondary top plate hanging pieces (6), the other ends of the secondary top plate hanging pieces (6) are fixed on a wall body, the secondary top plate hanging pieces (6), the secondary top plates (4) and the wall body form a triangular supporting relation, the side plate fixing pieces (7) are connected with the primary top plate (2), and the stacking side plates (3) are arranged between the secondary top plate hanging pieces (6) and the side plate fixing pieces (7);
the lamp strip placing area (614) is arranged above the secondary top plate hanging piece (6) and is located on one side, far away from the wall body, of the stacking side plate (3).
2. The laminated ceiling system of an assembled plug-in structure according to claim 1, wherein the wallboard plug-in connector (5) comprises a wallboard splicing groove (51) and a second-stage roof plugging wall (52), the wallboard splicing groove (51) is sleeved on the top end of the side wall board (1), the width of the wallboard splicing groove (51) is matched with the thickness of the side wall board (1), the second-stage roof plugging wall (52) is arranged on the side wall of the wallboard splicing groove (51) far away from the wall body and extends in the horizontal direction far away from the wallboard splicing groove (51), and the second-stage roof plugging wall (52) is connected with one end of the second-stage roof (4).
3. The stacked ceiling system with the assembly type plug-in connection structure according to claim 2, wherein the secondary roof hanging pieces (6) comprise secondary roof connecting walls (61) and inclined support walls (62) connected with one ends of the secondary roof connecting walls (61), the other ends of the secondary roof connecting walls (61) are connected with the secondary roof (4), one ends, far away from the secondary roof connecting walls (61), of the inclined support walls (62) are fixedly connected with a wall body, included angles between the inclined support walls (62) and the secondary roof connecting walls (61) are alpha, 180 degrees larger than alpha and 90 degrees, and the stacked side plates (3) are arranged between the secondary roof connecting walls (61) and the side plate fixing pieces (7).
4. The laminated ceiling system of the assembled plug-in structure according to claim 3, wherein the side plate fixing member (7) comprises a first side plate splicing groove (71) and a closing-up wall (72), the first side plate splicing groove (71) is fixed on the first-level top plate (2) and the notch is arranged along the direction away from the first-level top plate (2), the first side plate splicing groove (71) is sleeved at the top end of the laminated side plate (3), the width of the first side plate splicing groove (71) is matched with the thickness of the laminated side plate (3), one end of the closing-up wall (72) is connected with one side wall far away from the wall body on the first side plate splicing groove (71), and the other end of the closing-up wall is in contact with the first-level top plate (2) and used for blocking a connecting gap between the first side plate splicing groove (71) and the first-level top plate (2).
5. The stacked ceiling system of an assembled plug-in structure according to claim 4, wherein the secondary roof connecting wall (61) is further provided with a shielding wall (611), a secondary roof assembling wall (612) and a second side panel assembling groove (613), the shielding wall (611) and the secondary roof assembling wall (612) are both arranged at one end of the secondary roof connecting wall (61) connected with the secondary roof (4), the shielding wall (611) extends in a vertical upward direction relative to the secondary roof connecting wall (61), a lamp strip placing area (614) is arranged between the shielding wall (611) and the first side panel assembling groove (71) and is located on the upper end face of the secondary roof connecting wall (61), and the shielding wall (611) is used for shielding the lamp strip placing area (614);
second grade roof is assembled wall (612) and is located terminal surface under second grade roof connecting wall (61), and wall (612) and second grade roof connecting wall (61) are assembled to the second grade roof and are formed the second grade roof spread groove for be connected with second grade roof (4), second side board concatenation groove (613) set up the up end of connecting wall (61) at the second grade roof, and the position phase-match of second side board concatenation groove (613) and first side board concatenation groove (71) just is connected with the bottom of overlapping level curb plate (3).
6. The stacked ceiling system of an assembled plug-in structure according to claim 5, wherein the secondary ceiling hanging piece (6) further comprises a diagonal bracing fixing component (63), one end of the diagonal bracing fixing component (63) is connected with the diagonal bracing wall (62), the other end of the diagonal bracing fixing component is connected with the wall body, the diagonal bracing fixing component (63) is used for connecting the diagonal bracing wall (62) with the wall body, and the connecting distance between the diagonal bracing wall (62) and the wall body is adjusted.
7. The stacked ceiling system of an assembled plug-in structure according to claim 6, wherein the brace fixing component (63) comprises a fixing member (631) and a fastening connector (632), the fixing member (631) is fixed on the wall, one end of the fastening connector (632) is connected with the fixing member (631), the other end is connected with the brace wall (62), and the fastening connector (632) is used for adjusting the connection distance between the brace wall (62) and the wall.
8. The cascade ceiling system of an assembled plug-in structure according to claim 5, wherein the first side plate assembly groove (71) comprises a first front groove wall (711) and a first rear groove wall (712) matched with the first front groove wall (711) in size, the second side plate assembly groove (613) comprises a second front groove wall (6131) and a second rear groove wall (6132) matched with the second front groove wall (6131) in size, the position of the first front groove wall (711) corresponds to the position of the second front groove wall (6131), the position of the first rear groove wall (712) corresponds to the position of the second rear groove wall (6132), and the vertical distance from the top end of the second front groove wall (6131) to the inner top wall of the first side plate assembly groove (71) is H 1 The height of the first front groove wall (711) is H 2 The height of the second front groove wall (6131) is H 3 The height of the laminated side plate (3) is H, and H = H 1 And H 2 ﹥H 3
9. A method of assembling a modular plug-in structure based stacked ceiling system according to claim 7, comprising the steps of:
s1, installing a side wall plate (1), and fixing the side wall plate (1) on a wall body;
s2, assembling a primary roof (2), and fixing the primary roof (2) on the inner roof;
s3, assembling a secondary top plate;
s3-1, installing a wallboard plug connector (5), sleeving a wallboard splicing groove (51) at the top end of the side wallboard (1), and splicing a second-level top plate plug-in wall (52) with one end of a second-level top plate (4);
s3-2, mounting a secondary top plate pendant (6), sleeving a secondary top plate assembling wall (612) at the other end of the secondary top plate (4), and connecting an inclined strut wall (62) with the wall body through an inclined strut fixing component (63);
s4, laying pipelines and lamp belts, wherein the pipelines are laid in the pipeline placement area (41), and the lamp belts are laid in the lamp belt placement area (614);
s5, assembling the laminated side plate (3);
s5-1, fixing a first side plate splicing groove (71) on the first-stage top plate (2) at a position corresponding to the second side plate splicing groove (613);
s5-2, obliquely inserting the top end of the stacking side plate (3) into the first side plate splicing groove (71) and moving the stacking side plate (3) to be in contact with the inner top wall, moving the stacking side plate (3) towards the direction close to the second side plate splicing groove (613), enabling the bottom end of the stacking side plate (3) to be over against the second side plate splicing groove (613), placing the bottom end of the stacking side plate (3) into the second side plate splicing groove (613), and completing assembly.
CN202211661695.9A 2022-12-23 2022-12-23 Stack-level ceiling system of assembled plug-in structure and assembling method Active CN115627873B (en)

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Family Cites Families (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR2927637B1 (en) * 2008-02-15 2010-04-02 Clestra Cleanroom CIRCULAR SUSPENDED CEILING DEVICE AND METHOD OF MAKING SAME.
CN215253889U (en) * 2021-04-09 2021-12-21 广东玛格家居有限公司 Drop level furred ceiling binding off structure
CN113323239A (en) * 2021-06-30 2021-08-31 浙江亚厦装饰股份有限公司 Grade mounting structure falls in assembled furred ceiling external corner
CN113530064A (en) * 2021-08-16 2021-10-22 浙江亚厦装饰股份有限公司 Assembling plug-in hanging type drop ceiling
CN113982173A (en) * 2021-09-15 2022-01-28 浙江亚厦装饰股份有限公司 Assembled falls a grade furred ceiling
CN115075454A (en) * 2022-07-18 2022-09-20 浙江亚厦装饰股份有限公司 Integrated closing-in piece for suspended ceiling

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Address after: Building 1, zone 1, Ronghui business park, Binhai Zhongguancun Science Park, Binhai New Area Economic and Technological Development Zone, Tianjin

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