CN108505664B - Corner suspended ceiling module - Google Patents
Corner suspended ceiling module Download PDFInfo
- Publication number
- CN108505664B CN108505664B CN201710111026.7A CN201710111026A CN108505664B CN 108505664 B CN108505664 B CN 108505664B CN 201710111026 A CN201710111026 A CN 201710111026A CN 108505664 B CN108505664 B CN 108505664B
- Authority
- CN
- China
- Prior art keywords
- plate
- vertical
- keel
- transverse
- hanging
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Images
Classifications
-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B9/00—Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation
- E04B9/06—Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation characterised by constructional features of the supporting construction, e.g. cross section or material of framework members
-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B9/00—Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation
- E04B9/18—Means for suspending the supporting construction
-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B9/00—Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation
- E04B9/30—Ceilings; 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
Landscapes
- Engineering & Computer Science (AREA)
- Architecture (AREA)
- Physics & Mathematics (AREA)
- Electromagnetism (AREA)
- Civil Engineering (AREA)
- Structural Engineering (AREA)
- Finishing Walls (AREA)
- Toys (AREA)
Abstract
The utility model discloses a corner ceiling module, which comprises a ceiling vertical surface and a ceiling horizontal surface; the ceiling vertical surface comprises a first vertical surface and a second vertical surface which are vertically arranged and are perpendicular to each other, and the first vertical surface and the second vertical surface form an internal corner of the ceiling module; the ceiling horizontal plane comprises a rectangular plane, a first corner of the rectangular plane is provided with a right-angle notch, the first vertical plane and the second vertical plane are vertically connected with the right-angle notch, two side edges, far away from the right-angle notch, of the ceiling horizontal plane are arranged as connecting wall bodies, two side edges, close to the right-angle notch, of the ceiling horizontal plane are arranged as connecting straight ceiling modules, and the ceiling horizontal plane is connected with the bottom edge of the ceiling vertical plane through an external corner keel; the top edge of the vertical surface of the suspended ceiling is set as a connecting wall body, and the side edge is set as a connecting straight suspended ceiling module; the utility model relates to but not limited to building materials fossil fragments, use the defect that exists among the present application can effectively be overcome, the rapid Assembly installation that can realize the furred ceiling part can effectively improve on-the-spot installation effectiveness to and effectively reduce workman intensity of labour.
Description
Technical Field
The application relates to but is not limited to building material keels, in particular to a corner ceiling module.
Background
In the prior art, a keel is a building material for supporting a molding and fixing structure; the building is widely applied to places such as hotels, terminal buildings, passenger stations, theaters, markets, factories, office buildings, old building transformation, indoor decoration arrangement, ceilings and the like. Keels are used as frames and base materials for decoration and are very popular in use.
Wherein, more and more office buildings and other places begin to adopt the building assembled ceiling technology; however, the existing assembly type building interior ceiling part still adopts the traditional installation mode, and a large number of plate type composite structure ceilings need to be installed on site manually, so that the use of materials is not economical, the site installation speed is slow, and the development requirement of the assembly type technology is seriously restricted.
Disclosure of Invention
The technical problem that this application was solved provides a corner furred ceiling module, can effectively overcome the defect that exists among the prior art, can realize the rapid Assembly installation of furred ceiling part, can effectively improve on-the-spot installation effectiveness to and effectively reduce workman intensity of labour.
In order to solve the technical problem, the application provides a corner ceiling module which comprises a ceiling vertical surface and a ceiling horizontal surface; the ceiling vertical surface comprises a first vertical surface and a second vertical surface which are vertically arranged and are perpendicular to each other, and the first vertical surface and the second vertical surface form an internal corner of the ceiling module; the ceiling horizontal plane comprises a rectangular plane, a first corner position of the rectangular plane is provided with a right-angle notch, and the first vertical surface and the second vertical surface are vertically connected to the right-angle notch;
two side edges of the ceiling horizontal plane, which are far away from the right-angle gap, are arranged as connecting walls, two side edges of the ceiling horizontal plane, which are close to the right-angle gap, are arranged as connecting straight ceiling modules, and the ceiling horizontal plane is connected with the bottom edge of the ceiling vertical surface through an external corner keel; the top edge of the vertical surface of the suspended ceiling is set as a connecting wall body, and the side edge is set as a connecting straight suspended ceiling module.
Above-mentioned corner furred ceiling module still can have following characteristics:
the suspended ceiling horizontal plane comprises a first main keel, a second main keel, a first auxiliary keel and a second auxiliary keel; the first main keel and the second main keel are respectively arranged on two side edges of the horizontal plane of the suspended ceiling far away from the right-angle notch; the first auxiliary keel and the second auxiliary keel are respectively arranged on two side edges of the horizontal plane of the suspended ceiling close to the right-angle notch and are vertically connected to the external-angle keel;
the vertical surface of the suspended ceiling comprises a third main keel, a fourth main keel, a third auxiliary keel and a fourth auxiliary keel; the third main keel is arranged on the top edge of the first vertical surface, and the third auxiliary keel is arranged between the third main keel and the external corner keel; the fourth main keel is arranged on the top edge of the second vertical surface, and the fourth auxiliary keel is arranged between the fourth main keel and the external corner keel;
the first main keel, the second main keel, the third main keel, the fourth main keel, the first auxiliary keel, the second auxiliary keel, the third auxiliary keel and the fourth auxiliary keel are all provided with U-shaped cavities.
Above-mentioned corner furred ceiling module still can have following characteristics:
the first main keel and the second main keel are connected through a horizontal right-angle piece, and the third main keel and the fourth main keel are connected through a vertical right-angle piece; the first main keel and the first auxiliary keel, the second main keel and the second auxiliary keel, the third main keel and the third auxiliary keel and the fourth main keel and the fourth auxiliary keel are connected through horizontal card inserting pieces; between first false keel, external corner fossil fragments and the third false keel, between second false keel, external corner fossil fragments and the fourth false keel, all connect through ladder card plug-in components.
Above-mentioned corner furred ceiling module still can have following characteristics:
the step card inserting piece comprises a step body, wherein the step body comprises a first transverse plate, a first vertical plate, a second transverse plate and a second vertical plate which are sequentially and vertically connected and combined to form a step shape; the first transverse plate is horizontally arranged at the top end of the ladder body, the first vertical plate is vertically arranged, the top edge of the first transverse plate is connected with the side edge of the first transverse plate, the second transverse plate is horizontally arranged, a group of opposite edges of the second transverse plate are respectively connected with the bottom edge of the first vertical plate and the top edge of the second vertical plate, and the second vertical plate is vertically arranged at the bottom end of the ladder body;
the first vertical plate and the second horizontal plate are arranged to be connected with the external corner keel, the first horizontal plate is arranged to be connected with a third auxiliary keel or a fourth auxiliary keel which is perpendicular to the external corner keel and is vertically arranged, and the second vertical plate is arranged to be connected with a first auxiliary keel or a second auxiliary keel which is perpendicular to the external corner keel and is horizontally arranged;
the external corner keel is provided with an L-shaped cavity, a transverse plate and a vertical plate are respectively arranged on two sides of a cavity opening of the L-shaped cavity, and folded edges bent inwards are respectively arranged at the tail ends of the transverse plate and the vertical plate; the first group of opposite sides of the first transverse plate are provided with first clamping and inserting plates which extend upwards and are vertical to the first transverse plate, and the first group of opposite sides of the first transverse plate are vertical to the side edge of the first transverse plate connected with the first vertical plate; two sides of the first vertical plate are provided with first clamping and hanging plates which extend towards the inner side of the ladder and are vertical to the first vertical plate;
two sides of the second vertical plate are provided with second card inserting plates which extend towards the outer side of the ladder and are vertical to the second vertical plate; the first group of opposite sides of the second transverse plate are provided with second clamping and hanging plates which extend downwards and are vertical to the second transverse plate, and the first group of opposite sides of the second transverse plate are vertical to the side edge of the second transverse plate connected with the second vertical plate; two side edges of the U-shaped cavity are connected with the first card inserting plate and the second card inserting plate in a clinging manner, and the folded edges bent inwards of the U-shaped cavity are arranged to clamp the first card inserting plate and the second card inserting plate; hook-shaped structures are symmetrically arranged on two sides of the first clamping and hanging plate and two sides of the second clamping and hanging plate, and the hook-shaped structures are arranged to hook the inward bent folded edge of the L-shaped cavity.
Above-mentioned corner furred ceiling module still can have following characteristics:
the horizontal card plug-in piece comprises a first transverse plug board and a first vertical plug board which are perpendicular to each other, the side edge of the first transverse plug board is connected with the top edge of the first vertical plug board, the first transverse plug board is arranged to be connected with the main keel, and the first vertical plug board is arranged to be connected with the auxiliary keel;
the first group of opposite sides of the first transverse inserting plate are provided with third vertical plates which extend downwards and are vertical to the first transverse inserting plate, the first group of opposite sides of the first transverse inserting plate are vertical to the side edges of the first transverse inserting plate connected with the first vertical inserting plate, and hook-shaped structures are symmetrically arranged on two sides of each third vertical plate; the first group of opposite sides of the first vertical inserting plate are provided with fourth vertical plates which extend outwards and are vertical to the first vertical inserting plate, and the first group of opposite sides of the first vertical inserting plate are vertical to the side edges of the first vertical inserting plate connected with the first transverse inserting plate;
the first transverse inserting plate is arranged to hook an inward bent folded edge of the U-shaped cavity through the hook-shaped structure of the third vertical plate; the first vertical inserting plate is vertically inserted into the U-shaped cavity, and the symmetrically arranged fourth vertical plates are respectively tightly attached to two sides of the U-shaped cavity.
Above-mentioned corner furred ceiling module still can have following characteristics:
the horizontal right-angle part comprises a rectangular body, and a third transverse inserting plate and a fourth transverse inserting plate which are mutually flush are respectively arranged on the adjacent side edges of the rectangular body; the third transverse inserting plate and the fourth transverse inserting plate are arranged in parallel on the rectangular body; the first group of opposite sides of the third transverse inserting plate are both provided with seventh vertical plates extending upwards, and the first group of opposite sides of the third transverse inserting plate are perpendicular to the side edges of the third transverse inserting plate connected with the rectangular body; the first group of opposite sides of the fourth transverse inserting plate are both provided with eighth vertical plates extending upwards, and the first group of opposite sides of the fourth transverse inserting plate are perpendicular to the side edges of the fourth transverse inserting plate connected with the rectangular body;
the third transverse inserting plate and the fourth transverse inserting plate are respectively inserted into the first main keel and the second main keel which are vertically connected with each other; the third transverse inserting plate and the fourth transverse inserting plate are arranged to be in close fit connection with the bottom edge of the U-shaped cavity, and the seventh vertical plate and the eighth vertical plate are arranged to be in close fit with the side edge of the U-shaped cavity; two side edges of the U-shaped cavity are respectively provided with an inward bent hem which is used for clamping the seventh vertical plate and the eighth vertical plate; two side edges of the U-shaped cavity are perpendicular to the bottom edge, and the side edges are arranged to clamp the third transverse inserting plate and the fourth transverse inserting plate; the lower surfaces of the third transverse inserting plate and the fourth transverse inserting plate are flush with the upper surface of the rectangular body, and the thickness of the plate of the rectangular body is equal to that of the keel.
Above-mentioned corner furred ceiling module still can have following characteristics:
the vertical right-angle piece comprises an L-shaped body, and the L-shaped body comprises a third vertical inserting plate and a fourth vertical inserting plate which are connected through respective side edges and are perpendicular to each other; the top edge and the bottom edge of the third vertical inserting plate are provided with third transverse plates, and the third transverse plates extend outwards and are far away from the fourth vertical inserting plate; the top edge and the bottom edge of the fourth vertical inserting plate are provided with fourth transverse plates, and the fourth transverse plates extend outwards and are far away from the third vertical inserting plate;
the third vertical inserting plate and the fourth vertical inserting plate which are vertical to each other are arranged to be respectively inserted into the third main keel and the fourth main keel which are vertically connected with each other; the third vertical inserting plate and the fourth vertical inserting plate are arranged to be tightly attached to the bottom edge of the U-shaped cavity, and the third transverse plate and the fourth transverse plate are arranged to be tightly attached to the side edge of the U-shaped cavity; two side edges of the U-shaped cavity are respectively provided with a folded edge which is bent inwards, and the folded edges are arranged to clamp the third transverse plate and the fourth transverse plate; two sides of the U-shaped cavity are perpendicular to the bottom side of the U-shaped cavity respectively, and the sides are arranged to clamp the third vertical inserting plate and the fourth vertical inserting plate.
Above-mentioned corner furred ceiling module still can have following characteristics:
the side of furred ceiling horizontal plane and wall connection the topside of the vertical face of furred ceiling and wall connection all sets up the carry fossil fragments, the relevant position of wall body is equipped with and carries fossil fragments cooperation along the wall and be connected with the carry fossil fragments.
Above-mentioned corner furred ceiling module still can have following characteristics:
the hanging keel comprises a fifth vertical plate, a lapping plate and a hanging plate, the lapping plate and the hanging plate are respectively arranged on two sides of the fifth vertical plate, the lapping plate is connected with the bottom end of the fifth vertical plate, and the lapping plate and the fifth vertical plate are arranged to be connected with the edge of a suspended ceiling module; the hanging plate is connected with the middle part of the fifth vertical plate and is provided with a hanging bearing keel along the wall;
a cavity between the hanging plate and the fifth vertical plate is set as a hanging cavity; the tail end of the hanging plate is a free end, the tail end is inclined inwards, and the middle part of the hanging plate is a bent part; the area between the bending part and the tail end of the hanging plate is provided with a hanging plate for tightly clamping the bearing keel along the wall; the bending part of the hanging plate and the hanging plate along the wall bearing keel are provided with the same bending structure; the bottom of fifth riser with the contained angle between the lapping plate sets up to 90.
Above-mentioned corner furred ceiling module still can have following characteristics:
the wall-following bearing keel comprises a wall connecting plate, a bottom plate and a hanging plate, wherein the bottom end of the hanging plate is connected with the bottom ends of the wall connecting plate respectively, the wall connecting plate is arranged to be connected with a wall, and the hanging plate is arranged to be a hanging keel;
the top end of the hanging plate is set to be a free end, and the top end inclines outwards; an included angle between the bottom end of the hanging plate and the bottom plate is set to be a, and a is smaller than 90 degrees; the middle part of the hanging plate is provided with a bent part; the area between the bending part and the top end of the hanging plate is set as an insertion guide area of the hanging keel to be hung; the area between the bending part and the bottom end of the hanging plate is set as a hanging clamping area of the hanging keel to be hung; the bending part of the hanging plate and the hanging plate to be hung with the hanging keel are provided with the same bending structure; the included angle between the bottom end of the wall connecting plate and the bottom plate is set to be 90 degrees.
The above technical scheme of this application has following beneficial effect:
according to the invention, through optimizing the arranged components, the defects in the prior art can be effectively overcome, the rapid assembly and installation of the ceiling module can be realized, the field installation efficiency can be effectively improved, and the labor intensity of workers can be effectively reduced.
Additional features and advantages of the application will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the embodiments of the invention. The objectives and other advantages of the application may be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.
Drawings
The accompanying drawings are included to provide a further understanding of the claimed subject matter and are incorporated in and constitute a part of this specification, illustrate embodiments of the subject matter and together with the description serve to explain the principles of the subject matter and not to limit the subject matter.
FIG. 1 is a schematic structural diagram of an embodiment of the present invention
FIG. 2 is a second schematic structural diagram according to an embodiment of the present invention;
FIG. 3 is a first enlarged fragmentary view of FIG. 1;
FIG. 4 is a schematic diagram of a ladder card plug according to an embodiment of the present invention;
FIG. 5 is a second enlarged partial view of FIG. 1;
FIG. 6 is a schematic diagram of a horizontal card socket according to an embodiment of the present invention;
FIG. 7 is a first enlarged fragmentary view of FIG. 2;
FIG. 8 is a schematic view of a horizontal right angle member according to an embodiment of the present invention;
FIG. 9 is a second enlarged partial view of FIG. 2;
FIG. 10 is a schematic view of a vertical right angle in an embodiment of the present invention;
FIG. 11 is a third enlarged partial view of FIG. 1;
FIG. 12 is a fourth enlarged partial view of FIG. 1;
FIG. 13 is a schematic view of the mounting studs and wall-mounted studs of an embodiment of the present invention;
figure 14 is a schematic structural view of a mounting keel in the embodiment of the invention;
figure 15 is a perspective view of a mounting keel structure in an embodiment of the invention;
figure 16 is a schematic view of a load keel structure along a wall in an embodiment of the invention;
figure 17 is a perspective view of a load keel structure along a wall in accordance with an embodiment of the invention.
Detailed Description
Hereinafter, embodiments of the present application will be described in detail with reference to the accompanying drawings. It should be noted that the embodiments and features of the embodiments in the present application may be arbitrarily combined with each other without conflict.
As shown in fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16 and 17,
the invention provides a corner ceiling module which comprises a ceiling vertical surface and a ceiling horizontal surface 50; the vertical surfaces of the suspended ceiling comprise a first vertical surface 52 and a second vertical surface 51 which are vertically arranged and are perpendicular to each other, and the first vertical surface 52 and the second vertical surface 51 form internal corners of the suspended ceiling module; the ceiling horizontal plane 50 comprises a rectangular plane, a first corner position of the rectangular plane is provided with a right-angle notch, and a first vertical surface 52 and a second vertical surface 51 are vertically connected to the right-angle notch; two side edges of the ceiling horizontal plane 50, which are far away from the right-angle gap, are arranged as connecting walls, two side edges of the ceiling horizontal plane 50, which are close to the right-angle gap, are arranged as connecting straight ceiling modules, and the ceiling horizontal plane 50 is connected with the bottom edge of the ceiling vertical plane through an external corner keel 62; the top edge of the vertical surface of the suspended ceiling is set as a connecting wall body, and the side edge is set as a connecting straight suspended ceiling module.
In the concrete operation, can assemble above-mentioned corner furred ceiling module, and then be connected through its accessory between and the wall body, can realize holistic quick installation operation. Fig. 1 is a block diagram of a ceiling module with panels, and fig. 2 is a block diagram of a framework of the ceiling module. Through the back installation panel at fossil fragments, can realize the corresponding fixed of panel, and then form the furred ceiling decorative cover.
Preferably, in operation of the present invention, ceiling level 50 includes a first main runner 53, a second main runner 54, a first cross runner 55, a second cross runner 56; the first main keel 53 and the second main keel 54 are respectively arranged on two side edges of the ceiling horizontal plane 50 far away from the right-angle notch; the first auxiliary keel 55 and the second auxiliary keel 56 are respectively arranged on two sides of the suspended ceiling horizontal plane 50 close to the right-angle notch and are vertically connected to the external corner keel 62; the vertical surface of the suspended ceiling comprises a third main keel 57, a fourth main keel 58, a third auxiliary keel 59 and a fourth auxiliary keel 60; a third main runner 57 is provided at the top edge of the first riser 52 and a third cross runner 59 is provided between the third main runner 57 and the male corner runner 62; a fourth main runner 58 is provided at the top edge of the second riser 51, and a fourth cross runner 60 is provided between the fourth main runner 58 and the male corner runner 62; the first main keel 53, the second main keel 54, the third main keel 57, the fourth main keel 58, the first cross keel 55, the second cross keel 56, the third cross keel 59 and the fourth cross keel 60 are all provided with U-shaped cavities.
In the specific operation, the first main keel 53 is connected with the second main keel 54 through a water straight angle piece 300, and the third main keel 57 is connected with the fourth main keel 58 through a vertical angle piece 100; the first main keel 53 and the first cross keel 55, the second main keel 54 and the second cross keel 56, the third main keel 57 and the third cross keel 59, and the fourth main keel 58 and the fourth cross keel 60 are connected through horizontal clamping inserts 200; the first cross runner 55, the male angle runner 62 and the third cross runner 59, and the second cross runner 56, the male angle runner 62 and the fourth cross runner 60 are connected by a step clip 400.
As shown in fig. 3 and 4, the structure of the step card plug-in unit is as follows:
the ladder card insert 400 may include a ladder body including a first transverse plate 401, a first vertical plate 402, a second transverse plate 403 and a second vertical plate 404, which are vertically connected in sequence and combined to form a ladder shape; the horizontal setting of first diaphragm 401 is on the top of ladder body, and the side of first diaphragm 401 is connected to the vertical setting and the topside of first riser 402, and the setting of second diaphragm 403 level and a set of opposite side connect the base of first riser 402 and the topside of second riser 404 respectively, and the vertical setting of second riser 404 is in the bottom of ladder body. In operation, the male corner keel 62 and corresponding cross keels are operatively connected by the ladder clip insert 400 described above.
Preferably, the first and second vertical plates 402 and 403 are disposed to connect the male keel 62, the first horizontal plate 401 is disposed to connect the third and fourth cross runners 59 and 60 vertically disposed to the male keel 62, and the second vertical plate 404 is disposed to connect the first and second cross runners 55 and 56 horizontally disposed to the male keel 62. Further, the external corner keel 62 has an L-shaped cavity, a transverse plate and a vertical plate are respectively disposed on two sides of the cavity opening of the L-shaped cavity, and the ends of the transverse plate and the vertical plate are both provided with a folded edge bending inwards. Correspondingly, the first keel and the second keel are provided with U-shaped cavities, and two sides of the opening of each U-shaped cavity are respectively provided with a folded edge which is bent inwards.
In order to optimize the connecting structure between the ladder card plug-in unit and the keel; the first group of opposite sides of the first transverse plate 401 in this application are provided with a first card inserting plate 405 extending upwards and perpendicular to the first transverse plate 401, and the first group of opposite sides of the first transverse plate 401 are perpendicular to the side where the first transverse plate 401 is connected with the first vertical plate 402. In the specific operation, the first card inserting plate 405 is inserted into the cavity of the keel along the end part of the keel, so that the connection and fixation between the keel and the step card inserting piece can be realized.
In the present application, first hanging plates 406 extending inward of the steps and perpendicular to the first riser 402 are provided on both sides of the first riser 402. In the specific operation, the upper edge of the L-shaped cavity of the external corner keel 62 is hooked by the first hooking plate 406, so that the connection and fixation between the upper edge of the external corner keel 62 and the step card insertion member can be realized.
In the present application, second snap plates 408 extending outward from the steps and perpendicular to the second riser 404 are provided on both sides of the second riser 404. In the specific operation, the second card inserting plate 408 is inserted into the cavity of the keel along the end of the keel, so that the connection and fixation between the keel and the step card inserting member can be realized.
The first group of opposite sides of the second transverse plate 403 in this application are provided with the second clamping and hanging plate 407 which extends downwards and is perpendicular to the second transverse plate 403, the first group of opposite sides of the second transverse plate 403, and the sides which are perpendicular to the second transverse plate 403 and the second vertical plate 404 are connected. In the specific operation, the lower edge of the L-shaped cavity of the external corner keel 62 is hung through the second hanging clamping plate 407, so that the connection and fixation between the lower edge of the external corner keel 62 and the step clamping plug-in unit can be realized.
Preferably, two side edges of the U-shaped cavity are tightly attached to connect the first card insertion plate 405 and the second card insertion plate 408, and the inward bent folded edge of the U-shaped cavity is configured to tightly clamp the first card insertion plate 405 and the second card insertion plate 408; the folded edge can effectively ensure that the corresponding connecting part of the ladder card plug-in cannot slide out of the U-shaped cavity in the installation process.
Preferably, hook-shaped structures are symmetrically arranged on both sides of the first clamping and hanging plate 406 and both sides of the second clamping and hanging plate 407, and the hook-shaped structures are configured to hook the inward bent folded edge of the L-shaped cavity; the hook-shaped structure can effectively improve the actual installation efficiency.
Preferably, both sides of the first hanging plate 406 and both sides of the second hanging plate 407 are provided with a connecting hole. The connecting holes can be used for improving the relative stability of the oppositely arranged first clamping and hanging plate 406 and the oppositely arranged second clamping and hanging plate 407 by penetrating through the metal rod piece.
As shown in fig. 5 and 6, the horizontal card insert has the following structure:
the horizontal card plug-in unit 200 may include a first horizontal plug-in board 201 and a first vertical plug-in board 202 which are perpendicular to each other, wherein a side edge of the first horizontal plug-in board 201 is connected with a top edge of the first vertical plug-in board 202, the first horizontal plug-in board 201 is configured to be connected with a main keel, and the first vertical plug-in board 202 is configured to be connected with a secondary keel; the first group of opposite sides of the first transverse inserting plate 201 are provided with third vertical plates 203 which extend downwards and are perpendicular to the first transverse inserting plate 201, the first group of opposite sides of the first transverse inserting plate 201 are perpendicular to the side edges of the first transverse inserting plate 201 connected with the first vertical inserting plate 202, and hook-shaped structures are symmetrically arranged on two sides of each third vertical plate 203; the first group of opposite sides of the first vertical insertion plate 202 are provided with a fourth vertical plate 204 extending outwards and perpendicular to the first vertical insertion plate 202, and the first group of opposite sides of the first vertical insertion plate 202 are perpendicular to the side of the first vertical insertion plate 202 connected with the first transverse insertion plate 201.
Further, the first transverse insertion plate 201 and the first vertical insertion plate 202, which are perpendicular to each other, are arranged to be connected to the keels, which are perpendicular to each other, respectively. In the specific operation, the two keels which are horizontally arranged and mutually perpendicular to each other can be effectively connected through the horizontal clamping plug-in unit 200, wherein the cavity openings of the keels are arranged upwards, and the end parts of the keels are vertically connected to the middle position of the other keel; the first transverse inserting plate 201 and the correspondingly arranged third vertical plate 203 are connected with the keel on one side, and the first vertical inserting plate 202 and the correspondingly arranged fourth vertical plate 204 are connected with the keel on the other side, so that the fixed connection between the keels can be realized.
Preferably, this application above-mentioned fossil fragments have the U die cavity body, and two sides of U die cavity are provided with the hem of inside buckling respectively. In the specific operation of the application, the included angle between the folded edge of the U-shaped cavity and the side edge is set to be a right angle; or the included angle between the folded edge of the U-shaped cavity and the side edge is set to be an acute angle; through the included angle setting of above-mentioned right angle or acute angle, can effectively avoid third riser 203 and fourth riser 204 roll-off U type cavity in the installation.
Further, the first horizontal inserting plate 201 is provided with a hook-shaped structure through the third vertical plate 203, and an inward bent folded edge of the U-shaped cavity is hooked; the first vertical inserting plate 202 is arranged to be vertically inserted into the U-shaped cavity, and the symmetrically arranged fourth vertical plates 204 are arranged to be respectively tightly attached to two sides of the U-shaped cavity.
In the specific operation, the hook-shaped structure of the third vertical plate 203 is used for hooking the folded edge position of the keel, so that the keel can be connected with one side of the horizontal card plug-in unit; furthermore, the fourth vertical plate 204 of the first vertical insertion plate 202 is clamped in two side edges of the U-shaped cavity, so that the keel can be connected with the other side of the horizontal insertion plate. Further, the third riser 203 of this application still is provided with the connecting hole. The connecting holes can be used for improving the relative stability of the oppositely arranged third vertical plate 203 by penetrating through the metal rod.
As shown in fig. 7 and 8, the structure of the horizontal right-angle member is as follows:
the horizontal right-angle component 300 can comprise a rectangular body 301, wherein the adjacent side edges of the rectangular body 301 are respectively provided with a third transverse inserting plate 302 and a fourth transverse inserting plate 303 which are mutually flush, and the third transverse inserting plate 302 and the fourth transverse inserting plate 303 are both arranged in parallel on the rectangular body 301; the first group of opposite sides of the third transverse inserting plate 302 are provided with seventh vertical plates 304 extending upwards, and the first group of opposite sides of the third transverse inserting plate 302 are perpendicular to the side edges of the third transverse inserting plate 302 connected with the rectangular body 301; the first group of opposite sides of the fourth transverse inserting plate 303 are provided with eighth vertical plates 305 extending upwards, and the first group of opposite sides of the fourth transverse inserting plate 303 are perpendicular to the side edges of the fourth transverse inserting plate 303 connected with the rectangular body 301.
Further, the third and fourth horizontal insertion plates 302 and 303 may be configured to be inserted into the first and second main runners 53 and 54, respectively, which are vertically connected to each other. In a specific operation, the two keels which are horizontally arranged and mutually perpendicular to each other can be effectively connected through the horizontal right-angle member 300, wherein the cavities of the keels are arranged upwards, and the end part of one keel is vertically contacted with the end part of the other keel; the third horizontal inserting plate 302 and the correspondingly arranged seventh vertical plate 304 are connected with the keel on one side, and the fourth horizontal inserting plate 303 and the correspondingly arranged eighth vertical plate 305 are connected with the keel on the other side, so that the keels are fixedly connected.
Preferably, the keel has a U-shaped cavity, the third and fourth lateral insert plates 302 and 303 are disposed to be closely attached to the bottom edge of the U-shaped cavity, and the seventh and eighth vertical plates 304 and 305 are disposed to be closely attached to the side edge of the U-shaped cavity. Furthermore, two sides of the above-mentioned U type cavity of this application are provided with the hem of inside buckling respectively, and the hem sets up to chucking seventh riser 304 and eighth riser 305. In the concrete operation, through the above-mentioned hem of inwards buckling, can be with seventh riser 304 and eighth riser 305 chucking to restrict its roll-off U die cavity body, can effectively improve the stability of connecting
Preferably, to further enable gripping of the seventh riser 304 and the eighth riser 305; in the specific operation of this application, the hem of U type cavity sets up to right angle or acute angle with the contained angle of side. Through the included angle setting of above-mentioned right angle or acute angle, can effectively avoid seventh riser 304 and eighth riser 305 roll-off U type cavity in the installation. In a specific operation, two side edges of the U-shaped cavity are perpendicular to the bottom edge, and the side edges are configured to clamp the third transverse inserting plate 302 and the fourth transverse inserting plate 303. The third transverse inserting plate 302 and the fourth transverse inserting plate 303 are effectively clamped through the side edges of the U-shaped cavity, the seventh vertical plate 304 and the eighth vertical plate 305 are effectively clamped through the folded edges of the U-shaped cavity, and finally, the integral clamping and fixing operation can be realized. The seventh vertical plate 304 and the eighth vertical plate 305 are respectively and vertically connected with the upper surfaces of the third transverse insertion plate 302 and the fourth transverse insertion plate 303.
Preferably, the lower surfaces of the third and fourth transverse insertion plates 302, 303 are flush with the upper surface of the rectangular body 301, and the plate thickness of the rectangular body 301 is equal to that of the keel. In a specific operation, the lower surfaces of the third transverse inserting plate 302 and the fourth transverse inserting plate 303 are flush with the upper surface of the rectangular body 301, so as to connect the rectangular body 301 with the end surface of a keel, and the third transverse inserting plate 302 and the fourth transverse inserting plate 303 are inserted into a U-shaped cavity of the keel, one side of the rectangular body 301 is connected with the keel on one side, and the adjacent side of the rectangular body 301 is connected with the other keel. Wherein, rectangle body 301 chucking is in the tip of fossil fragments, and the third is violently inserted plate 302 and the horizontal picture peg 303 of fourth are installed in the U die cavity internally, can effectively improve connection stability. It should be noted that, as shown in fig. 1 and fig. 2, the mutually perpendicular external corner keels 62 can also be effectively connected through the above-mentioned horizontal right-angle member 300, specifically, the connection can be realized by inserting into the L-shaped cavity and clamping at the inward-bent hem position of the L-shaped cavity; for a specific connection structure, please refer to the connection between the main keels above, which is not described herein again.
As shown in fig. 9 and 10, the vertical right-angle component has the following structure:
the vertical right-angle part 100 may include an L-shaped body, and the L-shaped body includes a third vertical insertion plate 101 and a fourth vertical insertion plate 102 which are connected through respective side edges and are perpendicular to each other; the top edge and the bottom edge of the third vertical inserting plate 101 are both provided with a third transverse plate 103, and the third transverse plate 103 extends outwards and is far away from the fourth vertical inserting plate 102; the top edge and the bottom edge of the fourth vertical insertion plate 102 are provided with a fourth horizontal plate 104, and the fourth horizontal plate 104 extends outwards and is far away from the third vertical insertion plate 101. Further, the third vertical insertion plate 101 and the fourth vertical insertion plate 102, which are perpendicular to each other, may be configured to be inserted into the third main keel 57 and the fourth main keel 58, which are perpendicular to each other, respectively.
In a specific operation, the third main keel 57 and the fourth main keel 58 which are horizontally arranged and mutually perpendicular can be effectively connected through the vertical right-angle piece, wherein the cavity openings of the keels point to one side instead of being arranged upwards; the third vertical insertion plate 101 and the correspondingly arranged third transverse plate 103 are connected with the keel on one side, and the fourth vertical insertion plate 102 and the correspondingly arranged fourth transverse plate 104 are connected with the keel on the other side, so that the keels are fixedly connected.
Preferably, the keel has a U-shaped cavity, the third vertical insertion plate 101 and the fourth vertical insertion plate 102 are disposed to be closely attached to the bottom side of the U-shaped cavity of the keel, and the third horizontal plate 103 and the fourth horizontal plate 104 are disposed to be closely attached to the side of the U-shaped cavity. Further, two sides of the above-mentioned U type cavity of this application are provided with the hem of inside buckling respectively, and the hem sets up to chucking third diaphragm 103 and fourth diaphragm 104. In the concrete operation, through the above-mentioned hem of inwards buckling, can be with third diaphragm 103 and fourth diaphragm 104 chucking to restrict its roll-off U die cavity body, can effectively improve the stability of connecting.
Preferably, in order to further clamp the third transverse plate 103 and the fourth transverse plate 104; in the specific operation of the application, the included angle between the folded edge of the U-shaped cavity and the side edge is set to be a right angle; or the included angle between the folded edge of the U-shaped cavity and the side edge is set to be an acute angle; through the included angle setting of above-mentioned right angle or acute angle, can effectively avoid third diaphragm 103 and fourth diaphragm 104 roll off U type cavity in the installation. In specific operation, two side edges of the U-shaped cavity body can be perpendicular to the bottom edge of the U-shaped cavity body respectively, and the side edges are configured to clamp the third vertical insertion plate 101 and the fourth vertical insertion plate 102. The third vertical inserting plate 101 and the fourth vertical inserting plate 102 are effectively clamped through the side edge of the U-shaped cavity, the third transverse plate 103 and the fourth transverse plate 104 are effectively clamped through the folded edge of the U-shaped cavity, and finally, the whole clamping and fixing operation can be achieved.
As shown in conjunction with figures 11, 12 and 13,
in order to effectively improve the quick connection between the ceiling module and the wall body; preferably, in the operation of the present invention, the side edge of the ceiling horizontal surface 50 connected to the wall body and the top edge of the ceiling vertical surface connected to the wall body may be provided with the hanging keel 17, and the corresponding position of the wall body is provided with the wall-following bearing keel 18 in matching connection with the hanging keel 17.
As shown in fig. 14 and 15, the mounting keel 17 has the following structure:
the hanging keel 17 can comprise a fifth vertical plate 31, a lapping plate 32 and a hanging plate 33, the lapping plate 32 and the hanging plate 33 are respectively arranged at two sides of the fifth vertical plate 31, the lapping plate 32 is connected with the bottom end of the fifth vertical plate 31, and the lapping plate 32 and the fifth vertical plate 31 are arranged to be connected with the edge of a ceiling module to be installed; the hanging plate 33 is connected with the middle part of the fifth vertical plate 31, and the hanging plate 33 is arranged to be hung on the wall bearing keel 18.
In the specific operation, the wall bearing keels 18 can be connected and fixed on the wall in advance, and then the hanging plates of the hanging keels 17 can be hung on the corresponding parts of the wall bearing keels 18, so that the connection of the hanging keels 17 can be realized; wherein the bridging plate 32 of the mounting keel 17 is arranged to support and connect the suspended ceiling system. The installation operation of the whole ceiling system can be realized through the hanging operation between the hanging keel 17 and the wall bearing keel 18.
Preferably, in order to improve the hanging stability of the hanging keel 17; the cavity between the hanging plate 33 and the fifth vertical plate 31 is provided with a hanging cavity 35. In the specific operation, the hanging cavity 35 can be connected with the corresponding hanging part of the bearing keel 18 along the wall in a clamping manner, so that the hanging operation can be realized.
Preferably, in order to optimize the integral connection structure of the mounting keel 17; the tail end of the hanging plate 33 is arranged to be a free end, the tail end is inclined inwards, and the middle of the hanging plate 33 is arranged to be a bending part 34. Wherein, the region between the kink 34 of link plate 33 and the bottom sets up to the chucking and bears the hitch plate of fossil fragments 18 along the wall. In operation, the inwardly inclined bottom edge forms a closing-in of the hanging cavity 35; the inwardly inclined bottom edge may be hooked to a corresponding portion of the load bearing wall runner 18 and the entire hang plate 33 may be inserted into the opposing part of the load bearing wall runner 18.
Further, the bent portion 34 of the hanging plate 33 is provided with the same bent structure as the hanging plate along the wall bearing keel 18. In the concrete operation, the same bending structure can realize the maximum area fitting of the board surface in the connection matching process, and can realize the most stable hanging connection mode.
Preferably, in order to improve the connection stability of the mounting keel 17; the contained angle between the bottom of the above-mentioned fifth riser 31 of this application and the overlap joint board 32 sets up to 90, and the overlap joint board 32 sets up the shaping of bending as an organic whole with fifth riser 31, and link plate 33 sets up to welded connection structure with fifth riser 31. In the specific operation, the vertical arrangement of the lapping plate 32 and the fifth vertical plate 31 can effectively ensure that the lapping plate is kept in a horizontal state; and then, the support furred ceiling module that can be stable.
As shown in fig. 16 and 17, the structure of the wall-mounted keel 18 is as follows:
bear fossil fragments 18 along the wall, can include wall connection board 41, bottom plate 42 and hitch plate 43, the bottom of hitch plate 43 and wall connection board 41's bottom is connected with two sides of bottom plate 42 respectively, and wall connection board 41 sets up to connecting the wall body, and hitch plate 43 sets up to hanging and carries fossil fragments 17.
In the concrete operation, the bearing keels 18 along the wall can be connected and fixed on the wall in advance, and then the corresponding mounting keels 17 can be hung and connected through the hanging plates 43; wherein the mounting keel 17 is arranged to support and connect the ceiling system. The installation operation of the whole ceiling system can be realized through the hanging operation between the hanging keel 17 and the wall bearing keel 18.
Preferably, in order to improve the hanging stability of the hanging plate 43; the top end of the hanging plate 43 in the application is set as a free end, and the top end inclines outwards; the included angle between the bottom end of the hanging plate 43 and the bottom plate 42 is set to be a, and a is less than 90 degrees; the middle portion of the hanging plate 43 is provided as a bent portion 44. Wherein, the area between the bending part 44 and the top end of the hanging plate 43 is set as the insertion guiding area of the hanging keel 17 to be hung; correspondingly, the area between the bending part 44 and the bottom end of the hanging plate 43 is set as a hanging clamping area for hanging the hanging keel 17.
In the specific operation, the corresponding parts of the mounting keel 17 can be inserted through the insertion guide area of the mounting plate 43 and guided to the lower mounting clamping area, so as to realize the corresponding clamping operation. The free end inclined outwards can facilitate the hanging operation of the hanging keel 17; correspondingly, the inwardly bent bottom of the hanging plate 43 and the bent part 44 can clamp the hanging keel 17 on the hanging plate 43.
Preferably, in order to improve the connection stability of the wall-mounted keel 18 and ensure that the hook plate 43 has a certain bending elasticity; the wall connecting plate 41, the bottom plate 42 and the hanging plate 43 in the application can be integrally formed in a bending mode.
In the specific operation, the connection among all the parts of the bearing keel formed by bending has certain elasticity; that is, when the mounting keel 17 is installed, the free end of the mounting plate 43 is pressed to drive the mounting plate 43 to incline outwards together, so that the mounting keel 17 is smoothly mounted on the mounting plate 43; when the mounting keel 17 is mounted at the bottom of the mounting plate 43, the free end of the mounting plate 43 is released, and the free end and the whole mounting plate 43 reversely restore to the initial position, so that the mounting keel 17 is further clamped.
Preferably, in order to improve the stability of the connection between the load bearing keel 18 and the mounting keel 17 along the wall; the bending part 44 of the hanging plate 43 can be provided with the same bending structure as the hanging plate to be hung on the hanging keel 17. In the concrete operation, the same bending structure can realize the maximum area fitting of the board surface in the connection matching process, and can realize the most stable hanging connection mode. In addition, in order to improve the connection stability between the wall connection plate 41 and the bottom plate 42, and the support of the bottom plate 42 can be kept in a horizontal state; preferably, the included angle between the bottom end of the wall connecting plate 41 and the bottom plate 42 is set to be 90 °.
According to the invention, through the optimally arranged connecting components, the ceiling module can be quickly installed, the field installation efficiency can be effectively improved, and the labor intensity of workers can be effectively reduced.
It should be understood by those skilled in the art that the embodiments of the present invention are described above, but the descriptions are only for the purpose of facilitating understanding of the embodiments of the present invention, and are not intended to limit the embodiments of the present invention. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the embodiments of the invention as defined by the appended claims.
Claims (10)
1. The corner ceiling module is characterized by comprising a ceiling vertical surface and a ceiling horizontal surface; the ceiling vertical surface comprises a first vertical surface and a second vertical surface which are vertically arranged and are perpendicular to each other, and the first vertical surface and the second vertical surface form an internal corner of the ceiling module; the ceiling horizontal plane comprises a rectangular plane, a first corner position of the rectangular plane is provided with a right-angle notch, and the first vertical surface and the second vertical surface are vertically connected to the right-angle notch;
two side edges of the ceiling horizontal plane, which are far away from the right-angle gap, are arranged as connecting walls, two side edges of the ceiling horizontal plane, which are close to the right-angle gap, are arranged as connecting straight ceiling modules, and the ceiling horizontal plane is connected with the bottom edge of the ceiling vertical surface through an external corner keel; the top edge of the vertical surface of the suspended ceiling is set as a connecting wall body, and the side edge is set as a connecting straight suspended ceiling module.
2. The corner ceiling module of claim 1, wherein the ceiling level comprises a first main runner, a second main runner, a first cross runner, and a second cross runner; the first main keel and the second main keel are respectively arranged on two side edges of the horizontal plane of the suspended ceiling far away from the right-angle notch; the first auxiliary keel and the second auxiliary keel are respectively arranged on two side edges of the horizontal plane of the suspended ceiling close to the right-angle notch and are vertically connected to the external-angle keel;
the vertical surface of the suspended ceiling comprises a third main keel, a fourth main keel, a third auxiliary keel and a fourth auxiliary keel; the third main keel is arranged on the top edge of the first vertical surface, and the third auxiliary keel is arranged between the third main keel and the external corner keel; the fourth main keel is arranged at the top edge of the second vertical surface, and the fourth auxiliary keel is arranged between the fourth main keel and the external corner keel;
the first main keel, the second main keel, the third main keel, the fourth main keel, the first auxiliary keel, the second auxiliary keel, the third auxiliary keel and the fourth auxiliary keel are all provided with U-shaped cavities.
3. The corner ceiling module of claim 2,
the first main keel and the second main keel are connected through a horizontal right-angle piece, and the third main keel and the fourth main keel are connected through a vertical right-angle piece; the first main keel and the first auxiliary keel, the second main keel and the second auxiliary keel, the third main keel and the third auxiliary keel and the fourth main keel and the fourth auxiliary keel are connected through horizontal card inserting pieces; and the first auxiliary keel, the external corner keel and the third auxiliary keel are connected through a step card inserting piece, and the second auxiliary keel, the external corner keel and the fourth auxiliary keel are connected through a step card inserting piece.
4. The corner ceiling module of claim 3, wherein the step clip comprises a step body comprising a first transverse plate, a first vertical plate, a second transverse plate and a second vertical plate that are vertically connected in sequence and combined to form a step shape; the ladder comprises a ladder body, a first transverse plate, a second transverse plate, a first vertical plate, a second vertical plate and a third transverse plate, wherein the first transverse plate is horizontally arranged at the top end of the ladder body;
the first vertical plate and the second transverse plate are arranged to be connected with the external corner keel, the first transverse plate is arranged to be connected with a third auxiliary keel or a fourth auxiliary keel which is perpendicular to the external corner keel and is vertically arranged, and the second vertical plate is arranged to be connected with a first auxiliary keel or a second auxiliary keel which is perpendicular to the external corner keel and is horizontally arranged;
the external corner keel is provided with an L-shaped cavity, a transverse plate and a vertical plate are respectively arranged on two sides of a cavity opening of the L-shaped cavity, and folded edges bent inwards are respectively arranged at the tail ends of the transverse plate and the vertical plate; the first group of opposite sides of the first transverse plate are provided with first clamping and inserting plates which extend upwards and are vertical to the first transverse plate, and the first group of opposite sides of the first transverse plate are vertical to the side edge of the first transverse plate connected with the first vertical plate; two sides of the first vertical plate are provided with first clamping and hanging plates which extend towards the inner side of the ladder and are vertical to the first vertical plate;
two sides of the second vertical plate are provided with second card inserting plates which extend towards the outer side of the ladder and are vertical to the second vertical plate; the first group of opposite sides of the second transverse plate are provided with second clamping and hanging plates which extend downwards and are vertical to the second transverse plate, and the first group of opposite sides of the second transverse plate are vertical to the side edge of the second transverse plate connected with the second vertical plate; two side edges of the U-shaped cavity are tightly attached to and connected with the first card inserting plate and the second card inserting plate, and the inward bent folded edge of the U-shaped cavity is arranged to clamp the first card inserting plate and the second card inserting plate; hook-shaped structures are symmetrically arranged on both sides of the first clamping and hanging plate and both sides of the second clamping and hanging plate, and the hook-shaped structures are arranged to hook the inward bent hems of the L-shaped cavity.
5. The corner ceiling module of claim 3, wherein the horizontal card insert comprises a first horizontal insert plate and a first vertical insert plate that are perpendicular to each other, wherein a side edge of the first horizontal insert plate is connected to a top edge of the first vertical insert plate, the first horizontal insert plate is configured to connect to the main runner, and the first vertical insert plate is configured to connect to the cross runner;
the first group of opposite sides of the first transverse inserting plate are provided with third vertical plates which extend downwards and are vertical to the first transverse inserting plate, the first group of opposite sides of the first transverse inserting plate are vertical to the side edges of the first transverse inserting plate connected with the first vertical inserting plate, and hook-shaped structures are symmetrically arranged on two sides of each third vertical plate; the first group of opposite sides of the first vertical inserting plate are provided with fourth vertical plates which extend outwards and are vertical to the first vertical inserting plate, and the first group of opposite sides of the first vertical inserting plate are vertical to the side edges of the first vertical inserting plate connected with the first transverse inserting plate;
the first transverse inserting plate is arranged to be hooked with the inward bent folded edge of the U-shaped cavity through the hook-shaped structure of the third vertical plate; the first vertical inserting plate is vertically inserted into the U-shaped cavity, and the symmetrically arranged fourth vertical plates are respectively tightly attached to two sides of the U-shaped cavity.
6. The corner ceiling module according to claim 3, wherein the horizontal right-angle member comprises a rectangular body, and adjacent sides of the rectangular body are respectively provided with a third horizontal insertion plate and a fourth horizontal insertion plate which are flush with each other; the third transverse inserting plate and the fourth transverse inserting plate are arranged in parallel on the rectangular body; the first group of opposite sides of the third transverse inserting plate are provided with seventh vertical plates extending upwards and are perpendicular to the side edges of the third transverse inserting plate connected with the rectangular body; the first group of opposite sides of the fourth transverse inserting plate are provided with eighth vertical plates extending upwards and are perpendicular to the side edges of the fourth transverse inserting plate connected with the rectangular body;
the third transverse inserting plate and the fourth transverse inserting plate are respectively inserted into the first main keel and the second main keel which are vertically connected with each other; the third transverse inserting plate and the fourth transverse inserting plate are arranged to be tightly attached to the bottom edge of the U-shaped cavity, and the seventh vertical plate and the eighth vertical plate are arranged to be tightly attached to the side edge of the U-shaped cavity; two side edges of the U-shaped cavity are respectively provided with a folded edge which is bent inwards, and the folded edges are used for clamping a seventh vertical plate and an eighth vertical plate; two side edges of the U-shaped cavity are perpendicular to the bottom edge, and the side edges are arranged to clamp the third transverse inserting plate and the fourth transverse inserting plate; the lower surfaces of the third transverse inserting plate and the fourth transverse inserting plate are flush with the upper surface of the rectangular body, and the thickness of the plate of the rectangular body is equal to that of the keel.
7. The corner ceiling module of claim 3, wherein the vertical right angle piece comprises an L-shaped body, the L-shaped body comprising a third vertical insert plate and a fourth vertical insert plate that are connected by respective side edges and are perpendicular to each other; the top edge and the bottom edge of the third vertical inserting plate are provided with third transverse plates, and the third transverse plates extend outwards and are far away from the fourth vertical inserting plate; the top edge and the bottom edge of the fourth vertical inserting plate are provided with fourth transverse plates, and the fourth transverse plates extend outwards and are far away from the third vertical inserting plate;
the third vertical inserting plate and the fourth vertical inserting plate which are vertical to each other are arranged to be respectively inserted into the third main keel and the fourth main keel which are vertically connected with each other; the third vertical inserting plate and the fourth vertical inserting plate are arranged to be tightly attached to the bottom edge of the U-shaped cavity, and the third transverse plate and the fourth transverse plate are arranged to be tightly attached to the side edge of the U-shaped cavity; two side edges of the U-shaped cavity are respectively provided with a folded edge which is bent inwards, and the folded edges are used for clamping the third transverse plate and the fourth transverse plate; two side edges of the U-shaped cavity are respectively vertical to the bottom edge of the U-shaped cavity, and the side edges are arranged to clamp the third vertical inserting plate and the fourth vertical inserting plate.
8. The corner ceiling module according to any one of claims 1 to 7, wherein the side edge of the ceiling horizontal plane connected with the wall body and the top edge of the ceiling vertical plane connected with the wall body are provided with hanging keels, and the wall body is provided with wall-following bearing keels matched and connected with the hanging keels at corresponding positions.
9. The corner ceiling module of claim 8,
the hanging keel comprises a fifth vertical plate, a lapping plate and a hanging plate, the lapping plate and the hanging plate are respectively arranged on two sides of the fifth vertical plate, the lapping plate is connected with the bottom end of the fifth vertical plate, and the lapping plate and the fifth vertical plate are arranged to be connected with the edge of the suspended ceiling module; the hanging plate is connected with the middle part of the fifth vertical plate and is arranged to be hung on a bearing keel along the wall;
a cavity between the hanging plate and the fifth vertical plate is set as a hanging cavity; the tail end of the hanging plate is a free end, the tail end is inclined inwards, and the middle part of the hanging plate is a bent part; the area between the bending part and the tail end of the hanging plate is provided with a hanging plate for clamping the bearing keel along the wall; the bending part of the hanging plate and the hanging plate along the wall bearing keel are provided with the same bending structure; the bottom of fifth riser sets up to 90 with the contained angle between the lapping plate.
10. The corner ceiling module of claim 8,
the wall-following bearing keel comprises a wall connecting plate, a bottom plate and a hanging plate, wherein the bottom end of the wall connecting plate at the bottom end of the hanging plate is respectively connected with two side edges of the bottom plate, the wall connecting plate is arranged to be connected with a wall, and the hanging plate is arranged to be a hanging keel;
the top end of the hanging plate is set to be a free end, and the top end of the hanging plate is inclined outwards; the included angle between the bottom end of the hanging plate and the bottom plate is set to be a, and a is smaller than 90 degrees; the middle part of the hanging plate is provided with a bent part; the area between the bending part and the top end of the hanging plate is set as an insertion guide area of the hanging keel to be hung; the area between the bending part and the bottom end of the hanging plate is set as a hanging clamping area of the hanging keel to be hung; the bending part of the hanging plate and the hanging plate to be hung with the hanging keel are provided with the same bending structure; the included angle between the bottom end of the wall connecting plate and the bottom plate is set to be 90 degrees.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201710111026.7A CN108505664B (en) | 2017-02-27 | 2017-02-27 | Corner suspended ceiling module |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201710111026.7A CN108505664B (en) | 2017-02-27 | 2017-02-27 | Corner suspended ceiling module |
Publications (2)
Publication Number | Publication Date |
---|---|
CN108505664A CN108505664A (en) | 2018-09-07 |
CN108505664B true CN108505664B (en) | 2020-05-29 |
Family
ID=63374224
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201710111026.7A Active CN108505664B (en) | 2017-02-27 | 2017-02-27 | Corner suspended ceiling module |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN108505664B (en) |
Families Citing this family (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109736504B (en) * | 2019-01-25 | 2024-08-02 | 中建一局集团装饰工程有限公司 | Detachable suspended ceiling edge keel system and construction method thereof |
CN111075099B (en) * | 2019-12-30 | 2024-07-12 | 浙江亚厦装饰股份有限公司 | Clamping type suspended ceiling device and suspended ceiling method convenient for large plate installation |
CN111173187B (en) * | 2020-01-13 | 2021-09-21 | 江苏标榜装饰新材料股份有限公司 | Production method of corner ceiling board |
CN112780019A (en) * | 2021-01-26 | 2021-05-11 | 山东集顶装饰科技有限公司 | Corner reinforcement for ceiling keel and connecting structure thereof |
Family Cites Families (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP4698060B2 (en) * | 2001-05-08 | 2011-06-08 | 太陽工業株式会社 | Ceiling membrane material mounting structure |
CN202324285U (en) * | 2011-12-01 | 2012-07-11 | 邹建林 | Novel stereoscopic suspended ceiling |
CN203977672U (en) * | 2014-07-29 | 2014-12-03 | 上海圣峰建材科技有限公司 | A kind of roof suspended ceiling integrated member |
CN204456575U (en) * | 2015-01-28 | 2015-07-08 | 寻杰 | Split module plaster tablet suspended ceiling |
CN204940656U (en) * | 2015-07-31 | 2016-01-06 | 深圳市富山厚土建材有限公司 | A kind of module unit type furred ceiling |
CN106223525A (en) * | 2016-09-14 | 2016-12-14 | 芝加哥金属制品(深圳)有限公司 | Furred ceiling assembly |
-
2017
- 2017-02-27 CN CN201710111026.7A patent/CN108505664B/en active Active
Also Published As
Publication number | Publication date |
---|---|
CN108505664A (en) | 2018-09-07 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN108505664B (en) | Corner suspended ceiling module | |
CN107268866B (en) | Combined type grade-falling suspended ceiling and installation method | |
CN107268865B (en) | Modular drop-level ceiling device and installation method | |
CN108505669B (en) | Annular ceiling system | |
CN109763596B (en) | Assembled light steel keel gypsum thistle board ceiling system and construction method thereof | |
CN109322428B (en) | Window wall system unit type curtain wall and installation method thereof | |
CN102102417B (en) | Exposed keel structural member | |
CN108505667B (en) | Straight type furred ceiling module | |
CN112302235A (en) | Access hole design structure integrated on ceiling board and installation method thereof | |
CN109235738B (en) | Novel furred ceiling fossil fragments mounting structure | |
CN206636029U (en) | A kind of horizontal card plug-in unit | |
CN206636026U (en) | A kind of Novel ceiling attachment structure | |
CN110499876A (en) | A kind of aluminium alloy wall of construction and decoration and related construction and decoration | |
CN205296536U (en) | Joint formula keel connecting piece | |
CN206752801U (en) | A kind of keelson structure, keelson attachment structure and ceiling system | |
CN206636028U (en) | A kind of level right angle part | |
CN210395925U (en) | Detachable integrated wallboard | |
CN210622074U (en) | Suspended ceiling side plate system | |
CN206752804U (en) | A kind of vertical angled piece | |
CN220521722U (en) | Buckle formula fossil fragments | |
CN206174253U (en) | Secretly insert mineral wool board | |
CN215594570U (en) | Keel keel for ceiling keel | |
CN204551859U (en) | A kind of furred ceiling corner syndeton | |
CN203515225U (en) | Novel corner brace and window frame system using same | |
CN216920955U (en) | Mounting structure of fossil fragments and worker's word piece |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PB01 | Publication | ||
PB01 | Publication | ||
SE01 | Entry into force of request for substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
GR01 | Patent grant | ||
GR01 | Patent grant |