CN114277997A

CN114277997A - Digital space positioning assembly type construction system for special-shaped suspended ceiling

Info

Publication number: CN114277997A
Application number: CN202210047592.7A
Authority: CN
Inventors: 刘曦镁; 雷凤亮; 李瑜; 刘豁达
Original assignee: Beijing Jianyuan Decoration Engineering Design Co ltd
Current assignee: Beijing Jianyuan Decoration Engineering Design Co ltd
Priority date: 2022-01-17
Filing date: 2022-01-17
Publication date: 2022-04-05

Abstract

The application relates to the field of building installation, in particular to a digital space positioning assembly type construction system for a special-shaped suspended ceiling, which comprises a conversion layer steel frame, a vertically arranged hanging rod and a suspended ceiling panel, wherein the conversion layer steel frame is used for being connected with a ridge beam; be provided with second coupling assembling between jib and the furred ceiling panel, be arbitrary angle setting through second coupling assembling between furred ceiling panel and the jib. This application has and to realize being convenient for being connected between ridge roof beam and the special-shaped furred ceiling, simplifies the effect of the construction degree of difficulty to the installation of special-shaped furred ceiling.

Description

Digital space positioning assembly type construction system for special-shaped suspended ceiling

Technical Field

The application relates to the field of building installation, in particular to a digital space positioning assembly type construction system for a special-shaped suspended ceiling.

Background

The suspended ceiling is decoration for decorating the top of the residential environment of a house. In short, it refers to the decoration of ceiling, which is one of the important parts of interior decoration. The suspended ceiling has the functions of heat preservation, heat insulation, sound insulation and sound absorption, and is also a hidden layer for projects such as electric, ventilation air-conditioning, communication and fire prevention, alarm pipeline equipment and the like.

In the fitment field, the space span that the furred ceiling was used is bigger and bigger, and the height sets up more and more highly, and for example many large-scale buildings use the ridge roof system of large-span more, for decorating the ridge roof, install special-shaped furred ceiling in order to strengthen decorative effect on the ridge usually. However, when the special-shaped ceiling suspended ceiling is installed on the ridge beam structure in a tall and large space, the construction difficulty is high in the face of the long-span ridge beam structure with a complex structure. Especially, when facing the ridge beam with a non-planar structure, the smooth transition between the ridge beam and the special-shaped suspended ceiling is difficult to realize, and the construction difficulty is higher.

Disclosure of Invention

In order to realize being connected between ridge beam and the special-shaped furred ceiling, the simplified construction degree of difficulty is convenient for to the installation of special-shaped furred ceiling, this application provides a digital space orientation assembled construction system of special-shaped furred ceiling.

The application provides a digital space orientation assembled construction system of dysmorphism furred ceiling adopts following technical scheme:

a digital space positioning assembly type construction system for a special-shaped suspended ceiling comprises a conversion layer steel frame, a vertically arranged hanging rod and a suspended ceiling panel, wherein the conversion layer steel frame is used for being connected with a ridge beam, the vertically arranged hanging rod is connected to the lower side of the conversion layer steel frame, the suspended ceiling panel is connected to the lower end of the hanging rod, the conversion layer steel frame comprises a plurality of groups of steel frame groups, each steel frame group comprises a vertically arranged mounting beam and a connecting beam vertically and fixedly connected to one side of the mounting beam, one end, away from the mounting beam, of each connecting beam is connected with the mounting beam on the other steel frame group, a first connecting assembly is arranged between the mounting beam and the ridge beam, and the mounting beams and the ridge beam can be arranged at any angle through the first connecting assemblies; the jib with be provided with second coupling assembling between the furred ceiling panel, the furred ceiling panel with pass through between the jib second coupling assembling is arbitrary angle setting.

Through adopting above-mentioned technical scheme, during the installation, can be so that to be arbitrary angle setting between installation roof beam and the ridge roof beam through first coupling assembly to the inclination that adapts to the ridge roof beam changes, and suitable no matter what kind of form is the ridge roof beam, can both keep vertical state, the installation of being convenient for next installation on the ridge roof beam through first coupling assembly. When needs are installed the furred ceiling panel on the jib, can be so that to be arbitrary angle setting between furred ceiling panel and the jib through second coupling assembling for no matter what kind of form is to the furred ceiling panel, can both install on the jib of vertical setting through second coupling assembling. The installation of realization to special-shaped furred ceiling is convenient for be connected between ridge roof beam and the special-shaped furred ceiling, has simplified the construction degree of difficulty, and the installation is more convenient.

Optionally, first connecting element includes the staple bolt, the staple bolt includes that first armful encircles and the second is embraced the ring, first armful encircle with the second is embraced and is encircled the ring opening and set up relatively, first armful encircle with the second is embraced and is encircled open-ended both sides and all outwards bending type and is had the turn-ups, wears to establish first armful ring and second and embraces the turn-ups of encircling with one side and have fixing bolt, every equal threaded connection has fixation nut on the fixing bolt, wherein the fixing bolt of one side wears to establish on the installation roof beam.

Through adopting above-mentioned technical scheme, can install the installation roof beam on the ridge roof beam through the staple bolt, rotate around fixing bolt's axis through operation installation roof beam, can change the installation angle between installation roof beam and the ridge roof beam, can fix the installation angle of installation roof beam and ridge roof beam through fixation nut, accomplish the installation of installation roof beam and ridge roof beam.

Optionally, the upper end of the suspender penetrates through the connecting beam, the suspender is in threaded connection with two mounting nuts, and the two mounting nuts are respectively located on the upper side and the lower side of the connecting beam.

Through adopting above-mentioned technical scheme, during the installation, two mounting nuts can the centre gripping in the relative both sides of tie-beam to fix the relative position of jib and tie-beam.

Optionally, the second coupling assembling includes the rigid coupling is in the whole first mounting panel that is the L form of jib lower extreme, articulate the second mounting panel of first mounting panel downside, be used for fixed first mounting panel and second mounting panel relative position's spacing bolt and rigid coupling are in the fossil fragments subassembly of second mounting panel downside, the furred ceiling panel rigid coupling is in on the fossil fragments subassembly.

Through adopting above-mentioned technical scheme, can fix the furred ceiling panel on the second mounting panel through the fossil fragments subassembly, rotate around the articulated shaft with first mounting panel through operating the second mounting panel, can adjust the angle of first mounting panel and second mounting panel to adapt to non-planar structure furred ceiling panel's installation needs, can fix the relative position of first mounting panel and second mounting panel through spacing bolt.

Optionally, the first mounting panel orientation the one end of second mounting panel and the second mounting panel orientation the equal rigid coupling of one end of first mounting panel has the limiting plate, two the center of limiting plate is articulated, every spacing hole has all been seted up on the limiting plate, spacing bolt wears to locate in the spacing hole of two limiting plates simultaneously, threaded connection has stop nut on the spacing bolt.

Through adopting above-mentioned technical scheme, rotate around articulated shaft between them relatively through operating two limiting plates, can change the angle of first mounting panel and second mounting panel, can fix the relative position of two limiting plates through spacing bolt and stop nut to the installation needs of adaptation dysmorphism furred ceiling.

Optionally, the keel assembly comprises a main keel and a secondary keel, a main hanging piece is arranged between the main keel and the second mounting plate, a secondary hanging piece is arranged between the main keel and the secondary keel, and the secondary keel is fixedly connected with the ceiling panel; one end of the main hanging piece is fixedly connected with the second mounting plate, and the other end of the main hanging piece is bent to form an embedding space for the main keel to be inserted into; one end of the secondary hanging piece is sleeved on the main keel, and the other end of the secondary hanging piece is embedded into the inner hole of the secondary keel and is matched with the secondary keel in a hooking manner.

By adopting the technical scheme, the main hanging piece is fixedly connected to the second mounting plate, and then the main keel is inserted into the embedding space, so that the main keel can be fixed on the second mounting plate; the secondary hanging piece is sleeved on the main keel, the other end of the secondary hanging piece is hooked on the secondary keel, and the secondary keel can be fixed, so that the suspended ceiling panel fixedly connected to the secondary keel is fixedly connected to the second mounting plate.

Optionally, the ceiling panels are provided with a plurality of ceiling panels, a lamp assembly is arranged between two adjacent ceiling panels, and the lamp assembly is arranged on the connecting beam.

Through adopting above-mentioned technical scheme, avoid producing between lamps and lanterns subassembly and the furred ceiling panel and interfere.

Optionally, the lamp assembly comprises a steel mesh which is integrally U-shaped, an opening of the steel mesh is arranged downwards to form an installation space for installing a lamp, the lamp is installed in the installation space, and one side of the steel mesh, which deviates from the opening end of the steel mesh, is connected to the connecting beam through the hanging rod.

Through adopting above-mentioned technical scheme, can realize fixing the steel mesh on the tie-beam through the jib, realize the installation of lamps and lanterns.

Optionally, the conversion floor steel frame is provided with a plurality ofly, and is a plurality of conversion floor steel frame parallel arrangement, adjacent two the rigid coupling has the connecting rod between the conversion floor steel frame, be provided with the maintenance packway of being convenient for overhaul lamp module on the connecting rod, it includes the rigid coupling and is in to overhaul packway and rigid coupling on the connecting rod are in the handrail of the relative both sides of packway.

Through adopting above-mentioned technical scheme, the setting of maintenance packway, the staff of being convenient for maintains lamps and lanterns on the maintenance packway, and it is more convenient to overhaul.

Optionally, the hanger rod comprises an upper rod connected with the connection beam and a lower rod connected with the ceiling panel, one end of the upper rod, which is far away from the connection beam, is rotatably connected with a connection cylinder, and one end of the lower rod, which is far away from the ceiling panel, is in threaded connection with the connection cylinder; the lower rod is in sliding fit with the upper rod, and one end of the upper rod, facing the connecting cylinder, is provided with an adjusting hole for the lower rod to slide in.

Through adopting above-mentioned technical scheme, through rotating the connecting cylinder, can drive the lower beam with connecting cylinder threaded connection and slide to adjusting the hole in, perhaps follow adjusting the hole roll-off to adjust the relative position between upper boom and the lower beam, realize the regulation to jib length.

In summary, the present application includes at least one of the following beneficial technical effects:

the first connecting assembly and the second connecting assembly can be used for adjusting and mounting any angle between the mounting beam and the ridge beam, and can also be used for adjusting and mounting any angle between the ceiling panel and the suspender, so that the special-shaped ceiling can be mounted, the ridge beam and the special-shaped ceiling can be conveniently connected, the construction difficulty is simplified, and the construction efficiency is improved;

the arrangement of the maintenance riding track can facilitate the workers to maintain the lamps, and the installation, the disassembly and the maintenance are very convenient;

the setting of upper boom, lower beam and connecting cylinder for can adjust the relative position of upper boom and lower beam through the swivelling joint section of thick bamboo, with the length of adjusting the davit, make can carry out the adjustment of adaptability according to actual conditions in the installation, it is more convenient to install.

Drawings

Fig. 1 is a structural schematic diagram of the entirety of the present application.

Fig. 2 is a schematic structural diagram of another perspective of the present application.

Fig. 3 is an enlarged schematic view at a in fig. 2.

Fig. 4 is a schematic view of a second connecting member structure.

Fig. 5 is a schematic view for embodying the boom structure.

Description of reference numerals: 1. a conversion layer steel frame; 11. a steel frame group; 111. mounting a beam; 112. a connecting beam; 113. reinforcing ribs; 114. mounting a nut; 12. a connecting rod; 2. a boom; 21. a rod is arranged; 211. an adjustment hole; 212. a card slot; 213. rotating the ring; 22. a lower rod; 221. a clamping block; 23. a connecting cylinder; 231. rotating the groove; 3. a ceiling panel; 4. a first connection assembly; 41. a first embracing ring; 42. a second embracing ring; 43. fixing the bolt; 44. fixing a nut; 5. a second connection assembly; 51. a first mounting plate; 52. a second mounting plate; 53. a keel assembly; 531. a main keel; 532. a secondary keel; 533. a main hanging part; 534. a secondary hanging piece; 535. an embedding space; 54. a limiting plate; 541. a limiting hole; 55. a limit bolt; 56. a limit nut; 6. a lamp assembly; 61. a steel mesh; 62. an installation space; 63. a light fixture; 7. overhauling the packway; 71. a steel frame net; 72. a handrail; 8. a ridge beam.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses digital space positioning assembly type construction system for special-shaped suspended ceilings. Referring to fig. 1, the digital space-orientation fabricated construction system for a special-shaped suspended ceiling comprises a conversion layer steel frame 1 installed on a ridge beam 8, a vertically arranged hanger rod 2 connected to the lower side of the conversion layer steel frame 1, and a suspended ceiling panel 3 connected to the lower end of the hanger rod 2.

Referring to fig. 1 and 2, the conversion layer steel frame 1 includes a plurality of sets of steel frame groups 11 arranged side by side, each steel frame group 11 includes a vertically arranged mounting beam 111 and a connecting beam 112 vertically and fixedly connected to one side of the mounting beam 111, and one end of the connecting beam 112 far away from the mounting beam 111 is connected to the mounting beam 111 on another set of steel frame group 11. Be provided with first connecting assembly 4 between installation roof beam 111 and spine roof beam 8, can be arbitrary angle setting through first connecting assembly 4 between installation roof beam 111 and the spine roof beam 8 to make no matter what kind of form is of spine roof beam 8, can both guarantee that the installation roof beam 111 of installing on spine roof beam 8 through first connecting assembly 4 is vertical state. The jib 2 rigid coupling just is provided with a plurality ofly along the length direction interval of tie-beam 112 at tie-beam 112 downside, is provided with second coupling assembling 5 between 2 lower extremes of jib and the suspended ceiling panel 3, can be arbitrary angle setting through second coupling assembling 5 between jib 2 and the suspended ceiling panel 3 to make whatever form the suspended ceiling panel 3 that need the installation is, all can install on the jib 2 of vertical setting.

Meanwhile, in order to ensure the mounting firmness of the connection beam 112, a reinforcing rib 113 is further fixedly connected between the connection beam 112 and the mounting beam 111.

Referring to fig. 2 and 3, the first connecting assembly 4 includes a hoop, the hoop includes a first hoop 41 and a second hoop 42 having a shape identical to that of the first hoop 41, and the first hoop 41 and the second hoop 42 are oppositely opened. The two sides of the opening ends of the first embracing ring 41 and the second embracing ring 42 are both bent outwards to form flanges, the flanges penetrating the first embracing ring 41 and the second embracing ring 42 at the same side are provided with fixing bolts 43, and fixing nuts 44 are connected to the fixing bolts 43 in a threaded manner. The fixing bolt 43 on one side is simultaneously threaded through the first hoop 41, the second hoop 42 and the mounting beam 111. The installation beam 111 can be hinged to the anchor ear through the fixing bolt 43, and during installation, the installation beam 111 can be operated to rotate around the axis of the fixing bolt 43 so as to change the angle between the installation beam 111 and the ridge beam 8, so that the installation beam 111 always keeps vertical arrangement. By screwing the fixing nut 44, the position of the mounting beam 111 can be fixed, and the mounting beam 111 is always kept in a vertical state under the action of gravity of the ceiling panel 3.

Referring to fig. 1 and 4, the suspension rod 2 may be a threaded rod, the upper end of the suspension rod 2 penetrates through the upper and lower sides of the coupling beam 112, two mounting nuts 114 are threadedly connected to the suspension rod 2, the two mounting nuts 114 are respectively located on the upper and lower sides of the coupling beam 112, and the position of the coupling beam 112 on the suspension rod 2 can be clamped by the mounting nuts 114 to fix the relative positions of the coupling beam 112 and the suspension rod 2.

The second connecting assembly 5 comprises a first mounting plate 51 fixedly connected to the lower end of the suspension rod 2 and integrally formed in an L shape, a second mounting plate 52 rotatably connected to the lower side of the first mounting plate 51, and a keel assembly 53 arranged on the lower side of the second mounting plate 52, and the ceiling panel 3 is connected to the keel assembly 53. The keel assembly 53 may provide support for the ceiling panel 3, facilitating installation of the ceiling panel 3.

Wherein, fossil fragments subassembly 53 includes main joist 531 and the secondary joist 532 of being connected perpendicularly with main joist 531, and suspended ceiling panel 3 rigid coupling is on secondary joist 532. A main hanger 533 is provided between the main keel 531 and the second mounting plate 52, and the main keel 531 is fixed to the second mounting plate 52 by the main hanger 533. One end of the main hanging member 533 is fixedly connected to the second mounting plate 52 through a bolt, the other end of the main hanging member 533 is continuously bent twice by 90 degrees to form an embedding space 535 for the main keel 531 to be inserted into, and the main keel 531 is fixed on the second mounting plate 52 through the main hanging member 533 by inserting the main keel 531 into the embedding space 535. A secondary hanging piece 534 is arranged between the main keel 531 and the secondary keel 532, one end of the secondary hanging piece 534 is sleeved on the main keel 531, and the other end of the secondary hanging piece 534 is embedded in the inner hole of the secondary keel 532 and is matched with the secondary keel 532 in a hooking way. The secondary hanging piece 534 is sleeved on the main keel 531 from one end of the main keel 531, and slides into the inner hole of the secondary keel 532 from one end of the secondary keel 532, so that the fixation of the secondary keel 532 and the main keel 531 can be realized, and the installation and fixation of the ceiling panel 3 can be realized.

The first mounting plate 51 is rotatably connected to the second mounting plate 52, specifically, a limiting plate 54 is fixedly connected to one end of the first mounting plate 51 facing the second mounting plate 52 and one end of the second mounting plate 52 facing the first mounting plate 51, and centers of the two limiting plates 54 are rotatably connected. Each of the limiting plates 54 is provided with an arc-shaped limiting hole 541, the plurality of limiting holes 541 are spaced around the rotation axis of the limiting plate 54, and the application takes three limiting holes 541 formed in each of the limiting plates 54 as an example for explanation. The limiting holes 541 which penetrate through the corresponding positions of the two limiting plates 54 are penetrated with limiting bolts 55, and limiting nuts 56 are connected to the limiting bolts 55 through threads. The included angle between the first mounting plate 51 and the second mounting plate 52 can be changed by operating the two limiting plates 54 to rotate relatively, and the relative position between the two limiting plates 54 can be fixed by the limiting bolt 55 and the limiting nut 56 so as to adapt to the mounting requirements of the suspended ceiling panels 3 with different inclination degrees.

Referring to fig. 5, in order to adjust the installation height of the ceiling panel 3 according to actual conditions during installation, the suspension lever 2 includes an upper lever 21 connected to the connection beam 112 and a lower lever 22 connected to the first installation plate 51, and the upper lever 21 is slidably connected to the lower lever 22. Specifically, a connecting cylinder 23 is rotatably connected to one end of the upper rod 21 away from the connecting beam 112, and one end of the lower rod 22 away from the first mounting plate 51 is located in an inner hole of the connecting cylinder 23 and is in threaded connection with the connecting cylinder 23. When the length of the suspender 2 needs to be adjusted in the installation process, the connecting cylinder 23 is directly rotated, the connecting cylinder 23 rotates relative to the upper rod 21, and the lower rod 22 in threaded connection with the connecting cylinder 23 slides up and down along the axial direction of the connecting cylinder 23 along with the rotation of the connecting cylinder 23, so that the length of the suspender 2 is adjusted. Wherein, the adjusting hole 211 for the lower rod 22 to slide into is opened at one end of the upper rod 21 facing the lower rod 22, so that the adjusting range of the suspension rod 2 can be increased.

In order to avoid that the lower rod 22 rotates synchronously with the connecting cylinder 23 when the connecting cylinder 23 rotates, a clamping block 221 is fixedly connected to the outer wall of the lower rod 22, a clamping groove 212 for the clamping block 221 to slide is formed in the upper rod 21, and the clamping groove 212 is formed in the hole wall of the adjusting hole 211. When the connecting cylinder 23 is rotated, the lower rod 22 slides up and down relative to the upper rod 21, and the latch 221 also slides in the latch groove 212, so that the length of the hanger bar 2 can be smoothly adjusted. The relative positions of the upper rod 21 and the lower rod 22 can be adjusted under the condition that the upper rod 21 and the lower rod 22 are not rotated, the connection strength between the upper rod 21 and the lower rod 22 is ensured, and the adjustment is more convenient.

Referring to fig. 5, a rotation ring 213 is fixed to an outer wall of the upper rod 21, a rotation groove 231 into which the rotation ring 213 is inserted is formed in an inner wall of the connecting cylinder 23, and the upper rod 21 and the connecting cylinder 23 can be rotatably connected by the cooperation of the rotation ring 213 and the rotation groove 231.

Referring to fig. 1 and 2, the ceiling panels 3 are provided with a plurality of blocks, the lamp assembly 6 is provided between two adjacent ceiling panels 3, and the lamp assembly 6 is mounted on the connection beam 112.

Specifically, the lamp assembly 6 includes a steel mesh 61 which is U-shaped as a whole, an opening of the steel mesh 61 is downward to form an installation space 62 for installing the lamp 63, the lamp 63 is installed in the installation space 62, and one side of the steel mesh 61 departing from the opening is fixedly connected to the connecting beam 112 through the suspension rod 2.

Simultaneously, every furred ceiling panel 3 all upwards buckles towards the one end of lamps and lanterns subassembly 6 and forms the turn-ups, and the turn-ups is arranged in the U-shaped opening of steel mesh 61 for people can only see furred ceiling panel 3 and be located the lamps and lanterns 63 between two adjacent furred ceiling panels 3 in the below, and the outward appearance is more pleasing to the eye.

Wherein, in order to facilitate the subsequent maintenance of the lamp 63, a maintenance walkway 7 for maintaining the lamp 63 is further provided. Specifically, the conversion layer steel frames 1 are arranged in a plurality of numbers, the conversion layer steel frames 1 are arranged in parallel, and the connecting rods 12 are fixedly connected between two adjacent conversion layer steel frames 1, and the application takes the example that the conversion layer steel frames 1 are arranged in two numbers as an example for explanation. The maintenance walkway 7 is arranged on the connecting rod 12 between the two transfer floor steel frames 1.

Referring to fig. 2, the access corridors 7 include a steel frame net 71 fixedly connected to the connecting rods 12 and handrails 72 fixedly connected to opposite sides of the steel frame net 71. When lamps 63 need to be overhauled, workers directly stand on the overhauling packway 7, remove the suspension rods 2 on the lamp assemblies 6 from the connecting beams 112, directly lift the lamp assemblies 6 upwards, lift the lamp assemblies 6 to the overhauling packway 7, and directly overhaul the lamps 63 on the overhauling packway 7.

The implementation principle of the digital space positioning assembly type construction system for the special-shaped suspended ceiling is as follows: when the special-shaped suspended ceiling is constructed, firstly, a three-dimensional model is established by using a BIM technology, the space coordinates of the ridge beam are input into three-dimensional modeling software for fitting, modeling is performed in the three-dimensional modeling software, and the shape and the size of the special-shaped suspended ceiling to be constructed are obtained, so that the space installation positions and the machining sizes of the conversion layer steel frame 1, the suspender 2 and the suspended ceiling panel 3 are obtained. During the installation, directly link together a plurality of conversion layer steelframes 1 subaerial, then directly hoist and mount whole conversion layer steelframe 1 to ridge 8 downside, through the staple bolt with conversion layer steelframe 1 install on ridge 8 can. Then install lamp subassembly 6 on tie-beam 112 through jib 2, fix ceiling panel 3 on jib 2 through second coupling assembling 5 subaerial at last, the ceiling panel 3 integral hoisting who will assemble the completion again to tie-beam 112 downside, through fixing jib 2 on tie-beam 112, can accomplish ceiling panel 3's installation. During installation, the connector barrel 23 can be rotated as needed to adjust the length of the boom 2. When lamps 63 need to be overhauled subsequently, workers can directly remove the connection relation between the hanger rods 2 used for hoisting the lamps 63 and the conversion layer steel frame 1 on the overhauling packway 7, the workers directly lift the lamps 63 on the overhauling packway 7, the lamps 63 can be overhauled on the overhauling packway 7, and overhauling is very convenient.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The utility model provides a digital space orientation assembled construction system of dysmorphism furred ceiling which characterized in that: the ceiling structure comprises a conversion layer steel frame (1) connected with a ridge beam (8), a vertically arranged suspender (2) connected to the lower side of the conversion layer steel frame (1) and a ceiling panel (3) connected to the lower end of the suspender (2), wherein the conversion layer steel frame (1) comprises a plurality of groups of steel frame groups (11), each steel frame group (11) comprises a vertically arranged installation beam (111) and a connecting beam (112) vertically and fixedly connected to one side of the installation beam (111), one end, far away from the installation beam (111), of each connecting beam (112) is connected with the installation beam (111) on the other steel frame group (11), a first connecting assembly (4) is arranged between each installation beam (111) and the ridge beam (8), and the installation beams (111) and the ridge beam (8) can be arranged at any angle through the first connecting assemblies (4); the hanger rod (2) and be provided with second coupling assembling (5) between furred ceiling panel (3), furred ceiling panel (3) with pass through between hanger rod (2) second coupling assembling (5) are arbitrary angle setting.

2. The digital spatial orientation fabricated construction system of a special-shaped suspended ceiling of claim 1, wherein: first connecting element (4) are including the staple bolt, the staple bolt includes that first armful encircles (41) and second armful encircles (42), first armful encircle (41) with second armful encircles (42) opening and sets up relatively, first armful encircle (41) with the second is embraced and is encircled (42) open-ended both sides and all outwards buckles and be formed with the turn-ups, wears to establish first armful encircle (41) and second and embraces that encircle (42) with the turn-ups of one side have fixing bolt (43), every equal threaded connection has fixation nut (44) on fixing bolt (43), and wherein fixing bolt (43) of one side are worn to establish on installation roof beam (111).

3. The digital spatial orientation fabricated construction system of a special-shaped suspended ceiling of claim 1, wherein: the upper end of the suspender (2) penetrates through the connecting beam (112), the suspender (2) is connected with two mounting nuts (114) in a threaded manner, and the two mounting nuts (114) are respectively positioned on the upper side and the lower side of the connecting beam (112).

4. The digital spatial orientation fabricated construction system of a special-shaped suspended ceiling of claim 1, wherein: second coupling assembling (5) are including the rigid coupling be in the whole first mounting panel (51) that is the L form of jib (2) lower extreme, articulate second mounting panel (52), the spacing bolt (55) and the rigid coupling that are used for fixed first mounting panel (51) and second mounting panel (52) relative position of first mounting panel (51) downside are in fossil fragments subassembly (53) of second mounting panel (52) downside, ceiling panel (3) rigid coupling is in on fossil fragments subassembly (53).

5. The digital spatial orientation fabricated construction system of a special-shaped suspended ceiling of claim 4, wherein: first mounting panel (51) orientation the one end of second mounting panel (52) and second mounting panel (52) orientation the equal rigid coupling of one end of first mounting panel (51) has limiting plate (54), every spacing hole (541) has all been seted up on limiting plate (54), spacing bolt (55) are worn to locate in spacing hole (541) of two limiting plates (54) simultaneously, threaded connection has stop nut (56) on spacing bolt (55).

6. The digital spatial orientation fabricated construction system of a special-shaped suspended ceiling of claim 4, wherein: the keel assembly (53) comprises a main keel (531) and an auxiliary keel (532), a main hanging piece (533) is arranged between the main keel (531) and the second mounting plate (52), an auxiliary hanging piece (534) is arranged between the main keel (531) and the auxiliary keel (532), and the auxiliary keel (532) is fixedly connected with the ceiling panel (3); one end of the main hanging piece (533) is fixedly connected with the second mounting plate (52), and the other end of the main hanging piece (533) is bent to form an embedding space (535) for the main keel (531) to be inserted into; one end of the secondary hanging piece (534) is sleeved on the main keel (531), and the other end of the secondary hanging piece (534) is embedded into the inner hole of the secondary keel (532) and is in hook fit with the secondary keel (532).

7. The digital spatial orientation fabricated construction system of a special-shaped suspended ceiling of claim 1, wherein: the suspended ceiling panel (3) is provided with a plurality of, is provided with between two adjacent suspended ceiling panels (3) lamps and lanterns subassembly (6), lamps and lanterns subassembly (6) are installed on tie-beam (112).

8. The digital spatial orientation fabricated construction system of a special-shaped suspended ceiling of claim 7, wherein: the lamp assembly (6) comprises a steel mesh (61) which is integrally U-shaped, an opening of the steel mesh (61) is downwards formed to form an installation space (62) for installing a lamp (63), the lamp (63) is installed in the installation space (62), and one side, deviating from the opening end of the steel mesh (61), of the steel mesh is connected onto the connecting beam (112) through the hanging rod (2).

9. The digital spatial orientation fabricated construction system of a special-shaped suspended ceiling of claim 8, wherein: conversion layer steelframe (1) is provided with a plurality ofly, and is a plurality of conversion layer steelframe (1) parallel arrangement, adjacent two the rigid coupling has connecting rod (12) between conversion layer steelframe (1), be provided with on connecting rod (12) and be convenient for carry out the maintenance packway (7) of overhauing lamp module (6), it includes the rigid coupling and is in to overhaul packway (7) steelframe net (71) and rigid coupling on connecting rod (12) are in handrail (72) of steelframe net (71) both sides relatively.

10. The digital spatial orientation fabricated construction system of a special-shaped suspended ceiling of claim 1, wherein: the suspension rod (2) comprises an upper rod (21) connected with the connecting beam (112) and a lower rod (22) connected with the suspended ceiling panel (3), one end, far away from the connecting beam (112), of the upper rod (21) is rotatably connected with a connecting cylinder (23), and one end, far away from the suspended ceiling panel (3), of the lower rod (22) is in threaded connection with the connecting cylinder (23); the lower rod (22) is in sliding fit with the upper rod (21), and one end, facing the connecting cylinder (23), of the upper rod (21) is provided with an adjusting hole (211) for the lower rod (22) to slide in.