CN211341371U - Large-space suspended ceiling - Google Patents

Abstract

The utility model discloses a big space furred ceiling. The large-space suspended ceiling comprises a top surface of an indoor building, a suspended ceiling base layer and two suspended ceiling surface layers which are respectively positioned on two sides of the suspended ceiling base layer; the suspended ceiling base layer comprises a positioning piece, a hanging piece and a supporting plate; the positioning piece is attached to the top surface; the hanging piece is arranged on the positioning piece; the supporting plate is arranged at one end of the hanger, which is far away from the top surface, and the first overlapping surface and the second overlapping surface are respectively positioned at two sides of the hanger; the suspended ceiling surface layer comprises a first top plate, a second top plate and a splicing piece which are butted with each other; the splicers are connected with the first top plate and the second top plate, and one ends of the two splicers are respectively lapped on the first lapping surface and the second lapping surface. The utility model provides a big space furred ceiling has reduced the destruction to original concrete on the top surface, improves the stability after the furred ceiling articulates, need not the on-the-spot processing part, simplifies the construction flow.

Description

Large-space suspended ceiling

Technical Field

The utility model relates to an architectural decoration technical field especially relates to a big space furred ceiling.

Background

The suspended ceiling plays a role in decoration, illumination or ventilation on the top of an indoor building and is an indispensable part for indoor decoration.

Among the prior art, generally adopt the gypsum board to accomplish laying of top surface among the public space, through establishing drilling installation jib at the top surface, hang the fossil fragments on the jib, hang the gypsum board on the fossil fragments afterwards. The inventor finds that the paving mode has the following defects in the process of realizing the invention and creation: the weight of the gypsum board is larger, the contact area between the suspender and the gypsum board is small, and the original concrete on the top surface is greatly damaged by using the suspender to suspend the gypsum board; the hanging stability of the gypsum board is reduced, and the construction quality cannot be guaranteed; secondly, the top surface needs to be drilled on a construction site according to the position of the hanging rod, so that the tidiness of the construction environment is reduced, and the construction period is prolonged; thirdly, the length of the hanging rod needs to be processed on site according to the height of the gypsum board, which wastes time and labor; fourthly, the gypsum board generally needs a back-hanging keel, and is installed on the hanging keel through the back-hanging keel, the back-hanging keel and the hanging keel need to be accurately installed in an aligned mode, the installation process is complex, and the construction difficulty is high; fifthly, for the top surface finished by the gypsum board, more dust and larger smell are generated during putty scraping and painting, which is not only unfavorable for respiratory tract health of constructors, but also needs a longer maintenance period, and prolongs the construction period.

Therefore, it is necessary to solve the above-mentioned technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a big space furred ceiling to solve the problem that exists among the prior art, reduce the destruction to original concrete on the top surface, improve the stability after the furred ceiling articulates, need not on-the-spot processing part, simplify the construction flow, shorten construction cycle, reduce the construction degree of difficulty and reduce the health damage of surface course construction to the operation personnel, promote the construction effect.

The utility model provides a large-space suspended ceiling, which comprises a top surface of an indoor building, a suspended ceiling base layer and two suspended ceiling surface layers respectively positioned at two sides of the suspended ceiling base layer; the suspended ceiling base layer comprises a positioning piece, a hanging piece and a supporting plate; the positioning piece is attached to the top surface; the hanging piece is arranged on the positioning piece; the supporting plate is arranged at one end, far away from the top surface, of the hanging piece, and the distance between the supporting plate and the positioning piece is adjustable; the surface, facing the hanger, of the support plate comprises a first overlapping surface and a second overlapping surface, and the first overlapping surface and the second overlapping surface are respectively positioned on two sides of the hanger; the suspended ceiling surface layer comprises a first top plate, a second top plate and splicing pieces, wherein the first top plate and the second top plate are butted with each other; the splicing piece and the first top plate and the splicing piece and the second top plate are arranged oppositely; the splicing pieces are connected with the first top plate, the splicing pieces are connected with the second top plate, and one ends of the two splicing pieces are respectively lapped on the first lapping surface and the second lapping surface.

Optionally, the ceiling surface layer further includes a first keel and a second keel, the splice is connected to the first top plate through the first keel, and the splice is connected to the second top plate through the second keel.

Optionally, a distance between a surface of the first top plate facing away from the splicing member and the splicing member is equal to a distance between a surface of the second top plate facing away from the splicing member and the splicing member.

Optionally, a surface of the support plate facing away from the hanger is parallel to the top surface.

Optionally, the hanger is top-hung angle steel.

Optionally, the positioning element includes a first corner connector and a second corner connector, the first corner connector includes a first corner plate and a second corner plate which are vertically connected, and the second corner connector includes a third corner plate and a fourth corner plate which are vertically connected; the first angle plate and the third angle plate are installed on the surface of the top, the second angle plate and the fourth angle plate are arranged in parallel, and one end, close to the positioning piece, of the top hanging angle steel is fixed between the second angle plate and the fourth angle plate.

Optionally, the ceiling substrate further comprises a closing member and a mounting plate; the closing-in piece comprises a first closing-in plate, a second closing-in plate and a third closing-in plate which are sequentially connected, wherein the first closing-in plate and the third closing-in plate are arranged in parallel and are positioned on the same side of the second closing-in plate; the mounting plate is arranged on one side, back to the positioning piece, of the supporting plate and comprises a first mounting end and a second mounting end which are arranged oppositely; the first mounting end and the second mounting end are both connected with one closing-in piece, and the two closing-in pieces are both positioned on the front surface of the mounting plate; the tail ends of the two first closing plates are respectively connected to the first mounting end and the second mounting end, the two first closing plates are arranged oppositely, and any one third closing plate is located on one side, connected with the third closing plate, of the first closing plate, back to the other side of the first closing plate.

Optionally, the splicing piece is a strip-shaped square tube.

Optionally, the square tube is a galvanized square tube.

The positioning piece is attached to the top surface in a mode without punching, such as bonding or screwing, so that damage to original concrete on the top surface is reduced; the length of the hanging piece is adjustable, and the length of the hanging piece can be fixed at the adjusted position to adapt to the height requirements of the first top plate and the second top plate, so that field processing is not needed, the construction flow is simplified, and the construction period is shortened; the splicing piece is connected with the first top plate, and the splicing piece is connected with the second top plate; realize first roof and second roof through the splice and splice mutually, need not the on-the-spot cutting, reduced the degree of difficulty of construction, the one end overlap joint respectively on first faying face and second faying face of two splices, and first roof and second roof overlap joint respectively have reduced the lapped degree of difficulty of first roof and second roof on two third closeouts boards. In the process, the weight of the first top plate and the second top plate is transmitted to the positioning piece through the hanging piece, and the contact area between the positioning piece and the top surface is large, so that the stress of the top surface per unit area can be reduced, the stability of the top plates after being spliced is improved, and the construction quality is improved; and first roof and second roof need not on-the-spot spraying and whitewash, have shortened maintenance cycle, have improved the efficiency of construction, reduce the surface course construction to the health damage of operation personnel, on the first roof dorsad the splice the surface with distance between the splice equals on the second roof dorsad the splice the surface with distance between the splice has guaranteed the planarization of first roof and second roof after the butt joint, has improved the roughness after the surface course concatenation, promotes the construction effect.

Drawings

The preferred embodiments of the present invention will hereinafter be described in detail, with the aid of the annexed drawings, for aiding the understanding of the objects and advantages of the invention, wherein:

fig. 1 is a schematic structural view of a large-surface suspended ceiling provided by an optional embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a suspended ceiling base layer according to an alternative embodiment of the present invention.

Fig. 3 is a schematic structural view of a ceiling surface layer according to an alternative embodiment of the present invention.

Fig. 4 is a schematic structural view of the connection between the closing member and the mounting plate according to an alternative embodiment of the present invention.

Detailed Description

The terms of orientation of up, down, left, right, front, back, top, bottom, and the like as referred to or as may be referred to in this specification are defined with respect to the configuration shown in the drawings, and the terms "inner" and "outer" refer to directions toward and away from the geometric center of a particular component and are relative terms, and thus may be changed accordingly depending on the position and the state of use of the particular component. Therefore, these and other directional terms should not be construed as limiting terms.

Fig. 1 is the structural schematic diagram of the large-surface-layer suspended ceiling provided by the optional embodiment of the utility model, fig. 2 is the structural schematic diagram of the suspended ceiling base layer provided by the optional embodiment of the utility model, fig. 3 is the structural schematic diagram of the suspended ceiling surface layer provided by the optional embodiment of the utility model. Referring to fig. 1 to 3, the present invention provides a suspended ceiling in a large space, which includes a top surface 30 of an interior structure, a suspended ceiling base layer, and two suspended ceiling surface layers respectively located at two sides of the suspended ceiling base layer.

Referring to fig. 1 to 3, the suspended ceiling base layer includes a positioning member, a hanger 4, and a supporting plate 5; the positioning piece can be attached to the top surface 30 in a bonding or screwing mode without punching, damage to original concrete on the top surface 30 is reduced, and the hanger 4 is arranged on the positioning piece; the supporting plate 5 is arranged at one end of the hanger 4 far away from the top surface 30, and the distance between the supporting plate 5 and the positioning piece is adjustable; the length of the hanger 4 can be adjusted, the length of the hanger 4 can be fixed at the adjusted position to adapt to various height requirements of the first top plate 61 and the second top plate 62, field processing is not needed, the construction process is simplified, the construction period is shortened, the surface of the support plate 5 facing the hanger 4 comprises a first overlapping surface and a second overlapping surface, and one ends of the two splicing pieces 7 can be respectively overlapped on the first overlapping surface and the second overlapping surface to realize effective splicing of the first top plate 61 and the second top plate 62. The types of the first top plate 61 and the second top plate 62 can be various, the first top plate 61 and the second top plate 62 are spliced, and the splice 7 is arranged opposite to the spliced first top plate 61 and the spliced second top plate 62, that is, the splice 7 penetrates through the first top plate 61 and the second top plate 62 at the same time. The splicing piece 7 is connected with the first top plate 61, and the splicing piece 7 is connected with the second top plate 62; realize first roof 61 and second roof 62 through splice 7 and splice mutually, need not the on-the-spot cutting, reduced the degree of difficulty of construction, and first roof 61 and second roof 62 need not on-the-spot spraying and whitewash, have shortened the maintenance cycle, have improved the efficiency of construction, reduce the physical damage of surface course construction to the operation personnel.

The first overlapping face and the second overlapping face can be located the both sides that set up relatively on the hanger 4 respectively, also can be located hanger 4 goes up except that relative setting both sides, and the position that actually uses two splicers 7 that need the overlap joint is accurate, and the weight of first roof 61 and second roof 62 passes through hanger 4 and transmits to the setting element on, because the area of contact of setting element and top surface 30 is great, can reduce the stress of top surface 30 unit area, improves the stability after first roof 61 and the concatenation of second roof 62, has risen the quality of construction.

Optionally, the ceiling surface layer further includes a first keel 82 and a second keel 82, the splice 7 is connected to the first top plate 61 through the first keel 81, and the splice 7 is connected to the second top plate 62 through the second keel 82;

preferably, the distance between the surface of the first top plate 61 facing away from the splicing member 7 and the splicing member 7 is equal to the distance between the surface of the second top plate 62 facing away from the splicing member 7 and the splicing member 7, so that the flatness of the first top plate 61 and the second top plate 62 after butt joint is ensured, the flatness after surface layer splicing is improved, and the construction effect is improved. During construction, the first top plate 61 and the second top plate 62 can be spliced on the ground, then the splicing pieces 7 are installed on the first top plate 61 and the second top plate 62, and finally the suspended ceiling surface layer is integrally hung on the top surface 30, so that the construction process is further simplified. Preferably, the surface of the supporting plate 5 facing away from the hanger 4 is parallel to the top surface 30, and the supporting plate 5 has a good flatness, so as to ensure the stability of the two splices 7 respectively spliced on the first splicing face and the second splicing face.

Optionally, the hanging piece 4 is a top hanging angle steel, and construction cost is reduced on the basis of ensuring the strength of the hanging piece 4.

Preferably, the positioning member comprises a first corner connector 31 and a second corner connector 32, the first corner connector 31 comprises a first corner plate 33 and a second corner plate 34 which are vertically connected, and the second corner connector 32 comprises a third corner plate 35 and a fourth corner plate 36 which are vertically connected; the first angle plate 33 and the third angle plate 35 can be fixedly installed on the top surface 30 by using metal expansion pipes, so that the contact area between the positioning piece and the top surface 30 is increased, and the damage to original concrete on the top surface 30 is further reduced; the second angle plate 34 and the fourth angle plate 36 are arranged in parallel, and one end of the top hanging angle steel, which is close to the positioning piece, is fixed between the second angle plate 34 and the fourth angle plate 36; similarly, the second gusset 34 and the fourth gusset 36 have a larger contact area with the roof angle, and the stability of the installation of the roof angle can be increased.

Preferably, the hanger 4 is provided with a hanging hole penetrating through the hanger 4, the second angle plate 34 is provided with a first mounting hole, the fourth angle plate 36 is provided with a second mounting hole, and the first mounting hole, the hanging hole and the second mounting hole are aligned and then connected through a bolt. The hanging hole is bolted between the second corner plate 34 and the fourth corner plate 36 for easy removal and installation.

In addition to the above embodiment, the first mounting holes are provided in plural, the second mounting holes are provided in plural, the first mounting holes are arranged in the second gusset 34 in a direction perpendicular to the top surface 30, and the second mounting holes are arranged in the fourth gusset 36 in a direction perpendicular to the top surface 30. Through bolted connection after adjusting the first mounting hole of hanging on the hanger 4 and the alignment of different mounting hole and second mounting hole, can adjust the height of hanger 4 in a flexible way to the requirement of the multiple height of first roof 61 of adaptation and second roof 62.

Preferably, the supporting plate 5 is provided with a third corner connector 51 and a fourth corner connector 52, the third corner connector 51 comprises a fifth corner plate 53 and a sixth corner plate 54 which are vertically connected, the fourth corner connector 52 comprises a seventh corner plate 55 and an eighth corner plate 56 which are vertically connected, the fifth corner plate 53 is installed on the first overlapping surface, the seventh corner plate 55 is installed on the second overlapping surface, the sixth corner plate 54 is arranged in parallel with the eighth corner plate 56, and one end of the top hanging angle steel, which is far away from the positioning piece, is fixed between the sixth corner plate 54 and the eighth corner plate 56. Likewise, the sixth angle plate 54 and the eighth angle plate 56 can effectively limit the top hanging angle steel, and the structural stability of the top hanging angle steel is improved.

Fig. 4 is a schematic structural view of the connection between the closing member and the mounting plate according to an alternative embodiment of the present invention.

Referring to fig. 4, the suspended ceiling substrate further includes a closing member and a mounting plate 1; the closing-up piece comprises a first closing-up plate 21, a second closing-up plate 22 and a third closing-up plate 23 which are sequentially connected, the first closing-up plate 21 and the third closing-up plate 23 are arranged in parallel and are both positioned on the same side of the second closing-up plate 22, and in the embodiment, the closing-up piece is of a U-shaped structure. The mounting plate 1 is mounted on a support plate 5 for supporting a first top plate 61 and a second top plate 62 which are spliced together. The mounting plate 1 comprises a first mounting end 11 and a second mounting end 12 which are oppositely arranged; the first mounting end 11 and the second mounting end 12 are connected with one closing-in piece, and the two closing-in pieces are located on the front face of the mounting plate 1. The tail ends of the two first closing plates 21 are respectively connected to the first mounting end 11 and the second mounting end 12, the two first closing plates 21 are arranged oppositely, and any one of the third closing plates 23 is located on one side, back to the other side, of the first closing plate 21 connected with the third closing plate. The mounting plate 1 provided with the two closing-in pieces is similar to a pi-shaped structure and is connected with the supporting plate 5 through the mounting plate 1, the first top plate 61 and the second top plate 62 which are spliced through the two third closing-in plates 23 in a lap joint mode respectively, at the moment, the first top plate 61 and the second top plate 62 which are spliced are closed up by the parts, located between the two second closing-in plates 22, of the two second closing-in plates 22 and the mounting plate 1, filling is not needed, flaws of the corners of the first top plate 61 and the second top plate 62 are directly shielded by the parts, located between the two second closing-in plates 22, of the two second closing-in plates 22 and the mounting plate 1, the ceiling surface layer mounting process is simplified, time and labor are saved, and the construction efficiency is improved.

Optionally, a first limiting plate 57 and a second limiting plate 58 which are oppositely arranged are mounted on one side of the supporting plate 5 facing away from the positioning element, the first mounting end 11 abuts against the first limiting plate 57, and the second mounting end 12 abuts against the second limiting plate 58. The first limiting plate 57 and the second limiting plate 58 play a role in positioning the mounting plate in the horizontal direction, and the stability of the mounting plate 1 connected to the support plate 5 is ensured.

Optionally, the closing-up member further includes a fourth closing-up plate 25, the fourth closing-up plate 25 is installed on the third closing-up plate 23 and is far away from one end of the second closing-up plate 22 and extends towards the direction close to the first closing-up plate 21, and the fourth closing-up plate 25 can increase the overlapping area between the first top plate 61 and the second top plate 62 and the closing-up member, which is beneficial to improving the stability of the first top plate 61 and the second top plate 62 at the splicing position.

Preferably, the first mounting end 11 is provided with a first abutting plate 13, the second mounting end 12 is provided with a second abutting plate 14, and the first abutting plate 13 and the second abutting plate 14 are perpendicular to the mounting plate 1 and located on the back of the mounting plate 1. The first abutting plate 13 and the second abutting plate 14 may increase the structural strength of the mounting plate 1.

Further, first butt joint board 13 with the border of first installation end 11 aligns the setting, second butt joint board 14 with the border of second installation end 12 aligns the setting, can increase the area of contact between first installation end 11 and the first limiting plate 57 and the area of contact between second installation end 12 and the second limiting plate when first installation end 11 and second installation end 12 set up first limiting plate 57 and second limiting plate 58, increases the stability of mounting panel 1.

On the basis of the above embodiment, the positioning plate 24 is installed on the closing member, and each closing member is attached to the mounting plate 1 through the positioning plate 24. The positioning plate 24 can increase the contact area between the first closing plate 21 and the mounting plate 1, and improve the stability of the connection between the closing member and the mounting plate 1.

Preferably, one side of each of the two positioning plates 24 away from the first closing plate 21 extends to the edge of the first mounting end 11 and the edge of the second mounting end 12, so as to increase the base area between the first mounting end 11 and the first limiting plate 57 and the contact area between the second mounting end 12 and the second limiting plate 58, and increase the structural stability between the mounting plate 1 and the closing member.

Optionally, the two first closing plates 21 are perpendicular to the mounting plate 1, and the two first closing plates 21 are arranged in parallel, so that the stability of the first top plate 61 and the second top plate 62 overlapping the third closing plate 23 can be increased.

Further, the mounting plate 1 is a stainless steel plate, and the closing member is a stainless steel member. The stainless steel plate and the stainless steel piece have good corrosion prevention effect, and the service life of the mounting plate 1 and the closing-in piece can be effectively prolonged.

Preferably, the distance between the third closing plate 23 located at the first mounting end 11 and the first closing plate 21 located at the first mounting end 11 is greater than the distance between the edge of the first mounting end 11 and the first closing plate 21 located at the first mounting end 11, so that the force moment of the third closing plate 23 can be increased, and the stability after overlapping the third closing plate 23 is improved for a ceiling surface layer, optionally, the first keel 81 is located between the splice 7 and the first top plate 61, and two opposite ends of the first keel 81 are respectively connected with the first top plate 61 and the splice 7; the second keel 82 is located between the splicing piece 7 and the second top plate 62, two ends of the second keel 82, which are arranged relatively, are respectively connected with the splicing piece 7 and the second top plate 62, the first keel 81 can increase the connection strength between the splicing piece 7 and the first top plate 61, and the second keel 82 can increase the connection strength between the splicing piece 7 and the second top plate 62, so that the stability of the ceiling surface layer is improved.

Preferably, the first keel 81 comprises a first keel plate 83, a second keel plate 84 and a third keel plate 85 which are connected, the first keel plate 83 is arranged opposite to the third keel plate 85, the first keel plate 83 is arranged on the splice 7 in a fitting manner, and the third keel plate 85 is arranged on the first top plate 61 in a fitting manner. The first keel 81 can leave a certain gap between the splicing element 7 and the first top plate 61, which is convenient for the ventilation of the first top plate 61. Optionally, the second keel 82 and the second top plate 62 may be connected in the above manner, so as to facilitate uniform construction.

As an optional implementation process, the splicing piece 7 is a strip-shaped square tube, and the square tube has the advantage of high flatness, so that the neatness between the spliced first top plate 61 and the spliced second top plate 62 is improved.

Furthermore, the square pipe is a galvanized square pipe, the construction environment is complex, and the galvanized square pipe has the characteristic of corrosion resistance, so that the service life of the square pipe can be prolonged.

Furthermore, the galvanized square pipe is hollow, so that the weight of the galvanized square pipe can be reduced, and after the galvanized square pipe is installed on the top surface 30, the stress on the top surface 30 can be reduced, and the stability of the system is improved.

On the basis of the above embodiment, the distance between the galvanized square pipe and the first top plate 61 is equal to the distance between the square pipe and the second top plate 62, which is beneficial for the surface of the first top plate 61 back to the top surface 30 and the surface of the second top plate 62 back to the top surface 30 after splicing to be located in the same plane.

Preferably, the number of zinc-plated side's pipe is two, two parallel arrangement is managed in zinc-plated side, two the zinc-plated side all wears to establish after the concatenation first roof 61 with second roof 62. The two galvanized square pipes can increase the stability of the spliced first top plate 61 and the spliced second top plate 62.

Preferably, at least one of the first top plate 61 and the second top plate 62 is a composite plate. The composite plate has greater strength, hardness and wear resistance, and can effectively prolong the service life of the first top plate 61 and the second top plate 62. Preferably, the first top plate 61 and the second top plate 62 may also be NP plates, the NP plates are generally 600 wide, and preferably designed at 2700 and 3300 long, and are large plates, and the adjacent NP plates can be directly hung on the top surface 30 after ground splicing, so as to facilitate construction.

The utility model also provides a mounting method of big space furred ceiling is used for installing big space furred ceiling, including following step: setting an indoor building in which a large-space ceiling needs to be arranged on the top surface 30; arranging a suspended ceiling base layer on the top surface 30, so that the suspended ceiling base layer comprises a positioning piece, a hanging piece 4 and a supporting plate 5; the positioning piece is attached to the top surface 30; the hanger 4 is arranged on the positioning piece; the supporting plate 5 is arranged at one end of the hanger 4 far away from the top surface 30, and the distance between the supporting plate 5 and the positioning piece is adjustable; the surface of the support plate 5 facing the hanger 4 comprises a first overlapping surface and a second overlapping surface, and the first overlapping surface and the second overlapping surface are respectively positioned on two sides of the hanger 4; splicing two suspended ceiling surface layers, wherein each suspended ceiling surface layer comprises a first top plate 61 and a second top plate 62 which are butted with each other, and a splicing piece 7; the splice 7 and the first top plate 61, and the splice 7 and the second top plate 62 are arranged oppositely; and hanging the two ceiling surface layers on the ceiling base layer, so that one ends of the two splicing pieces 7 are respectively lapped on the first lapping surface and the second lapping surface.

In the large-space suspended ceiling provided by the embodiment of the utility model, the positioning piece is mounted on the top surface 30 in a sticking or screwing way without punching, thereby reducing the damage to the original concrete on the top surface; the length of the hanging piece 4 is adjustable, and the length of the hanging piece 4 can be fixed at the adjusted position to adapt to the height requirements of the first top plate 61 and the second top plate 62, so that the field processing is not needed, the construction flow is simplified, and the construction period is shortened; the splicing piece 7 is connected with the first top plate 61, and the splicing piece 7 is connected with the second top plate 62; realize first roof 61 and second roof 62 through splice 7 and splice mutually, need not the on-the-spot cutting, reduced the degree of difficulty of construction, the one end overlap joint respectively on first faying face and second faying face of two splices 7, and first roof 61 and second roof 62 overlap joint respectively have reduced the lapped degree of difficulty of first roof 61 and second roof 62 on two third closeouts boards 23. In the process, the weight of the first top plate 61 and the second top plate 62 is transmitted to the positioning piece through the hanger 4, and the contact area between the positioning piece and the top surface 30 is large, so that the stress of the top surface 30 in unit area can be reduced, the stability of the top plates after splicing is improved, and the construction quality is improved; and first roof 61 and second roof 62 need not on-the-spot spraying and whitewash, have shortened maintenance cycle, have improved the efficiency of construction, reduce the surface course construction to the health damage of operation personnel, first roof 61 dorsad splice 7 the surface with distance between the splice 7 equals second roof 62 dorsad splice 7 the surface with distance between the splice 7, guaranteed the planarization of first roof 61 and second roof 62 after the butt joint, improved the roughness after the surface course concatenation, promote the construction effect.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (7)

1. A large space suspended ceiling, comprising a top surface of an indoor building, characterized by further comprising: the suspended ceiling comprises a suspended ceiling base layer and two suspended ceiling surface layers which are respectively positioned at two sides of the suspended ceiling base layer;

the suspended ceiling base layer comprises a positioning piece, a hanging piece and a supporting plate; the positioning piece is attached to the top surface; the hanging piece is arranged on the positioning piece; the supporting plate is arranged at one end, far away from the top surface, of the hanging piece, and the distance between the supporting plate and the positioning piece is adjustable; the surface, facing the hanger, of the support plate comprises a first overlapping surface and a second overlapping surface, and the first overlapping surface and the second overlapping surface are respectively positioned on two sides of the hanger;

the suspended ceiling surface layer comprises a first top plate, a second top plate and splicing pieces, wherein the first top plate and the second top plate are butted with each other; the splicing piece and the first top plate and the splicing piece and the second top plate are arranged oppositely; the splicing piece is connected with the first top plate, the splicing piece is connected with the second top plate,

one ends of the two splicing pieces are respectively lapped on the first lapping surface and the second lapping surface;

the hanging piece is top hanging angle steel;

the positioning piece comprises a first corner connector and a second corner connector, the first corner connector comprises a first corner plate and a second corner plate which are vertically connected, and the second corner connector comprises a third corner plate and a fourth corner plate which are vertically connected; the first angle plate and the third angle plate are installed on the surface of the top, the second angle plate and the fourth angle plate are arranged in parallel, and one end, close to the positioning piece, of the top hanging angle steel is fixed between the second angle plate and the fourth angle plate.

2. The large space suspended ceiling of claim 1, wherein the ceiling facing further comprises a first runner and a second runner, the splice being connected to the first ceiling panel by the first runner, and the splice being connected to the second ceiling panel by the second runner.

3. The large space ceiling according to claim 2, wherein a distance between a surface of the first top panel facing away from the splice and the splice is equal to a distance between a surface of the second top panel facing away from the splice and the splice.

4. The large space ceiling of claim 3, wherein a surface of the support plate facing away from the hangers is parallel to the top surface.

5. The large space ceiling of claim 4, wherein the ceiling substrate further comprises a closeout member and a mounting plate;

the closing-in piece comprises a first closing-in plate, a second closing-in plate and a third closing-in plate which are sequentially connected, wherein the first closing-in plate and the third closing-in plate are arranged in parallel and are positioned on the same side of the second closing-in plate;

the mounting plate is arranged on one side, back to the positioning piece, of the supporting plate and comprises a first mounting end and a second mounting end which are arranged oppositely; the first mounting end and the second mounting end are both connected with one closing-in piece, and the two closing-in pieces are both positioned on the front surface of the mounting plate; the tail ends of the two first closing plates are respectively connected to the first mounting end and the second mounting end, the two first closing plates are arranged oppositely, and any one third closing plate is located on one side, connected with the third closing plate, of the first closing plate, back to the other side of the first closing plate.

6. The large space ceiling as claimed in any one of claims 1 to 5, wherein the splice is a strip-shaped square tube.

7. The large space suspended ceiling of claim 6, wherein the square tubes are galvanized square tubes.

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