CN111549961A

CN111549961A - Energy-saving ceiling for airport terminal building and construction method thereof

Info

Publication number: CN111549961A
Application number: CN202010454285.1A
Authority: CN
Inventors: 赵兴叶; 张洐苍; 侯斌; 李建波
Original assignee: Shandong Wonderful Decoration Engineering Co ltd
Current assignee: Shandong Wonderful Decoration Engineering Co ltd
Priority date: 2020-05-26
Filing date: 2020-05-26
Publication date: 2020-08-18
Anticipated expiration: 2040-05-26
Also published as: CN111549961B

Abstract

The invention relates to the field of airport basic buildings, in particular to an energy-saving suspended ceiling for an airport terminal building, which comprises a plurality of suspended ceiling units, wherein each suspended ceiling unit comprises three triangular suspended ceiling keels and a suspender assembly positioned in the centers of the suspended ceiling keels; the ceiling keel is uniformly and circumferentially arranged around the hanger rod assembly, clamping seat assemblies are arranged on three edges of the ceiling keel, and the ceiling plate is clamped and arranged on the ceiling keel through the clamping seat assemblies; one top end of the suspended ceiling keel is connected with the suspender component; the hanger rod assembly comprises a flange, an adjustable telescopic rod and an annular fixed seat, the flange is arranged at the upper end of the telescopic rod, and the fixed seat is arranged at the lower end of the telescopic rod; the fixing seat is provided with three ear plates for screwing the ceiling keels one by one. This furred ceiling is the assembled structure, can be prefabricated in the mill, and the furred ceiling construction can be realized to the only equipment of scene, and the hoist and mount technology can not have the construction dust, practices thrift the electric energy, the environmental protection.

Description

Energy-saving ceiling for airport terminal building and construction method thereof

Technical Field

The invention relates to the field of airport foundation buildings, in particular to an energy-saving suspended ceiling for an airport terminal building and a construction method thereof.

Background

The space of the top of the airport terminal building is large, and the installation and construction of the suspended ceiling are very important structures. During the furred ceiling construction, at present a lot of welding the jib on the roof steel construction, also need the welding between the fossil fragments of jib and furred ceiling.

The welding installation results in that the construction site has large dust, pollutes the environment and influences the health of workers. The field welding also results in slow construction progress and many parts cannot be prefabricated. In addition, the welding can make the emergence of parts such as steel construction and jib deformation, leads to the installation accuracy low, often can't correctly install during the furred ceiling assembly.

Disclosure of Invention

In order to solve the problems, the invention provides an energy-saving suspended ceiling of an airport terminal building and a construction method thereof, wherein the energy-saving suspended ceiling is of an assembly structure, can be prefabricated in a factory, can realize suspended ceiling construction only by assembling on site, has no construction dust in a hoisting process, saves electric energy and protects the environment. The hanger rod has less usage amount, saves materials and further reduces the cost.

The technical scheme adopted by the invention is as follows:

an energy-saving suspended ceiling for an airport terminal building comprises a plurality of suspended ceiling units, wherein each suspended ceiling unit comprises three triangular suspended ceiling keels and a suspender assembly positioned in the centers of the suspended ceiling keels;

the ceiling keel is uniformly and circumferentially arranged around the hanger rod assembly, clamping seat assemblies are arranged on three edges of the ceiling keel, and the ceiling plate is clamped and arranged on the ceiling keel through the clamping seat assemblies; one top end of the suspended ceiling keel is connected with the suspender component;

the hanger rod assembly comprises a flange, an adjustable telescopic rod and an annular fixed seat, the flange is arranged at the upper end of the telescopic rod, and the fixed seat is arranged at the lower end of the telescopic rod; the fixing seat is provided with three ear plates for screwing the ceiling keels one by one.

The energy-saving suspended ceiling of the airport terminal also comprises a connecting component for connecting the suspended ceiling keel and the fixed seat; the connecting assembly comprises a connecting rod, the front part of the connecting rod is in threaded connection with an ear plate, the rear parts of the left side and the right side of the connecting rod are respectively provided with a slideway, and a plurality of groups of screw holes are formed in the slideways;

the installation top of furred ceiling fossil fragments is established relative interval and is equipped with two connecting plates, two the connecting plate all cooperates with the arbitrary a set of screw spiro union of slide.

Above-mentioned energy-conserving furred ceiling of airport terminal, be equipped with the card seat subassembly that is used for blocking the furred ceiling board on the both sides skeleton of furred ceiling fossil fragments respectively, the card seat subassembly includes that the cross-section is the mount pad and the horizontally cardboard of T font, the mount pad includes vertical riser and horizontally bottom plate, furred ceiling fossil fragments are connected to the riser, rotate elastic connection between cardboard and the bottom plate.

Above-mentioned energy-conserving furred ceiling of airport terminal, seted up rectangular mounting hole on the otic placode.

According to the energy-saving suspended ceiling of the airport terminal, the telescopic rod is an electric telescopic rod or a bolt and nut telescopic rod.

The construction method of the energy-saving suspended ceiling of the airport terminal building comprises the following steps:

s1) assembling the ceiling units on the ground, installing ceiling boards on the ceiling keel of each ceiling unit and between the adjacent ceiling keels, and clamping and fastening by using the clamping seat assembly;

s2) hoisting a suspended ceiling unit to an installation node of the suspended ceiling unit, finely adjusting the hanger rod assembly to the installation length, and then mounting the flange in a threaded manner by using bolts;

s3) hoisting the other ceiling unit to the installation node of the ceiling unit, and installing the other ceiling unit and the ceiling keel of the ceiling unit in the step S2 in a staggered manner to enable the two ceiling units to share the edge of one ceiling keel; and hoisting the rest ceiling units according to the step to finish ceiling installation.

The invention has the beneficial effects that: the suspended ceiling unit can be prefabricated, is directly assembled by bolts on a construction site, is simple to construct, does not need procedures such as wiring welding and the like, greatly improves the cleanliness of the air on site, and has good environmental protection benefits.

The clearance between the furred ceiling board on two adjacent furred ceiling units is controllable, can adjust the clearance distance according to demands such as airport terminal building temperature, ventilation, illumination, adapts to the characteristic of steel construction expend with heat and contract with cold under the different environment, guarantees the ventilation performance in the airport terminal building.

The suspended ceiling units are paved in a large area by using one suspender component, and the two suspended ceiling units can share the outer edge of one suspended ceiling keel, so that half of the suspended ceiling keel material can be used; and the material of parts is saved.

Drawings

FIG. 1 is a schematic structural view of a single ceiling unit of the present invention;

FIG. 2 is a schematic top view of a single ceiling unit of the present invention;

FIG. 3 is a schematic view of a boom assembly of the present invention;

FIG. 4 is a schematic view of a connection assembly of the present invention;

FIG. 5 is a schematic view of a card holder assembly according to the present invention;

in the figure: 1 is a suspender component, 2 is a connecting component, 3 is a clamping seat component, 4 is a ceiling keel,

11 is a flange, 12 is a telescopic rod, 13 is an ear plate, 14 is a fixed seat, 21 is a connecting rod, 22 is a slideway, 31 is a vertical plate, 32 is a clamping plate, 33 is a bottom plate and 41 is a connecting plate.

Detailed Description

The invention is further explained below with reference to the drawings.

The steel structure space of the airport terminal is complex, the grid size and the node position have larger construction errors, and the measurement and the positioning of the coordinates at the hoisting point can be assisted by a three-dimensional positioning technology. The furred ceiling construction generally can go on in step with hall wall decoration construction, and the furred ceiling unit is package assembly completely, directly at factory prefabrication processing, can directly assemble after transporting to the scene, greatly improves the construction speed.

Before hoisting construction, the assembly flange is required to be arranged at a node of a roof steel structure for connecting a suspender in advance. And (5) measuring the elevation and the transverse distance of the steel structure flange before hoisting construction. After the ceiling keel 4 is installed, design parameters such as flatness, joint width and camber need to be uniformly leveled, and installation errors are guaranteed to be within a design range. After the suspended ceiling plate is installed, the clamping seat assembly 3 is used for leveling, and hoisting construction is completed.

An energy-saving suspended ceiling for an airport terminal building comprises a plurality of suspended ceiling units, wherein each suspended ceiling unit comprises three triangular suspended ceiling keels 4 and a suspender assembly 1 positioned in the centers of the suspended ceiling keels 4;

the ceiling keel 4 is uniformly and circumferentially arranged around the suspension rod assembly 1, the clamping seat assemblies 3 are respectively arranged on three edges of the ceiling keel 4, and the ceiling plate is clamped and arranged on the ceiling keel 4 through the clamping seat assemblies 3; one top end of the suspended ceiling keel 4 is connected with the suspender component 1;

the suspension rod assembly 1 comprises a flange 11, an adjustable telescopic rod 12 and an annular fixed seat 14, wherein the flange 11 is arranged at the upper end of the telescopic rod 12, and the fixed seat 14 is arranged at the lower end of the telescopic rod 12; and three ear plates 13 which are used for screwing the ceiling keels 4 one by one are arranged on the fixed seat 14. Also can install the furred ceiling board between the adjacent furred ceiling fossil fragments 4 of a furred ceiling unit, the outer edge of this furred ceiling board is supported by the outer arris limit of the furred ceiling fossil fragments 4 of another furred ceiling unit, and this has just reduced general furred ceiling fossil fragments 4's quantity, and ten minutes material saving has also made things convenient for the hoist and mount construction, practices thrift engineering time.

The energy-saving suspended ceiling of the airport terminal building further comprises a connecting component 2 used for connecting the suspended ceiling keel 4 and the fixed seat 14; the connecting assembly 2 comprises a connecting rod 21, the front part of the connecting rod 21 is in threaded connection with the ear plate 13, the rear parts of the left side and the right side of the connecting rod 21 are respectively provided with a slideway 22, and a plurality of groups of screw holes are formed in the slideways 22;

the installation top of furred ceiling fossil fragments 4 establishes relative interval and is equipped with two connecting plates 41, two connecting plate 41 all cooperates with arbitrary a set of screw spiro union of slide 22. The installation distance between the adjacent hoisting keels 4 of each ceiling unit can be controlled, and different design requirements are met. Meanwhile, the manufacturing precision of the connecting plate hoisting keel 4 can be reduced, and the assembling difficulty between the connecting plate hoisting keel and the connecting rod 21 is reduced, so that the cost and the assembling time are saved.

Above-mentioned energy-conserving furred ceiling of airport terminal, be equipped with the card seat subassembly 3 that is used for blocking the furred ceiling board on the both sides skeleton of furred ceiling fossil fragments 4 respectively, card seat subassembly 3 includes that the cross-section is the mount pad and the horizontally cardboard 32 of T font, the mount pad includes vertical riser 31 and horizontally bottom plate 33, furred ceiling fossil fragments 4 are connected to riser 31, rotate elastic connection between cardboard 32 and the bottom plate 33. Cardboard 32 accessible spring beam and bottom plate 33 rotation elastic connection can adapt to the shape of hoist and mount board and the back levelness error of assembling.

Above-mentioned energy-conserving furred ceiling of airport terminal, seted up rectangular mounting hole on the otic placode 13, can adapt to steel construction expend with heat and contract with cold, avoid fossil fragments to warp. The installation position of the keel can be finely adjusted in an auxiliary mode.

In the energy-saving suspended ceiling of the airport terminal, the telescopic rod 12 is an electric telescopic rod or a bolt and nut telescopic rod.

The length of the telescopic rod 12 can be adjusted to offset the height error of the position of the hanging point, and the flatness and the camber of the suspended ceiling can be conveniently controlled. The three-dimensional modeling can be used for simulating the actually measured suspender nodes and the design requirements of the suspended ceiling in advance, and the length of the telescopic rod 12 corresponding to each suspender node can be calculated.

s1) assembling the ceiling unit on the ground, and firstly installing the hoisting keel 4 in a screw hole corresponding to the slide way 22 according to design requirements; then, the three groups of hoisting keels 4 are installed on the suspender component 1 through the connecting component 2, and the assembling distance of the hoisting keels 4 is measured and can be finely adjusted through the long holes of the lug plates 13;

finally, ceiling boards are arranged on the ceiling joists 4 of each ceiling unit and between the adjacent ceiling joists 4, and are clamped and fastened by the clamping seat assemblies 3;

s2) hoisting a suspended ceiling unit to an installation node of the suspended ceiling unit, finely adjusting the hanger rod assembly 1 to the installation length, and then mounting the flange in a threaded manner by using bolts;

s3) hoisting the other ceiling unit to the installation node of the ceiling unit, installing the other ceiling unit and the ceiling keel 4 of the ceiling unit in the step S2 in a staggered manner to enable the two ceiling units to share the edge of one ceiling keel 4, and adjusting the clamping plate 32 of the clamping seat assembly 3 to level the ceiling plate; and hoisting the rest ceiling units according to the step to finish ceiling installation. During overhead hoisting operation, only the clamping seat assembly 3 on the edge of the connecting flange 11 and the hoisting keel 4 is needed, and the construction safety is improved.

Claims

1. The utility model provides an energy-conserving furred ceiling for airport terminal, its characterized in that: the suspended ceiling unit comprises three triangular suspended ceiling keels (4) and a suspender assembly (1) positioned in the centers of the suspended ceiling keels (4);

the ceiling keel (4) is uniformly and circumferentially arranged around the suspender component (1), clamping seat components (3) are respectively arranged on three edges of the ceiling keel (4), and the ceiling plate is clamped and arranged on the ceiling keel (4) through the clamping seat components (3); one top end of the suspended ceiling keel (4) is connected with the suspender component (1);

the suspension rod assembly (1) comprises a flange (11), an adjustable telescopic rod (12) and an annular fixed seat (14), wherein the flange (11) is arranged at the upper end of the telescopic rod (12), and the fixed seat (14) is arranged at the lower end of the telescopic rod (12); the fixing seat (14) is provided with three ear plates (13) which are used for screwing the ceiling keels (4) one by one.

2. The energy saving suspended ceiling of an airport terminal as defined in claim 1 wherein: the connecting component (2) is used for connecting the ceiling keel (4) and the fixing seat (14); the connecting assembly (2) comprises a connecting rod (21), the front part of the connecting rod (21) is in threaded connection with the lug plate (13), the rear parts of the left side and the right side of the connecting rod (21) are respectively provided with a slideway (22), and a plurality of groups of screw holes are formed in the slideways (22);

the installation top of furred ceiling fossil fragments (4) is established relative interval and is equipped with two connecting plates (41), two connecting plate (41) all with the arbitrary a set of screw spiro union cooperation of slide (22).

3. An energy-saving suspended ceiling of an airport terminal as claimed in claim 1 or 2 wherein: be equipped with card seat subassembly (3) that are used for blocking the furred ceiling board on the both sides skeleton of furred ceiling fossil fragments (4) respectively, card seat subassembly (3) are including mount pad and horizontally cardboard (32) that the cross-section is the T font, the mount pad includes vertical riser (31) and horizontally bottom plate (33), furred ceiling fossil fragments (4) are connected in riser (31), rotate elastic connection between cardboard (32) and bottom plate (33).

4. The energy saving suspended ceiling of an airport terminal as defined in claim 1 wherein: the telescopic rod (12) is an electric telescopic rod or a bolt and nut telescopic rod.

5. A method of constructing an energy saving suspended ceiling for an airport terminal as claimed in claim 1, comprising the steps of:

s1) assembling the ceiling units on the ground, installing ceiling boards on the ceiling keel (4) of each ceiling unit and between the adjacent ceiling keels (4), and clamping and fastening by using the clamping seat assembly (3);

s2) hoisting a suspended ceiling unit to an installation node of the suspended ceiling unit, finely adjusting the hanger rod assembly (1) to the installation length, and then mounting the flange in a threaded manner by using bolts;

s3) hoisting the other ceiling unit to the installation node of the ceiling unit, and installing the other ceiling unit and the ceiling keel (4) of the ceiling unit in the step S2 in a staggered manner to enable the two ceiling units to share the edge of one ceiling keel (4); and hoisting the rest ceiling units according to the step to finish ceiling installation.