CN214995132U - Energy-saving double-layer suspended ceiling - Google Patents

Abstract

The utility model provides an energy-saving double-deck furred ceiling has such characteristic, include: the steel frame conversion layer, the screw rod, the hoisting assembly, the hanging piece, the hoisting main keel, the keel frame, the high-crystal plate, the clamping keel and the U-shaped aluminum square tube are arranged on the steel frame conversion layer; the screw rod is positioned below the steel frame conversion layer, and the upper end head of the screw rod is fixed on the steel frame conversion layer; the hoisting assembly is arranged at the upper section of the screw rod; the hoisting main keel is installed through the hoisting assembly; the keel frame is arranged below the hoisting assembly and is arranged on the hoisted main keel through the hanging piece; the high crystal plate is arranged on the keel frame; the clamping keel is fixed with the lower end head of the screw rod; a plurality of clamping grooves are formed in the clamping type keel, the U-shaped aluminum square tube is provided with clamping edges, and the U-shaped aluminum square tube is clamped and installed below the clamping type keel through the clamping edges and the clamping grooves in a matched mode.

Description

Energy-saving double-layer suspended ceiling

Technical Field

The utility model relates to a furred ceiling fitment technical field, in particular to energy-saving double-deck furred ceiling.

Background

Conventional furred ceiling construction scheme in tall and big space is tectorial membrane wood grain aluminium square tube furred ceiling, and aluminium square tube furred ceiling upper portion headroom is warm logical and fire-fighting equipment, and equipment reservation headroom is generally more than 3 meters. After putting into operation at the venue, 3 meters headroom can cause the energy consumption of warm logical system to be extravagant above the furred ceiling, and this kind of conventional scheme does not possess moreover and inhales the sound and fall the function of making an uproar, can't absorb equipment noise and noise of motion.

SUMMERY OF THE UTILITY MODEL

The utility model relates to a solve above-mentioned problem and go on, the purpose is providing an energy-saving double-deck furred ceiling.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides an energy-saving double-deck furred ceiling has such characteristic, include: the steel frame conversion layer, the screw rod, the hoisting assembly, the hanging piece, the hoisting main keel, the keel frame, the high-crystal plate, the clamping keel and the U-shaped aluminum square tube are arranged on the steel frame conversion layer; the screw rod is positioned below the steel frame conversion layer, and the upper end head of the screw rod is fixed on the steel frame conversion layer; the hoisting assembly is arranged at the upper section of the screw rod; the hoisting main keel is installed through the hoisting assembly; the keel frame is arranged below the hoisting assembly and is arranged on the hoisted main keel through the hanging piece; the high crystal plate is arranged on the keel frame; the clamping keel is fixed with the lower end head of the screw rod; a plurality of clamping grooves are formed in the clamping type keel, the U-shaped aluminum square tube is provided with clamping edges, and the U-shaped aluminum square tube is clamped and installed below the clamping type keel through the clamping edges and the clamping grooves in a matched mode.

The utility model provides an in the energy-saving double-deck furred ceiling, can also have such characteristic: the hoisting assembly comprises a hoisting piece, a fastening bolt and a limiting nut; the upper end part of the hanging piece is provided with a folded edge, a first through hole is formed in the folded edge, and the hanging piece is hung on the screw rod through the first through hole and is fixed through a limiting nut; the lower tip of hanging the piece is provided with the slot, and the both sides cell wall of slot corresponds has seted up the second through-hole, and hoist and mount main joist horizontal installation is in the slot, and fastening bolt runs through two second through-holes and installs.

The utility model provides an in the energy-saving double-deck furred ceiling, can also have such characteristic:

wherein, the clamping groove is arranged at the lower edge of the clamping keel and is in an inverted L shape;

the clamping edges are Z-shaped folded edges symmetrically arranged on the upper edge of the U-shaped aluminum square tube.

The utility model provides an in the energy-saving double-deck furred ceiling, can also have such characteristic: the steel frame conversion layer comprises a hanging rod fixed on the concrete ceiling, a transverse keel welded with the hanging rod and a longitudinal keel welded with the transverse keel.

The utility model provides an in the energy-saving double-deck furred ceiling, can also have such characteristic: wherein the screw rod penetrates through the center of the high-crystal plate.

The utility model discloses an effect and effect:

the utility model discloses a be provided with the brilliant board of thermal-insulated function of heat preservation among the energy-saving double-deck furred ceiling, the effectual noise interference problem of alleviating the venue to and the warm logical energy consumption of 3 meters headroom above the aluminium square tube furred ceiling has been avoided. Through fixed modularization construction in this furred ceiling structure for the main joist of installation high brilliant board and the card formula fossil fragments that are used for installing the aluminium square tube are installed through a lead screw of sharing, and the construction is simple, and the structure is reliable, has improved the efficiency of construction. And the aluminium square tube is provided with the Z type hem, and its installation block stable in structure is firm. The utility model discloses an adopt the design of the double-deck combination furred ceiling of hi-lite board and aluminium square tube, when satisfying the pleasing to the eye effect of original scheme venue, it is more energy-conserving, accord with the green building theory.

Drawings

FIG. 1 is a layout diagram of an energy-saving double-layer suspended ceiling according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a steel frame transfer floor according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of an energy-type double-layer ceiling in an embodiment of the present invention;

FIG. 4 is an enlarged view of FIG. 3 at A;

FIG. 5 is an enlarged view of FIG. 3 at B;

FIG. 6 is an enlarged view of FIG. 3 at C;

fig. 7 is a schematic structural view of a hoisting assembly in an embodiment of the present invention;

fig. 8 is a schematic structural diagram of a U-shaped aluminum square tube in an embodiment of the present invention.

Reference numerals: a hanger rod 1; a transverse keel 2; a longitudinal keel 3; a T-shaped auxiliary keel 4; a T-shaped main keel 5; a screw rod 6; a clip type keel 7; a card slot 71; a U-shaped aluminum square tube 8; a clamping edge 81; a hanger 9; a folded edge 91; a slot 92; a fastening bolt 10; hoisting the main keel 11; a hanger 12; a limit nut 13; a high crystal plate 14.

Detailed Description

In order to make the utility model discloses the technological means, creation characteristic, achievement purpose and efficiency that realize are easily understood and are known, and following embodiment combines the figure to be right the utility model discloses an energy-saving double-deck furred ceiling does specifically expoundly.

< example >

As shown in fig. 3, an energy saving type double-layered ceiling includes: the steel frame conversion layer, the lead screw 6, the hoisting component, the limit nut 13, the hoisting main keel 11, the keel frame, the high-crystal plate 14, the clamping keel 7 and the U-shaped aluminum square tube 8.

As shown in fig. 2 and 3, the steel frame transfer floor comprises a suspension rod 1 fixed on the concrete ceiling through a buried plate and an expansion bolt, a transverse keel 2 welded with the suspension rod 1, and a longitudinal keel 3 welded with the transverse keel 2. In the present embodiment, the hanger bar 1 is made of angle steel with specification L40 × 40 × 4mm, and the transverse keel 2 and the longitudinal keel 3 are made of angle steel with specification L50 × 50 × 5 mm. The distance between the transverse keels 2 is 1200mm, and the distance between the longitudinal keels 3 is 3000 mm.

As shown in fig. 3 and 4, the screw rod 6 is located below the steel frame conversion layer, a hole is formed in a panel on the transverse keel 2, the end of the screw rod 6 penetrates through the hole, and the upper side and the lower side of the panel are fixed by nuts respectively, so that the upper end of the screw rod 6 is fixed on the transverse keel 2.

The hoisting assembly is arranged at the upper section of the screw rod 6. As shown in fig. 4 and 8, the hoisting assembly comprises a hoisting member 9, a fastening bolt 10 and a limit nut 13. The upper end of the hanging piece 9 is provided with a folded edge 91, the folded edge 91 is provided with a first through hole (not shown), and the hanging piece 9 is hung on the screw rod 6 through the first through hole and is fixed through the limit nut 13. The lower end of the hanging piece 9 is provided with a slot 92, the two side walls of the slot 92 are correspondingly provided with second through holes (not shown), the hanging main keel 11 is horizontally arranged in the slot 92, and the fastening bolt 10 penetrates through the two second through holes and is connected and fastened with a nut, so that the hanging main keel 11 is firmly arranged in the slot 92. Referring to fig. 8, the hanger 9 of the present embodiment has a dimension g of 105mm, a dimension f of 20mm, a dimension k of 25mm, and a dimension h of 25 mm.

As shown in fig. 3, 4 and 6, the keel frame is arranged below the hoisting assembly, and the high crystal plate 14 is mounted on the keel frame. The keel frame is a mounting keel structure for the high crystal board matched with the high crystal board, and the high crystal board sold in the market and the matched keel frame are adopted in the embodiment. This fossil fragments frame includes T type false keel 4, T type main joist 5, and the high brilliant board 14 passes through the installation of T type false keel 4 block, and T type false keel 4 is welded fastening with T type main joist 5. The hanging piece 12 is composed of a vertical short plate, a horizontal plate and a vertical long plate which are connected in sequence, and is of an eta-shaped hanging groove structure as shown in figure 4, the hanging piece 12 is hung on the hoisting main keel 11 through the hanging groove structure, the lower end part of the vertical long plate is provided with a hook slotted hole, the shape of the hook slotted hole (not shown in the figure) is matched with that of the T-shaped main keel 5, and the T-shaped main keel 5 is connected with the hanging piece 12 in a hook mode through the hook slotted hole.

The screw rod 6 extends downwards and penetrates through the center of the plate of the lower high-crystal plate. The clamping type keel 7 is fixed at the lower end head of the screw rod 6, the installation mode of the lower end part of the screw rod and the clamping type keel 7 is similar to the installation mode of the lower end part of the screw rod and the transverse keel 2, and the description is omitted here. As shown in fig. 5 and 7, a plurality of slots 71 are formed on the clamping keel 7, the slots 71 are formed on the lower edge of the clamping keel 7, and the slots 71 are inverted L-shaped. The U-shaped aluminum square tube 8 is provided with Z-shaped folding edges 91, wherein the clamping edges 81 of the clamping edges 81 are symmetrically arranged on the upper edge of the U-shaped aluminum square tube 8. The U-shaped aluminum square tube 8 is clamped and installed below the clamping type keel 7 through the clamping edge 81 and the clamping groove 71 in a matched mode. Referring to fig. 7, in the present embodiment, a dimension e of the U-shaped aluminum square tube 8 is set to 150mm, a dimension d is set to 300mm, a dimension c is set to 20mm, a dimension a is set to 10mm, and a dimension b is set to 10 mm.

The energy-saving double-layer suspended ceiling is realized by the following construction steps:

firstly, measuring and paying off, determining the initial laying point of the high-crystal plate, and laying the high-crystal plate and typesetting the installation position of the U-shaped aluminum square tube 8 according to the measured size.

Referring to fig. 1, in the layout, p is an initial layout point; the length dimension of the high-crystal plate is m, the width dimension of the high-crystal plate is n, and a square high-crystal plate is preferably adopted; q represents the edge line of the U-shaped aluminum square tube 8, x represents the center line of the U-shaped aluminum square tube 8, and the center line of the U-shaped aluminum square tube 8 is overlapped with the edge of the high-crystal plate for the sake of aesthetics and unified modular construction.

The screw rods are arranged at the center of the plate corresponding to the high-crystal plate below the screw rods in a typesetting mode, and the high-crystal plate needing to be perforated is perforated in advance in a factory, so that the high-crystal plate is prevented from being perforated in a construction site, and the construction efficiency is improved.

Step two, constructing a steel frame conversion layer: firstly, a hanger rod 1 is installed on a concrete ceiling through a buried plate and an expansion bolt, and the hanger rod 1 is vertically arranged. Then, a transverse keel 2 is welded and installed at the lower end of the hanging rod, and the transverse keel 2 is horizontally and transversely arranged. And finally, welding and installing a longitudinal keel 3 on the transverse keel 2, wherein the longitudinal keel 3 is horizontally and longitudinally arranged.

And step three, fixing the screw rod 6 below the transverse keel 2 according to the typesetting design, installing a high-crystal plate through the hoisting assembly, the limiting nut 13, the hoisting main keel 11 and the keel frame, and installing and fixing the clamping keel 7 below the screw rod 6.

And step four, clamping and installing the U-shaped aluminum square tube 8 on the clamping type keel 7 according to the typesetting design.

The above embodiments are only preferred embodiments of the present invention, and are not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention shall fall within the protection scope of the present invention.

Claims (5)

1. An energy-saving double-layer suspended ceiling, comprising: the steel frame conversion layer, the screw rod, the hoisting assembly, the hanging piece, the hoisting main keel, the keel frame, the high-crystal plate, the clamping keel and the U-shaped aluminum square tube are arranged on the steel frame conversion layer;

the screw rod is positioned below the steel frame conversion layer, and the upper end head of the screw rod is fixed on the steel frame conversion layer;

the hoisting assembly is arranged at the upper section of the screw rod;

the hoisting main keel is installed through the hoisting assembly;

the keel frame is arranged below the hoisting assembly and is arranged on the hoisted main keel through the hanging piece;

the high-crystal plate is arranged on the keel frame;

the clamping type keel is fixed with the lower end head of the screw rod;

a plurality of clamping grooves are formed in the clamping type keel, the U-shaped aluminum square tube is provided with clamping edges, and the U-shaped aluminum square tube is clamped and connected with the clamping grooves in a matched mode through the clamping edges and is installed below the clamping type keel.

2. The energy saving double layer ceiling of claim 1, wherein:

the hoisting assembly comprises a hoisting piece, a fastening bolt and a limiting nut;

the upper end part of the hanging piece is provided with a folded edge, a first through hole is formed in the folded edge, and the hanging piece is hung on the screw rod through the first through hole and is fixed through the limiting nut;

the lower end of the hanging piece is provided with a slot, the slot walls on the two sides of the slot are correspondingly provided with second through holes, the hanging main keel is horizontally installed in the slot, and the fastening bolt penetrates through the two second through holes to be installed.

3. The energy saving double layer ceiling of claim 1, wherein:

the clamping groove is formed in the lower edge of the clamping keel and is in an inverted L shape;

the clamping edges are Z-shaped folded edges symmetrically arranged on the upper edge of the U-shaped aluminum square tube.

4. The energy saving double layer ceiling of claim 1, wherein:

the steel frame conversion layer comprises a hanging rod fixed on the concrete ceiling, a transverse keel welded with the hanging rod and a longitudinal keel welded with the transverse keel.

5. The energy saving double layer ceiling of claim 1, wherein:

the lead screw penetrates through the center of the high-crystal plate.

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