CN217924340U - Novel suspended ceiling conversion layer system - Google Patents

Abstract

The utility model discloses a novel decoration ceiling conversion layer system, which comprises a switching corner connector, a support rod, a transverse keel and a longitudinal keel, wherein the ceiling roof is fixed with the switching corner connector through an expansion bolt, the upper end of the support rod is detachably connected with the vertical side wall of the switching corner connector through a fastener, and the longitudinal keel and the transverse keel are vertically crossed and arranged and are detachably connected with the support rod through fasteners respectively; slotted holes for installing fasteners are respectively formed in the switching angle connector, the support rod, the transverse keel and the longitudinal keel, and the longitudinal keel and the transverse keel are fixedly connected through a hanging rod and a nut which are connected with a ceiling surface layer system. The construction method is simple and the construction time is shortened. The structural parts are connected through the fasteners, so that dynamic load can be borne, the anti-seismic performance is better, the maintenance is more convenient, and the cost is saved. The transverse keels and the longitudinal keels are effectively connected and fixed into a whole through the hanging rods connected with the ceiling surface layer system, and the stability and the deformation resistance of the ceiling system can be guaranteed.

Description

Novel suspended ceiling conversion layer system

Technical Field

The utility model belongs to fitment furred ceiling field specifically is a novel furred ceiling conversion layer system.

Background

The furred ceiling conversion layer is the fossil fragments that the furred ceiling height exceeded 2500mm for consolidating the furred ceiling use when fitment furred ceiling. The furred ceiling passes through the jib and connects on the conversion layer, all has the impetus on the conversion layer, can effectively alleviate the pressure of furred ceiling top fossil fragments, lets fossil fragments can not break because of the atress is too big, lets house decoration security performance improve greatly.

Furred ceiling conversion layer generally highly surpasss 2500mm a furred ceiling system of doing often at the furred ceiling, and the furred ceiling conversion layer system that the construction was commonly used at present all links together conversion layer steel joist through the welded form, has certain limitation, and will carry out welding operation, has certain pollution to the environment, and the construction cycle is long, and the efficiency of construction is low, and then has increased the time limit for a project and construction cost, is not conform to the theory of green construction, inconvenient later maintenance simultaneously.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a be the novel furred ceiling conversion layer system that can dismantle the connection between each structure, the environmental protection is high-efficient when not only the installation is under construction, the local maintenance in the later stage of being convenient for moreover is changed.

The utility model provides a technical scheme of this kind of novel fitment furred ceiling conversion layer system does: the ceiling roof comprises a switching corner connector, a support rod, a transverse keel and a longitudinal keel, wherein the switching corner connector is fixed on the ceiling roof through an expansion bolt, the upper end of the support rod is detachably connected with the vertical side wall of the switching corner connector through a fastener, and the longitudinal keel and the transverse keel are vertically arranged in a crossed manner and are detachably connected with the support rod through fasteners respectively; slotted holes for installing fasteners are respectively formed in the switching angle connector, the support rod, the transverse keel and the longitudinal keel, and the longitudinal keel and the transverse keel are fixedly connected through a hanging rod and a nut which are connected with a ceiling surface layer system.

In an embodiment of the above technical scheme, the support rod, the longitudinal keel and the transverse keel are all made of C-shaped steel, three corners of the C-shaped steel are right angles, and two side wall surfaces of the middle right angle are respectively provided with a row of long round holes along the length direction.

In an embodiment of the foregoing technical solution, two sides of the adapter connector are respectively provided with a plurality of long circular holes along a width direction thereof.

In an embodiment of the above technical solution, the fastening member is a bolt passing through the oblong hole and a nut matching the bolt.

In an embodiment of the above technical scheme, the vertical side wall of the transverse keel is attached to the bottom of the transverse side wall of the support rod and then is fixedly connected through the fastener, and the lower end of the support rod extends out of the transverse keel.

In an embodiment of the above technical scheme, the longitudinal keel is arranged below the transverse keel, and the horizontal side wall is attached to the horizontal side wall of the transverse keel and the vertical side wall of the vertical side wall and the supporting rod and then fixed through the fastener.

In one embodiment of the above technical scheme, the joint of the transverse keel and the longitudinal keel is connected and locked by a hanging rod and a nut used for connecting the ceiling surface layer.

The connection can be dismantled through the fastener between each structure of this conversion layer system, and each structure sets up the slotted hole that is used for installing the fastener respectively, and the switching angle sign indicating number is fixed in the furred ceiling roofing through expansion bolts, and the bracing piece is connected with the switching angle sign indicating number for whole conversion layer system location is more convenient. The supporting rods are connected with the transverse keels and the longitudinal keels through fasteners respectively, the height of the suspended ceiling can be locally adjusted by means of the long round holes in the supporting rods, the construction method is simple, and the construction time can be effectively shortened. The pollution of electric welding construction can be effectively reduced through the fastener connection between each structure, reaches green construction requirement, and bolted connection can bear dynamic load simultaneously, and anti-seismic performance is better, and it is more convenient to maintain, compares ordinary conversion layer system and will save the cost more. The transverse keel and the longitudinal keel are effectively connected and fixed into a whole through the hanging rod connected with the ceiling surface layer system, and meanwhile, the long round holes of the hanging rod installed on the transverse keel and the longitudinal keel are vertically intersected to form a small square hole or a small round hole, so that the hanging rod can be prevented from generating a displacement phenomenon, and the stability and the deformation resistance of the ceiling system are achieved.

Drawings

Fig. 1 is a schematic front view of an embodiment of the present invention.

Fig. 2 is a schematic view of an assembly joint of the support rod and the transfer corner connector in the present embodiment.

Fig. 3 is a schematic view of an assembly joint of the support rod, the base frame and the suspension rod in the present embodiment.

Fig. 4 is a schematic structural view of the support bar, the transverse keels and the longitudinal keels in the present embodiment.

Detailed Description

As can be seen from fig. 1 to 4, the novel ceiling transition layer system disclosed in this embodiment mainly includes a support bar 1, a transfer corner connector 2, a transverse keel 3, and a longitudinal keel 4.

The supporting rod 1, the transverse keel 3 and the longitudinal keel 4 are made of C-shaped steel with the same specification, three corners of the C-shaped steel are right angles, and two side wall surfaces of the middle right angle are respectively provided with a row of long round holes along the length direction.

The switching angle sign indicating number 2 also adopts the preparation of C shaped steel section, usable bracing piece, horizontal fossil fragments and the material that cuts of vertical fossil fragments.

The horizontal side wall of the switching corner connector 2 is fixedly installed on the ceiling roof through expansion bolts, and the vertical side wall of the switching corner connector 2 is attached to the top of the vertical side wall of the supporting rod and then locked through nuts after being connected through bolts penetrating through the long round holes in the arms on the two sides.

The vertical side wall of the transverse keel 3 faces outwards, the horizontal side wall faces downwards, the vertical side wall of the transverse keel and each support rod 1 are provided with vertical side walls, the vertical side walls are attached to each other, then the vertical side walls are connected through bolts penetrating through the long round holes in the arms at the two sides, and then the transverse keel is locked through nuts.

Vertical fossil fragments 4 quadrature fork are arranged in the below of horizontal fossil fragments, and after the bolted connection through the slotted hole on the arm of both sides, rethread nut locking, the laminating of horizontal side arm and the horizontal lateral wall of horizontal fossil fragments is passed through behind the vertical lateral wall laminating of vertical lateral wall and bracing piece.

Description of the drawings: in fig. 1, the connecting bolts and the locking nuts between the switching corner connectors and the supporting rods, and between the supporting rods and the transverse keels and the longitudinal keels are not shown.

The transverse keels and the longitudinal keels are respectively installed and fixed through the supporting rods, and the transverse keels and the longitudinal keels are not connected. In order to improve the overall stability and the stress performance of the conversion layer, the transverse keel and the longitudinal keel are connected into a whole by the suspender 5 which is connected with the ceiling surface layer system 6: the upper end of the suspender is screwed with a nut, then the suspender passes through the longitudinal keel and the long round hole of the vertical rubber on the horizontal side wall of the transverse keel, and then the upper end of the suspender is screwed with two nuts for locking.

The installation and construction process of the suspended ceiling conversion layer system is as follows:

(1) Mounting expansion bolt on suspended ceiling roof

Firstly, a hole for installing an expansion bolt is formed in the suspended ceiling roof according to a design position, and then an expansion sleeve of the expansion bolt is fixed in the hole.

(2) Mounting and fixing transfer corner connector

The horizontal lateral wall of switching angle sign indicating number passes through expansion bolts's screw rod, nut installation is fixed, pays attention to the straightness that hangs down of the vertical lateral wall of adjustment corner angle sign indicating number.

(3) Mounting support rod

The top of the longitudinal side wall of the supporting rod is attached to the vertical side wall of the switching corner connector and then locked through the bolt connecting nut.

(4) Mounting transverse keel

And the vertical side wall of the transverse keel is attached to the vertical side wall of the support rod and then locked through the bolt connecting nut.

(5) Mounting longitudinal keel

The vertical keel orthogonal fork is arranged below the transverse keel, the vertical side wall of the vertical keel is locked by the bolt connecting nut after being attached to the vertical side wall of the supporting rod, and at the moment, the vertical keel is attached to the horizontal side wall of the transverse keel.

(6) Installation suspender

The upper end of the hanger rod is first screwed with a nut, then passes through the horizontal side walls of the longitudinal keel and the transverse keel, and then is screwed with two nuts.

And finally, the lower end of the suspension rod is connected with a main crane 7 to install and fix a suspended ceiling surface layer system 6, namely the whole suspended ceiling system is formed.

The connection can be dismantled through the fastener between each structure of this conversion layer system, and each structure sets up the slotted hole that is used for installing the fastener respectively, and the switching angle sign indicating number is fixed in the furred ceiling roofing through expansion bolts, and the bracing piece is connected with the switching angle sign indicating number for whole conversion layer system location is more convenient. The supporting rods are connected with the transverse keels and the longitudinal keels through fasteners respectively, the height of the suspended ceiling can be locally adjusted by means of the long round holes in the supporting rods, the construction method is simple, and the construction time can be effectively shortened. The pollution of electric welding construction can be effectively reduced through the fastener connection between each structure, reaches green construction requirement, and bolted connection can bear dynamic load simultaneously, and anti-seismic performance is better, and it is more convenient to maintain, compares ordinary conversion layer system and will save the cost more. The transverse keel and the longitudinal keel are effectively connected and fixed into a whole through the hanging rod connected with the ceiling surface layer system, and meanwhile, the long round holes of the hanging rod installed on the transverse keel and the longitudinal keel are vertically intersected to form a small square hole or a small round hole, so that the hanging rod can be prevented from generating a displacement phenomenon, and the stability and the deformation resistance of the ceiling system are achieved.

Claims (6)

1. A novel furred ceiling conversion layer system which characterized in that: the system comprises a switching angle code, a support rod, a transverse keel and a longitudinal keel, wherein the switching angle code is fixed on the suspended ceiling roof through an expansion bolt, the upper end of the support rod is detachably connected with the vertical side wall of the switching angle code through a fastener, and the longitudinal keel and the transverse keel are vertically arranged in a crossed manner and are detachably connected with the support rod through fasteners respectively; the connecting angle code, the support rod, the transverse keel and the longitudinal keel are respectively provided with a long round hole for installing a fastener, and the longitudinal keel and the transverse keel are fixedly connected through a hanging rod and a nut which are connected with a ceiling surface layer system.

2. A novel ceiling transition layer system as set forth in claim 1 wherein: the support rod, the longitudinal keel and the transverse keel are all made of C-shaped steel, three corners of the C-shaped steel are right angles, and two side wall surfaces of the middle right angle are respectively provided with a row of long round holes along the length direction.

3. A novel ceiling transition layer system as set forth in claim 2 wherein: and a plurality of long round holes are respectively arranged on two sides of the adapter connector along the width direction of the adapter connector.

4. A novel ceiling transition layer system as set forth in claim 3 wherein: the fastener is a bolt penetrating through the long round hole and a matched nut thereof.

5. The novel ceiling transition layer system of claim 4, wherein: the vertical side wall of the transverse keel provided with the long round hole is attached to the bottom of the transverse side wall of the supporting rod and then connected and fixed through the fastener, and the lower end of the supporting rod extends out of the transverse keel.

6. The novel ceiling transition layer system of claim 5, wherein: the longitudinal keel is arranged below the transverse keel, and the horizontal side wall is attached to the horizontal side wall of the transverse keel and the vertical side wall of the supporting rod and then passes through the fastener.

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