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Anti-cracking reinforced suspended ceiling structure

A technology for suspended ceilings and suspenders, applied in the direction of ceilings, building components, building structures, etc., can solve the problems of difficult ceiling maintenance and restoration, and achieve the effect of easy observation or maintenance.

Pending Publication Date: 2021-04-02
SICHUAN TIMES LINKAGE INVESTMENT CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] In order to solve the problems existing in the prior art that it is difficult to remove the suspended ceiling for maintenance or recovery after removal due to installation defects of the suspended ceiling, this application provides a kind of anti-cracking plate as the suspended ceiling plate, and forms a sliding connection between it and the keel, through The sliding anti-cracking plate makes the inspection hole vacant on the ceiling surface, which not only achieves the effect of installation and reinforcement but also facilitates the maintenance of the anti-cracking reinforced ceiling structure

Method used

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  • Anti-cracking reinforced suspended ceiling structure
  • Anti-cracking reinforced suspended ceiling structure
  • Anti-cracking reinforced suspended ceiling structure

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0036] Such as Figure 1-3 A kind of anti-cracking and reinforced suspended ceiling structure shown includes a suspender 1 connected to the top of the wall, a main keel 3 connected to the suspender 1 through a suspender 2, and an auxiliary keel 4 connected to the keel, the auxiliary keel An anti-crack plate 5 is installed on the keel 4, and the side of the auxiliary keel 4 and the anti-crack plate 5 are provided with an upper slide rail 402 and a lower slide rail 401 extending along the length direction and distributed up and down in the height direction; it also includes a sliding assembly, Arranged on both sides of the anti-cracking plate 5 and the slide rail in the vertical direction, the sliding assembly is respectively slidably matched with the upper slide rail 402 and the lower rail 401 and is rotationally connected with the anti-cracking plate 5; the anti-cracking plate 5 is relatively The rotation of the sliding assembly makes the anti-cracking plate 5 change between t...

Embodiment 2

[0042] This embodiment is further optimized and limited on the basis of Embodiment 1.

[0043] The sliding assembly includes a first sliding assembly that cooperates with the lower rail 401 and a second sliding assembly that cooperates with the upper sliding rail 402, and the rotation of the second sliding assembly relative to the auxiliary keel 4 changes the position of the anti-crack plate 5 slope.

[0044] The specific structure is as Figure 4-5 As shown, the second sliding assembly includes a second shaft 8 fixedly connected to the anti-crack plate 5, and two ends of the second shaft 8 are provided with slide plates 9 on the outside of the anti-crack plate 5, and the slide plates 9 are hinged A second sliding member 10 cooperating with the upper sliding rail 402 is provided. . Use slide plate 9 to make up the difference in height between the upper slide rail 402 and the lower rail 401 in the second slider 10 so that the anti-crack plate 5 can be in a horizontal state a...

Embodiment 3

[0049] This embodiment is further optimized and limited on the basis of embodiment 2.

[0050] Such as image 3 and 7 As shown, the width of the upper slide rail 402 is smaller than that of the lower slide rail 401 , and the slide plate 9 is located outside the upper slide rail 402 . When the anti-crack plate 5 is horizontal, the surface A 901 at the bottom of the sliding plate 9 is in contact with the surface of the sliding rail 401 .

[0051] It works as follows:

[0052] The width of the upper sliding rail 402 is smaller than that of the lower rail 401, which provides sufficient space conditions for the rotation of the sliding plate 9 when the anti-cracking plate 5 rotates. At the same time, when the anti-cracking plate 5 is horizontal, the bottom surface of the slide plate 9 always keeps in contact with the surface of the sliding rail 401, so that the sliding rail 401 can provide additional support for the anti-cracking plate 5 and improve the stability of the installat...

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Abstract

The invention relates to the technical field of suspended ceilings, and discloses an anti-cracking reinforced suspended ceiling structure. The anti-cracking reinforced suspended ceiling structure comprises a hanging rod connected with a wall top, a main keel connected with the hanging rod through a hanging piece and an auxiliary keel connected with the main keel, an anti-cracking plate is installed on the auxiliary keel, an upper sliding rail and a lower sliding rail which extend in the length direction and are distributed up and down in the height direction are arranged on the side face, matched with the anti-cracking plate, of the auxiliary keel; the suspended ceiling structure further comprises sliding assemblies, the sliding assemblies are arranged on the two sides, in the direction perpendicular to the sliding rails, of the anti-crack plate, and the sliding assemblies are in sliding fit with the upper sliding rail and the lower sliding rail correspondingly and are rotationally connected with the anti-cracking plate; and the anti-cracking plate rotates relative to the sliding assemblies so that the anti-cracking plate can be converted between the horizontal state and the inclined state. The anti-cracking plate and the auxiliary keel are in sliding fit, the anti-cracking plate can form the inclined state, the two sliding rails are arranged, so that the anti-cracking plate can slide to partially or completely coincide with other anti-cracking plates after being inclined, an opening is vacated in a suspended ceiling layer, and an upper-layer pipeline is convenient to observe or overhaul.

Description

technical field [0001] The present application relates to the technical field of suspended ceilings, in particular to a crack-resistant and reinforced suspended ceiling structure. Background technique [0002] Suspended ceiling refers to a kind of decoration on the top decoration of the living environment of the house. In addition to the functions of heat preservation, heat insulation and sound insulation, it is also a hidden layer for electrical, ventilation and air conditioning, communication and fire protection, and alarm pipeline equipment. When it is necessary to overhaul the pipeline between the suspended ceiling and the roof, it is first necessary to remove part of the suspended ceiling to expose the internal pipeline and vacate the inspection port. After the suspended ceiling is removed, it needs to be restored. The existing ceiling boards mainly have two installation methods: the ceiling board is placed on the keel frame and the ceiling board is snapped on the keel ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): E04B9/00E04B9/06E04B9/18E04B9/24
CPCE04B9/00E04B9/003E04B9/06E04B9/18E04B9/24
Inventor 朱小虎
Owner SICHUAN TIMES LINKAGE INVESTMENT CO LTD
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