CN211780611U - High-rise heavy ceiling lamp supporting structure - Google Patents

Abstract

The utility model provides a high-rise high heavy ceiling lamp bearing structure relates to and decorates construction technical field. According to the high-rise heavy ceiling lamp supporting structure, a supporting beam is assembled and connected at the lower position of a ceiling; two ends of the supporting cross beam are respectively assembled and connected with the left main supporting vertical beam and the right main supporting vertical beam; one end of the left support rod is assembled and connected with the middle position below the support cross beam, and the other end of the left support rod is assembled and connected with the left main support vertical beam; one end of the right support rod is assembled and connected with the middle position below the support cross beam, and the other end of the right support rod is assembled and connected with the right main support vertical beam; the lower ends of the left main supporting vertical beam and the right main supporting vertical beam are assembled and connected with a keel frame; and a pendant lamp is arranged below the keel frame. The utility model has the advantages that: the ceiling lamp supporting structure forms a triangular force decomposition form, deformation force can be released when the upper, lower, left and right torsion deformation occurs, and even if the ceiling lamp shakes left and right, force can be effectively decomposed, so that the surface of the ceiling is prevented from stretching, deforming and cracking.

Description

High-rise heavy ceiling lamp supporting structure

Technical Field

The utility model relates to a decorate construction technical field, especially relate to a high-rise high heavy ceiling lamp bearing structure.

Background

Ceiling lamps are installed on the ceiling with the higher floor height of the house, and the installed ceiling lamps are generally large in size and heavy in weight. Traditional ceiling lamp bearing structure, its structure is welding body structure, and the installation is inconvenient, and ceiling lamp bearing structure can't release the deformation power when torsional deformation to and ceiling lamp bearing structure subsides reasons such as, the flexible deformation in furred ceiling surface, distortion fracture.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high heavy ceiling lamp bearing structure of high-rise, ceiling lamp bearing structure can release the deformation power when torsion warp to avoid the flexible deformation in furred ceiling surface, distortion fracture.

The utility model provides a high-rise heavy ceiling lamp supporting structure, which comprises a ceiling, a supporting beam, a left main supporting vertical beam, a right main supporting vertical beam, a left supporting rod, a right supporting rod, a keel frame and a ceiling lamp;

the lower position of the ceiling is assembled and connected with a supporting beam;

two ends of the supporting cross beam are respectively assembled and connected with the left main supporting vertical beam and the right main supporting vertical beam;

one end of the left support rod is assembled and connected with the middle position below the support cross beam, and the other end of the left support rod is assembled and connected with the left main support vertical beam;

one end of the right support rod is assembled and connected with the middle position below the support cross beam, and the other end of the right support rod is assembled and connected with the right main support vertical beam;

the lower ends of the left main supporting vertical beam and the right main supporting vertical beam are assembled and connected with a keel frame;

and a pendant lamp is arranged below the keel frame.

Preferably, the high-rise heavy ceiling lamp supporting structure further comprises an upper assembling seat, a left assembling seat and a right assembling seat;

an upper assembling seat is assembled at the middle position below the supporting cross beam, and a left upper inserting port and a right upper inserting port are arranged on the upper assembling seat;

a left assembling seat is assembled on the left main supporting vertical beam, and a left lower inserting port is formed in the left assembling seat;

a right assembling seat is assembled on the right main supporting vertical beam, and a right lower inserting port is arranged on the right assembling seat;

one end of the left stay bar is assembled and connected with the left upper inserting port, and the other end of the left stay bar is assembled and connected with the left lower inserting port;

one end of the right stay bar is assembled and connected with the upper right insertion port, and the other end of the right stay bar is assembled and connected with the lower right insertion port.

Preferably, a left anti-buckling rod is assembled and connected between the left support rod and the left main support vertical beam; and a right anti-buckling rod is assembled and connected between the right supporting rod and the right main supporting vertical beam.

Preferably, keel frame includes horizontal fossil fragments and indulges the fossil fragments, and many horizontal fossil fragments and many are indulged fossil fragments staggered arrangement and form keel frame.

Preferably, the high-rise high-heavy ceiling lamp supporting structure further comprises a left auxiliary supporting vertical beam and a right auxiliary supporting vertical beam; the left auxiliary supporting vertical beam is positioned on the outer side of the left main supporting vertical beam, one end of the left auxiliary supporting vertical beam is assembled and connected with the position below a ceiling, and the other end of the left auxiliary supporting vertical beam is assembled and connected with the keel frame; the right auxiliary supporting vertical beam is positioned on the outer side of the right main supporting vertical beam, one end of the right auxiliary supporting vertical beam is assembled and connected with the position below a ceiling, and the other end of the right auxiliary supporting vertical beam is assembled and connected with the keel frame.

Preferably, the lower surface of keel frame is provided with the gypsum board.

Compared with the prior art, the utility model discloses a high-rise high heavy ceiling lamp bearing structure has following characteristics and advantage:

the high-rise heavy ceiling lamp supporting structure of the utility model has simple structure and convenient installation; the ceiling lamp supporting structure forms a triangular force decomposition form, deformation force can be released when the upper, lower, left and right torsion deformation occurs, and even if the ceiling lamp shakes left and right, force can be effectively decomposed, so that the surface of the ceiling is prevented from stretching, deforming and cracking.

After reading the detailed description of the present invention in conjunction with the drawings, the features and advantages of the present invention will become more apparent.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a support structure of a high-rise heavy ceiling lamp according to an embodiment.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

In the description of the present invention, it should be noted that the terms "inside", "outside", "upper", "lower", "front", "rear", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

As shown in fig. 1, the present embodiment provides a high-rise, high-weight ceiling lamp supporting structure, which includes a ceiling 1, a supporting cross beam 21, a left main supporting vertical beam 22, a right main supporting vertical beam 23, a left stay 31, a right stay 32, a ceiling lamp 5, and the like.

The connecting support beams 21 are fitted at a lower position of the ceiling 1. The two ends of the supporting cross beam 21 are respectively assembled and connected with a left main supporting vertical beam 22 and a right main supporting vertical beam 23. The supporting cross beam 21, the left main supporting vertical beam 22 and the right main supporting vertical beam 23 constitute a frame structure, bearing most of the weight of the ceiling lamp 5.

One end of the left stay bar 31 is assembled and connected with the middle position below the supporting cross beam 21, and the other end of the left stay bar 31 is assembled and connected with the left main supporting vertical beam 22; one end of the right support rod 32 is assembled and connected with the lower middle position of the support cross beam 21, and the other end of the right support rod 32 is assembled and connected with the right main support vertical beam 23. Specifically, an upper assembling seat 41 is assembled at the middle position below the supporting beam 21, and a left upper inserting port and a right upper inserting port are arranged on the upper assembling seat 41; a left assembling seat 42 is assembled at the lower end of the left main supporting vertical beam 22, and a left lower inserting port is formed in the left assembling seat 42; the lower end of the right main supporting vertical beam 23 is provided with a right assembling seat 43, and a right lower inserting port is arranged on the right assembling seat 43. One end of the left stay bar 31 is assembled and connected with the left upper socket, and the other end of the left stay bar 31 is assembled and connected with the left lower socket; one end of the right stay bar 32 is assembled and connected with the upper right socket, and the other end of the right stay bar 32 is assembled and connected with the lower right socket.

In this way, inside the frame structure constituted by the supporting lateral beams 21, the left main supporting vertical beam 22 and the right main supporting vertical beam 23, the left stay 31, the right stay 32, the upper fitting seat 41, the left fitting seat 42 and the right fitting seat 43 form a triangular force-resolved form. In addition, the left stay 31 and the right stay 32 are easy to install.

A left anti-buckling rod 61 is assembled and connected between the left support rod 31 and the left main support vertical beam 22; a right buckling-restrained brace 62 is assembled between the right brace 32 and the right main supporting vertical beam 23 to reinforce the left brace 31 and the right brace 32.

The lower ends of the left main supporting vertical beam 22 and the right main supporting vertical beam 23 are assembled and connected with the keel frame. The keel frame comprises a transverse keel 71 and a longitudinal keel 72, and the transverse keel 71 and the longitudinal keel 72 are arranged in a staggered mode to form the keel frame.

The lower surface of the keel frame is provided with a gypsum board 9. A pendant lamp 5 is arranged at the lower position of the keel frame. The lamp holder of the ceiling lamp 5 is attached to the gypsum board 9.

In order to further strengthen the support of the keel frame, a left auxiliary supporting vertical beam 81 is arranged on the outer side of the left main supporting vertical beam 22, and a right auxiliary supporting vertical beam 82 is arranged on the outer side of the right main supporting vertical beam 23. One end of the left auxiliary supporting vertical beam 81 is assembled and connected with the position below the ceiling 1 through a bolt 83, and the other end of the left auxiliary supporting vertical beam 81 is assembled and connected with a keel frame; one end of the right auxiliary supporting vertical beam 82 is assembled and connected with the position below the ceiling 1 through a bolt 83, and the other end of the right auxiliary supporting vertical beam 82 is assembled and connected with the keel frame.

Of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and the changes, modifications, additions or substitutions made by those skilled in the art within the scope of the present invention should also belong to the protection scope of the present invention.

Claims (6)

1. The utility model provides a high heavy ceiling lamp bearing structure of high-rise which characterized in that: the ceiling lamp comprises a ceiling, a supporting cross beam, a left main supporting vertical beam, a right main supporting vertical beam, a left supporting rod, a right supporting rod, a keel frame and a ceiling lamp;

the lower position of the ceiling is assembled and connected with a supporting beam;

two ends of the supporting cross beam are respectively assembled and connected with the left main supporting vertical beam and the right main supporting vertical beam;

one end of the left support rod is assembled and connected with the middle position below the support cross beam, and the other end of the left support rod is assembled and connected with the left main support vertical beam;

one end of the right support rod is assembled and connected with the middle position below the support cross beam, and the other end of the right support rod is assembled and connected with the right main support vertical beam;

the lower ends of the left main supporting vertical beam and the right main supporting vertical beam are assembled and connected with a keel frame;

and a pendant lamp is arranged below the keel frame.

2. The high-rise heavy ceiling lamp supporting structure according to claim 1, wherein: the high-rise heavy ceiling lamp supporting structure further comprises an upper assembling seat, a left assembling seat and a right assembling seat;

an upper assembling seat is assembled at the middle position below the supporting cross beam, and a left upper inserting port and a right upper inserting port are arranged on the upper assembling seat;

a left assembling seat is assembled on the left main supporting vertical beam, and a left lower inserting port is formed in the left assembling seat;

a right assembling seat is assembled on the right main supporting vertical beam, and a right lower inserting port is arranged on the right assembling seat;

one end of the left stay bar is assembled and connected with the left upper inserting port, and the other end of the left stay bar is assembled and connected with the left lower inserting port;

one end of the right stay bar is assembled and connected with the upper right insertion port, and the other end of the right stay bar is assembled and connected with the lower right insertion port.

3. The high-rise heavy ceiling lamp supporting structure according to claim 2, wherein: a left anti-buckling rod is assembled and connected between the left support rod and the left main support vertical beam; and a right anti-buckling rod is assembled and connected between the right supporting rod and the right main supporting vertical beam.

4. The high-rise heavy ceiling lamp supporting structure according to claim 1, wherein: the keel frame comprises transverse keels and longitudinal keels, and the plurality of transverse keels and the plurality of longitudinal keels are arranged in a staggered mode to form the keel frame.

5. The high-rise heavy ceiling lamp supporting structure according to claim 1, wherein: the high-rise high-weight ceiling lamp supporting structure further comprises a left auxiliary supporting vertical beam and a right auxiliary supporting vertical beam; the left auxiliary supporting vertical beam is positioned on the outer side of the left main supporting vertical beam, one end of the left auxiliary supporting vertical beam is assembled and connected with the position below a ceiling, and the other end of the left auxiliary supporting vertical beam is assembled and connected with the keel frame; the right auxiliary supporting vertical beam is positioned on the outer side of the right main supporting vertical beam, one end of the right auxiliary supporting vertical beam is assembled and connected with the position below a ceiling, and the other end of the right auxiliary supporting vertical beam is assembled and connected with the keel frame.

6. The high-rise heavy ceiling lamp supporting structure according to claim 1, wherein: the lower surface of keel frame is provided with the gypsum board.

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