CN210342407U - Lamp pool ceiling - Google Patents

Abstract

The utility model discloses a lamp house suspended ceiling relates to the technical field of interior decoration, and comprises a plurality of suspenders and a wall body, wherein the suspenders are divided into two groups which are parallel, each group of suspenders is connected with a first large core plate which is vertically arranged, and the opposite side of the first large core plate is respectively fixed with a second large core plate and a third large core plate which are distributed up and down and horizontally arranged, the bottom end of the third large core plate is aligned with the bottom end of the first large core plate, the second large core plate is abutted against the first large core plates on the two sides of the second large core plate and the wall body, and the third large core plate is abutted against the first large core plate which is close to the third large core plate but keeps a space with the wall body; first gypsum boards are fixed on the second large core board, the third large core board and the first large core board, and a second gypsum board is fixed at the bottom end of the third large core board; and a lamp strip is fixed at the top end of the third large core board. The utility model discloses the effect that the gypsum board is difficult for the fracture has.

Description

Lamp pool ceiling

Technical Field

The utility model belongs to the technical field of interior decoration's technique and specifically relates to a lamp house furred ceiling is related to.

Background

The suspended ceiling is a decoration for decorating the top of the residential environment of a house. In short, it refers to the decoration of ceiling, which is one of the important parts of interior decoration.

The existing Chinese patent document with the publication number of CN203393884U discloses a modeling gypsum board suspended ceiling, which comprises a hanging rib, a main keel, an L-shaped corner brace, a secondary keel, a gypsum board and a finished decoration part, wherein the main keel, the secondary keel and the gypsum board form a flat ceiling mounting structure part; the L-shaped corner brace and the finished decoration part form a decoration part mounting structure part, the side edge of the L-shaped corner brace is connected with the finished decoration part, and the upper end of the L-shaped corner brace is connected to the top of the building through a hanging rib; the finished trim part is connected to the false keel for horizontal fixation.

The above-mentioned comparison file adopts fixing the fossil fragments at the jib of fixing on the roof capital construction, installs the gypsum board on fossil fragments at last, forms smooth furred ceiling. In order to further pursue the ornamental effect of interior decoration, designers design the suspended ceiling into a plurality of inverted layers of step shapes, and the edge contour of each layer of suspended ceiling is a curved surface or other special shapes.

However, due to poor toughness of the gypsum board, the gypsum board is prone to cracking under the influence of expansion with heat and contraction with cold and the influence of a construction process, especially under the condition that the keel is not regularly installed in an inclined mode or the keel is bent to a certain degree during construction, and the attractiveness of the indoor building suspended ceiling is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a lamp house furred ceiling, it has the difficult effect that ftractures of gypsum board.

The above object of the present invention can be achieved by the following technical solutions:

a lamp house suspended ceiling comprises a plurality of suspension rods anchored on a roof and a wall body standing upright in a house, wherein the suspension rods are divided into two groups which are parallel, each group of suspension rods is connected with a first large core plate which is vertically arranged, a space is reserved between the two first large core plates, a second large core plate which is positioned in the middle of the first large core plate and a third large core plate which is positioned at the bottom end of the first large core plate are respectively fixed at one opposite side of the first large core plate, the second large core plate and the third large core plate are horizontally arranged, the bottom end of the third large core plate is aligned with the bottom ends of the first large core plates, the second large core plate abuts against the first large core plates at the two sides of the second large core plate and the wall body, and the third large core plate abuts against the first large core plates which are close to the third large core plates but is spaced from the wall body; the bottom end of the second large core plate, the opposite ends of the two third large core plates and the plate body of the first large core plate between the second large core plate and the third large core plate are respectively fixed with a first gypsum board, the bottom end of the third large core plate is also fixed with a second gypsum board, and the second gypsum board is bridged between the two third large core plates and is aligned with the opposite ends of the two third large core plates; and a lamp strip is fixed at the top end of the third large core board.

Through adopting above-mentioned technical scheme, big core belongs to thick plate, and the ability of resisting the deformation is stronger, and the surface that gypsum board and big core contacted can laminate on big core completely moreover, not only improves joint strength, has not had local concentrated stress moreover. The gypsum board is not easy to crack.

The utility model discloses further set up to: and two parallel first square timbers are fixed at the top end of the second large core plate, one first square timbers is fixedly connected with the first large core plate, and the other first square timbers are fixedly connected with the side walls.

Through adopting above-mentioned technical scheme, the effect of connecting the big core board of second and side wall and first big core board can be played to first square timber, and the right angle of first square timber restricts the change of the angle between the big core board of second and between the big core board of third and the side wall to a certain extent simultaneously, the stability of improvement structure that can be better.

The utility model discloses further set up to: and a second square wood is fixed at the bottom end of the opposite end surface of the opposite first large core plate, and a self-tapping screw penetrating through the second large core plate and extending into the third large core plate is screwed into the second square wood.

Through adopting above-mentioned technical scheme, can be under the condition that does not influence the gypsum board fixed big core plate of third.

The utility model discloses further set up to: and the second gypsum board is fixedly connected with the third large core board and also fixedly connected with the second square timber.

Through adopting above-mentioned technical scheme, improve the joint strength of first gypsum board.

The utility model discloses further set up to: the hanger rod is fixedly connected with the first large core board through a right-angled corner connector, the corner connector comprises a horizontal portion and a vertical portion, the horizontal portion is perpendicular to the vertical portion, and the vertical portion is fixedly connected with the first large core board through at least one self-tapping screw.

Through adopting above-mentioned technical scheme, with jib and first big core board fixed linking to each other.

The utility model discloses further set up to: the vertical portion is fixedly connected with the first large core plate by two tapping screws.

By adopting the technical scheme, the connection strength can be improved, and the local torsion of the first large core plate is limited.

The utility model discloses further set up to: the first large core plate and the second large core plate are equal in thickness, and the thickness of the third large core plate is twice that of the first large core plate.

Through adopting above-mentioned technical scheme, because the top of the big core board of third needs fixed lamp area, the second gypsum board need be fixed to the bottom, for the fixed mutual noninterference at the upper and lower both ends that makes the big core board of third, so increase the big core board thickness of third.

The utility model discloses further set up to: the lamp strip is an LED lamp strip.

Through adopting above-mentioned technical scheme, LED lamp is more energy-conserving.

To sum up, the utility model discloses a beneficial technological effect does:

1. the gypsum board is fixed on the large core board, and the surface of the gypsum board, which is in contact with the large core board, can be completely attached to the large core board, so that the connection strength is improved, and the gypsum board is not easy to crack due to no local concentrated stress;

2. by arranging the first square timber, the first square timber can play a role in connecting the second large core board with the side wall and the first large core board, and meanwhile, the right angle of the first square timber limits the change of the angle between the second large core board and the second core board and the angle between the third large core board and the side wall to a certain extent, so that the stability of the structure can be better improved;

3. through with the second square timber, the second square timber can be fixed the big core plate of third under the condition that does not influence the gypsum board.

Drawings

FIG. 1 is a schematic structural view of a pool ceiling;

fig. 2 is a partially enlarged view of a portion a in fig. 1.

In the figure, 1, a wall body; 2. a boom; 31. a first large core board; 32. a second large core board; 33. a third large core board; 41. a first square timber; 42. a second square timber; 5. corner connectors; 51. a horizontal portion; 52. a vertical portion; 61. a first gypsum board; 62. a second gypsum board; 7. a light strip.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, the utility model discloses a lamp house furred ceiling, including vertical wall body 1 of standing up and a plurality of jibs 2 of anchoring in the vertical decurrent house top in the house. The plurality of suspenders 2 are equally divided into two rows, the bottom end of each suspender 2 is fixedly connected with a right-angled corner connector 5, and a first vertically-arranged rectangular large core plate 31 is arranged below each row of suspenders 2. The first large core plate 31 is connected to the opposite row of suspension bars 2 by corner braces 5. A space is left between the two first large core plates 31.

The corner connector 5 is right-angled and includes a horizontal portion 51 and a vertical portion 525 that are integrally connected. The vertical part 2 is fixedly connected with the first large core plate 31 through two self-tapping screws, and the horizontal part 51 is fixedly connected with the suspension rod 2.

The second large core plate 32 and the third large core plate 33 which are rectangular are sequentially arranged from top to bottom at two sides of the two first large core plates 31 which are deviated from each other. The second large core plate 32 is equal in thickness to the first large core plate 31; the thickness of the third large core plate 33 is twice that of the first large core plate 31.

The second large core plate 32 is disposed horizontally and opposite to the middle of the first large core plate 31. The second large core board 32 abuts against the adjacent first large core board 31 and the wall body 1. Two first square timbers 41 parallel to the first large core plate 31 are fixed at the top end of the second large core plate 32 through self-tapping screws, wherein one first square timbers 41 is fixedly connected with the first large core plate 31 through self-tapping screws, and the other first square timbers 41 are fixedly connected with the wall body 1 through self-tapping screws.

The first square timber 41 can play a role in connecting the second large core plate 32 with the side wall and the first large core plate 31, and meanwhile, the right angle of the first square timber 41 limits the change of the angle between the second large core plate 32 and the second core plate and the change of the angle between the third large core plate 33 and the side wall to a certain extent, so that the structural stability can be better improved.

The third large core plate 33 is disposed horizontally and at the bottom end of the first large core plate 31. The bottom end face of the third large core plate 33 is aligned with the bottom end face of the first large core plate 31. The third large core board 33 is abutted against the adjacent first large core board 31, but is spaced from the adjacent wall body 1. And a lamp strip 7 of the LED is fixed on the top end face of the third large core board 33.

The bottom ends of the opposite end surfaces of the two first large core plates 31 are respectively fixed with second square timbers 42 through self-tapping screws. The bottom end face of the second square lumber 42 is aligned with the bottom end face of the first large core plate 31. A tapping screw fixed to the second square lumber 42 penetrates the first large core plate 31 and is screwed into the third large core plate 33. The second square lumber 42 can fix the third large core board 33 without affecting the gypsum board.

The bottom end of the second large core plate 32, the opposite ends of the two third large core plates 33, and the opposite end surfaces of the plate body of the two first large core plates 31 between the second large core plate 32 and the third large core plates 33 are all fixed with first gypsum boards 61. A second gypsum board 62 bridging between the two third large core plates 33 is fixed to the bottom end surfaces of the third large core plates 33. The opposite ends of the second gypsum board 62 are respectively aligned with the opposite ends of the two third core boards 33. The second gypsum board 62 is fixedly connected to the third core 33 and also fixedly connected to the second square timber 42.

The surface that gypsum board and big core board contacted can laminate on big core board completely, not only improves joint strength, has not had local concentrated stress moreover, makes the difficult fracture of gypsum board.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The utility model provides a lamp house furred ceiling, includes a plurality of jibs (2) of anchor on roof and the wall body (1) standing upright in the room, its characterized in that: the plurality of the hanging rods (2) are divided into two parallel groups, each group of the hanging rods (2) is connected with a first large core plate (31) which is vertically arranged, a space is reserved between the two first large core plates (31), a second large core plate (32) which is positioned in the middle of the first large core plate (31) and a third large core plate (33) which is positioned at the bottom end of the first large core plate (31) are respectively fixed on the opposite sides of the first large core plates (31), the second large core plate (32) and the third large core plate (33) are both horizontally arranged, the bottom end of the third large core plate (33) is aligned with the bottom end of the first large core plate (31), the second large core board (32) is abutted against the first large core boards (31) on the two sides of the second large core board and the wall body (1), the third large core board (33) is abutted against the first large core board (31) close to the third large core board but is spaced from the wall body (1); the bottom end of the second large core plate (32), the opposite ends of the two third large core plates (33) and the opposite end surfaces of the plate bodies of the two first large core plates (31) between the second large core plate (32) and the third large core plates (33) are respectively fixed with a first gypsum board (61), the bottom end of the third large core plate (33) is also fixed with a second gypsum board (62), and the second gypsum board (62) is bridged between the two third large core plates (33) and is aligned with the opposite ends of the two third large core plates (33); and a lamp strip (7) is fixed at the top end of the third large core plate (33).

2. The light house ceiling of claim 1, wherein: two parallel first square timbers (41) are fixed at the top end of the second large core plate (32), one first square timbers (41) is fixedly connected with the first large core plate (31), and the other first square timbers (41) are fixedly connected with the wall body (1).

3. The light house ceiling of claim 1, wherein: and a second square timber (42) is fixed at the bottom end of the opposite end surface of the opposite first large core plate (31), and a self-tapping screw which penetrates through the second large core plate (32) and extends into the third large core plate (33) is screwed into the second square timber (42).

4. The light house ceiling of claim 3, wherein: the second gypsum board (62) is fixedly connected with the third large core board (33) and is also fixedly connected with the second square timber (42).

5. The light house ceiling of claim 1, wherein: the hanger rod (2) is fixedly connected with the first large core plate (31) through a right-angled corner connector (5), the corner connector (5) comprises a horizontal part and a vertical part, the horizontal part is perpendicular to the vertical part, the horizontal part is connected with the hanger rod (2), and the vertical part is fixedly connected with the first large core plate (31) through at least one self-tapping screw.

6. The light house ceiling of claim 5, wherein: the vertical portion is fixedly connected with the first large core plate (31) by using two self-tapping screws.

7. The light house ceiling of claim 1, wherein: the first large core plate (31) and the second large core plate (32) are equal in thickness, and the thickness of the third large core plate (33) is twice that of the first large core plate (31).

8. The light house ceiling of claim 1, wherein: the lamp strip (7) is an LED lamp strip.

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