CN212957202U - Big board tower bridge mounting structure of aluminium honeycomb - Google Patents

Abstract

The utility model relates to a big board tower bridge mounting structure of aluminium honeycomb, including fossil fragments, connecting piece, furred ceiling plate and hang and connect the piece, characteristics are: the keel comprises a frame keel, a main keel and a triangular keel, the keels are connected through a connecting piece, the connecting piece comprises a T-shaped connecting piece and a cross-shaped connecting piece, the clamping hooks and the clamping groove structures are arranged on a square grid formed by the keels, the main keel is connected with a floor slab through a hanging piece, the hanging piece is composed of a hanging rod and a hanging piece, and the clamping hooks are formed at the bottom of the hanging piece. The utility model discloses keel and connecting piece to tower bridge structure have carried out redesign, have designed the joint portion of being convenient for to connect and fix in the upper end of keel, have designed the couple groove of being convenient for to install the furred ceiling board at the lower extreme of keel, and the connecting piece has designed two kinds of structures of T type and cross according to mounted position to suitable keel has designed two kinds of draw-in groove structures, make tower bridge structure have advantages such as easy dismounting, sound construction, the third dimension is strong, the aesthetic property is good.

Description

Big board tower bridge mounting structure of aluminium honeycomb

Technical Field

The utility model belongs to the technical field of interior decoration, concretely relates to big board tower bridge mounting structure of aluminium honeycomb.

Background

The suspended ceiling is a decoration of the top decoration of a living room, is an important component of indoor decoration, not only can be used as a hidden layer of pipeline lines and facilities of communication, illumination, air conditioning and the like to play a role in beautifying the indoor environment and creating a three-dimensional space, but also has the functions of heat preservation, heat insulation, sound absorption and the like. Traditional furred ceiling utilizes gypsum board, wooden fossil fragments to make mostly, because thermoelectricity is comparatively concentrated, arouses the circuit ageing easily, and life is shorter to dismantle and maintain the difficulty, and integrated furred ceiling is through carrying out modularization, unitized design with the furred ceiling, can solve traditional furred ceiling's above-mentioned problem well, has gradually become the mainstream of current society and has selected.

However, the mounting structure of the existing integrated ceiling is still relatively complex, the types of the used components are multiple, the mounting is complex, the construction period is long, the construction cost is high, the mounting and dismounting are not convenient, and the later maintenance and the replacement of the integrated ceiling are not facilitated. In addition, each mounting panel of current integrated furred ceiling is in the coplanar basically, can't realize the nimble staggered floor of mounting panel and arrange, and third dimension and stereovision are relatively poor, and space utilization is low, and the aesthetic property is not enough.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the above-mentioned not enough that exists among the prior art, and provide a easy dismounting, installation effectiveness height, sound construction, the third dimension is strong, the good aluminium honeycomb big slab tower bridge mounting structure of aesthetic property.

The utility model provides a technical scheme that above-mentioned problem adopted is: this big board tower bridge mounting structure of aluminium honeycomb, including fossil fragments, connecting piece, furred ceiling plate and hang the connecting piece, its characterized in that: the frame keel comprises a frame keel, a main keel and a triangular keel, the frame keel comprises a first clamping part, a first supporting part, an outer baffle and a single-side hook groove, the main keel comprises a second clamping part, a second supporting part and a double-side hook groove, the frame keel is positioned around the keel, and the main keel and the triangular keel are mutually vertically and crossly arranged;

the keels are mutually connected through a connecting piece, the connecting piece comprises a T-shaped connecting piece and a cross-shaped connecting piece, the head of the T-shaped connecting piece is a first clamping hook, the tail of the T-shaped connecting piece is a first clamping groove, threaded holes are formed in the middle parts of the top surfaces of the first clamping hook and the first clamping groove, two short edges of the cross-shaped connecting piece are a second clamping hook, two long edges of the cross-shaped connecting piece are a second clamping groove, and threaded holes are also formed in the center of the top surface of the cross-shaped connecting piece;

the ceiling plate is horizontally arranged on a square grid formed by the keel, and the periphery of the ceiling plate is fixed through the single-side hook groove and the double-side hook groove;

hang and connect the piece and install between floor and main joist, hang and connect the piece by jib and hang a constitution, the upper end and the floor of jib are connected, and the lower extreme is connected with the horizontal part that hangs the piece, it is 7 fonts to hang the piece, hangs the bottom of piece and is formed with trip three through bending. The keel mainly plays a role in fixing and supporting in the tower bridge structure, the frame keel is the part for connecting the keel and the wall surface, the installation is usually preceded in the installation process of the tower bridge structure, the inner side surface of the frame keel is fixedly connected with the main keel or the triangular keel inside, the first clamping part and the unilateral hook groove are positioned on the same side and have a similar structure with the half side of the main keel, the main keel is generally provided with a plurality of long main keels for bearing along a certain square in parallel, the main keel for bearing is fixed under the floor slab through the hanging piece, the suspender of the hanging piece is a screw rod, the lower end of the bearing main keel is connected with the horizontal part of the hanging piece through a nut, the hanging height of the long main keel can be adjusted by rotating the nut, the height of the clamping part II of the bearing main keel is the same as that of the clamping part I of the frame keel, then a plurality of short main keels or triangular keels are arranged in the vertical direction of the load-bearing main keel according to the requirement. The triangular keel is of an existing structure, is mainly used for clamping a grid of an existing integrated ceiling, is universal with original materials or electrical products, and can be determined whether to be installed according to actual installation needs. T type connecting piece among the connecting piece is used for the T type junction between the fossil fragments usually, and the cross type junction between the cross connecting piece mainly used fossil fragments, during the use will be earlier with the draw-in groove of connecting piece one or draw-in groove two cover go into on the clamping part two of main fossil fragments or the upper portion of triangle fossil fragments, then with the clamping part side of another fossil fragments of joint realization preliminary connection of trip one or trip two card income. Unilateral couple groove and bilateral couple groove can play the effect of lifting to the furred ceiling plate, prevent that the furred ceiling plate from dropping.

Preferably, the outer baffle of the frame keel of the utility model is fixed on the wall surface. During actual construction, the frame keel is firmly fixed on the wall surface by adopting a mode of mounting screws at the outer baffle plate.

Preferably, the connecting piece of the utility model is locked through the cross-shaped column tooth hand-screw installed at the threaded hole. The cross-shaped column tooth hand-screwed screw is firmly locked by abutting the bottom of the cross-shaped column tooth hand-screwed screw against the top plate of the clamping part, the screw can be conveniently screwed or loosened by hands alone without the help of tools, the mounting difficulty is reduced, and the mounting efficiency is improved.

Preferably, the top surface of the top plate of the first clamping part and the top surface of the second clamping part are both processed with bulges along the length direction. The locking firmness of the cross-shaped column tooth hand-screwed screw can be improved by the aid of the protrusions on the top plate of the clamping portion, and relative movement between the keel and the connecting piece after locking is avoided.

Preferably, the first hook, the second hook and the third hook have the same size except the width.

Preferably, the first clamping groove and the second clamping groove are identical, the bottoms of the first clamping groove and the second clamping groove are provided with openings, and the first clamping groove and the second clamping groove are provided with two groove-shaped structures, namely a square groove-shaped structure and a trapezoid groove-shaped structure. The connecting pieces of the square clamping groove structures are used for connecting and fixing the main keels and the frame keels, and the connecting pieces of the trapezoid clamping groove structures are used for connecting and fixing the triangular keels and the main keels and the triangular keels and the frame keels.

Preferably, the ceiling panel of the present invention comprises a honeycomb aluminum rock panel and a grid. The honeycomb aluminum rock plate has the advantages of high rigidity, light weight, sound insulation, heat preservation and the like, is smooth and attractive, has excellent decorative effect, and can ensure that the tower bridge structure has more layering and contribute to the arrangement of ventilation facilities because the grids are usually arranged between the triangular keels.

As preferred, the utility model discloses a moulding is installed to furred ceiling plate's concatenation position. The moulding is used for hiding the concatenation gap of furred ceiling plate, improves the aesthetic property of tower bridge structure.

Compared with the prior art, the utility model, have following advantage and effect:

(1) the utility model discloses keel structure to tower bridge structure has carried out redesign, has designed the joint portion of being convenient for to connect and fix in the upper end of fossil fragments, has designed the couple groove of being convenient for install the furred ceiling board at the lower extreme of fossil fragments to overall structure has advantages such as light, excel in, stable.

(2) The utility model discloses can use or keel structure's staggered floor design through the combination of fossil fragments, realize the staggered floor installation of honeycomb aluminium rock board, make the tower bridge structure have stronger third dimension and stereovision, improve space utilization, improve the aesthetic property.

(3) The utility model discloses the connecting piece of two kinds of structures of T type and cross has been designed according to the installation of fossil fragments to two kinds of draw-in groove structures have been designed to main joist and triangle fossil fragments, can realize high-efficient, the reliable connection of fossil fragments, and lock the connecting piece through cross post tooth hand-tightening screw easy and simple to handle, further reduced the installation degree of difficulty of fossil fragments, improved the installation effectiveness.

Drawings

In order to illustrate the embodiments of the present invention or the solutions in the prior art more clearly, the drawings 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 other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic top view of a first embodiment of the present invention.

Fig. 3 is an installation diagram of the first embodiment of the present invention.

Fig. 4 is a schematic cross-sectional view of a frame keel according to a first embodiment of the invention.

Fig. 5 is a schematic cross-sectional view of a main keel according to a first embodiment of the invention.

Fig. 6 is a schematic structural view of a T-shaped connector according to a first embodiment of the present invention.

Fig. 7 is a schematic structural view of a cross-shaped connector according to a first embodiment of the present invention.

Fig. 8 is a schematic structural view of a suspension member according to a first embodiment of the present invention.

Fig. 9 is a schematic cross-sectional view of a molding according to a first embodiment of the present invention.

Fig. 10 is a schematic cross-sectional view of a frame keel according to a second embodiment of the present invention.

Fig. 11 is a schematic view of the installation of the split-type staggered structure of the main keel according to the second embodiment of the invention.

Fig. 12 is a schematic cross-sectional view of an integrated split-level structure of a main keel according to a second embodiment of the invention.

Description of reference numerals: 1. a keel; 1-1, frame keel; 1-1-1, a first clamping part; 1-1-2 and a first supporting part; 1-1-3, outer baffle; 1-1-4, a single-side hook groove; 1-2, main keel; 1-2-1 and a second clamping part; 1-2-2 and a second supporting part; 1-2-3, bilateral hook groove; 1-3, triangular keel; 2. a connecting member; 2-1, T-shaped connecting pieces; 2-1-1, and a first clamping hook; 2-1-2 and a first clamping groove; 2-2, a cross-shaped connecting piece; 2-2-1 and a second clamping hook; 2-2-2 and a second clamping groove; 2-3, a threaded hole; 3. a ceiling panel; 4. hoisting a connecting piece; 4-1, a suspender; 4-2, hanging parts; 4-2-1 and a third clamping hook; 5. a floor slab; 6. cross column teeth hand-screwed screws; 7. decorating lines; 8. a light bar; 9. a connecting plate.

Detailed Description

The present invention will be described in further detail by way of examples with reference to the accompanying drawings, which are illustrative of the present invention and are not intended to limit the present invention.

The first embodiment.

Referring to fig. 1 to 9, the installation structure of the aluminum honeycomb large plate tower bridge of the present embodiment includes a keel 1 and a connector 2. A ceiling panel 3 and a suspension joint 4.

The keel 1 of the embodiment comprises a frame keel 1-1, a main keel 1-2 and a triangular keel 1-3, the frame keel 1-1 comprises a clamping part I1-1-1, a supporting part I1-1-2, an outer baffle 1-1-3 and a unilateral hook groove 1-1-4, and the main keel 1-2 comprises a clamping part II 1-2-1, a supporting part II 1-2-2 and a bilateral hook groove 1-2-3. As shown in fig. 4, the supporting portion one 1-1-2 and the outer baffle 1-1-3 of the frame keel 1-1 of the present embodiment are designed with two structures, the frame keel 1-1 on the right side of fig. 4 can mount the light bar 8 in the bottom groove of the supporting portion one 1-1-2, so as to have a light effect, and the bottom of the supporting portion one 1-1-2 of the frame keel 1-1 on the left side of fig. 4 is a plane without the light effect. As shown in fig. 5, the main keel 1-2 of the present embodiment is designed with three structures, the main keel 1-2 at the left side of fig. 5 is a basic structure, the structural stability is optimal, the closed slot at the bottom of the supporting portion two 1-2-2 is changed into the lower open slot by the main keel 1-2 at the middle part of fig. 5, and the light bar 8 can be installed in the slot, so that the main keel 1-2 has a lighting effect, the structure of the supporting portion two 1-2-2 and the bilateral hook slot 1-2-3 is simplified by the main keel 1-2 at the right side of fig. 5, the bottom exposed area of the main keel 1-2 is reduced, the aesthetic property is improved, the structural stability is reduced, and the main keel is mostly applied to the part with smaller bearing. The triangular keels 1-3 are of the existing structure, are mainly used for being clamped with grids of an existing integrated ceiling, are universal with original materials or electrical products, and can be used for determining whether the triangular keels 1-3 are installed or not according to actual installation requirements.

The frame keel 1-1 of the embodiment is fixed on the wall surface around through the screws arranged at the outer baffle plates 1-1-3, two ends of the frame keel 1-1 are processed into inclined planes inclined inwards by 45 degrees, so that the frame keel 1-1 is convenient to splice with the adjacent frame keel 1-1, the main keel 1-2 and the triangular keel 1-3 are vertically and crossly arranged in a square frame formed by the frame keel 1-1, and the keels are connected through the connecting piece 2. The connecting piece 2 comprises a T-shaped connecting piece 2-1 and a cross-shaped connecting piece 2-2, referring to fig. 6 to 7, the head of the T-shaped connecting piece 2-1 of the embodiment is a clamping hook I2-1-1, the tail of the T-shaped connecting piece is a clamping groove I2-1-2, threaded holes 2-3 are processed in the middle of the top surfaces of the clamping hook I2-1-1 and the clamping groove I2-1-2, two short sides of the cross-shaped connecting piece 2-2 are clamping hook II 2-2-1, two long sides of the cross-shaped connecting piece 2-2 are clamping groove II 2-2-2, and threaded holes 2-3 are processed in the center of the top surface of the cross-shaped connecting piece 2-2 and the middle of the. The T-connector 2-1 is typically used at a T-connection between keels and the cross-connector 2-2 is typically used at a cross-connection between keels.

The first hook 2-1-1 and the second hook 2-2-1 of the T-shaped connecting piece 2-1 and the cross-shaped connecting piece 2-2 of the embodiment have the same size except for the width, the first slot 2-1-2 and the second slot 2-2-2 are completely the same, and openings are formed in the bottoms of the first slot 2-1 and the second slot. In addition, the T-shaped connecting piece 2-1 and the cross-shaped connecting piece 2-2 are both provided with square and trapezoidal clamping groove structures, wherein the T-shaped connecting piece 2-1 and the cross-shaped connecting piece 2-2 of the square clamping groove structures are used for connecting and fixing the main keels 1-2 and the frame keels 1-1, and the T-shaped connecting piece 2-1 and the cross-shaped connecting piece 2-2 of the trapezoidal clamping groove structures are used for connecting and fixing the triangular keels 1-3 and the main keels 1-2 and the triangular keels 1-3 and the frame keels 1-1.

The connecting piece 2 of this embodiment is locked by the cross-shaped stud-tooth hand-screwed screw 6 installed at the threaded hole 2-3, the cross-shaped stud-tooth hand-screwed screw 6 is firmly locked by abutting the bottom of the cross-shaped stud-tooth hand-screwed screw against the top plate of the keel clamping part 1-1-1 or the clamping part two 1-2-1, and the side face of the stud head of the screw is provided with a knurling, so that the screw can be easily screwed or loosened without the aid of tools during installation, thereby being helpful for reducing the installation difficulty and improving the installation efficiency. The upper surfaces of the top plates of the first clamping part 1-1-1 and the second clamping part 1-2-1 are respectively provided with a bulge 1-4 along the length direction, so that the locking firmness of the cross-shaped column tooth hand-screwed screw 6 is improved, and the keel 1 and the connecting piece 2 are prevented from moving relatively after being locked. When the connecting piece 2 is used, the clamping groove I2-1-2 or the clamping groove II 2-2-2 is usually sleeved on the clamping part II 1-2-1 of the main keel 1-2 or the upper part of the triangular keel 1-3, then the position of the connecting piece 2 is adjusted, the clamping hook I2-1-1 or the clamping hook II 2-2-1 is clamped into the side surface of the clamping part of the other keel at the connecting part, the cross column tooth hand screw 6 is slightly screwed to realize primary fixing, and the cross column tooth hand screw 6 is completely screwed after the suspended ceiling plate 3 is installed in place.

The ceiling plate 3 of this embodiment is horizontally installed on the square grid that fossil fragments 1 formed, unilateral couple groove 1-1-4 and bilateral couple groove 1-2-3 can lift ceiling plate 3, prevent that ceiling plate 3 from dropping, ceiling plate 3 that this embodiment chose for use includes honeycomb aluminum rock plate and grid, honeycomb aluminum rock plate has the rigidity big, the quality is light, give sound insulation, thermal-insulated, advantages such as heat preservation, and it is smooth, pleasing to the eye, decorative effect is good, the grid is installed usually between the triangular keel, it has more the stereovision to enable the tower bridge structure, and help ventilating facility's arrangement. Moulding 7 is still installed to the concatenation position of furred ceiling plate 3, and moulding 7 also designs to have and takes the light effect and do not take two kinds of structures of light effect, all is the concatenation gap that is used for hiding furred ceiling plate 3, improves the aesthetic property of tower bridge structure.

The hanging connecting piece 4 of the embodiment is composed of a hanging rod 4-1 and a hanging piece 4-2, the hanging rod 4-1 is a screw rod, the upper end of the hanging rod is connected with the floor slab 5, the lower end of the hanging rod is locked with the horizontal part of the hanging piece 4-2 through a nut, the hanging piece 4-2 is in a 7 shape, the bottom of the hanging piece is bent to form a three clamping hook 4-2-1, and the three clamping hook 4-2-1 is used for clamping the hanging piece 4-2 on the side face of a clamping part of a keel for bearing, so that reliable connection is achieved. When the keel 1 is installed, firstly, the frame keel 1-1 is fixed on a wall surface, then a plurality of long main keels 1-2 are arranged in parallel along a certain direction for bearing, the main keels 1-2 for bearing are fixed below a floor slab 5 through the hanging pieces 4, the keel 1 is ensured to have strong bearing capacity, the installation height of the main keel 1-2 can be adjusted by rotating the nuts at the joints of the hanging rods 4-1 and the hanging pieces 4-2, the installation height of the main keel 1-2 is the same as that of the frame keel 1-1, and after the adjustment is completed, a plurality of short main keels 1-2 or triangular keels 1-3 are installed in the vertical direction of the main keel 1-2 for bearing according to needs.

Example two.

The content of this embodiment is substantially the same as that of the first embodiment, and the same contents are not repeated, except that: the structure of the frame keel 1-1 and the main keel 1-2 is further designed in the embodiment, so that the suspended ceiling plates 3 of the tower bridge structure can be distributed in staggered layers, the tower bridge structure has more stereoscopic impression, and more diversified lighting effects can be realized.

As shown in fig. 10, the frame keel 1-1 of the embodiment redesigns the structure of the supporting portion 1-1-2, so that the supporting portion 1-1-2 is divided into an upper portion and a lower portion, the upper portion and the lower portion are connected by an arc plate, the outer baffle 1-1-3 is arranged on the side surface of the upper portion supporting portion 1-1-2, the bottom surface of the upper portion supporting portion 1-1-2 is further provided with a light bar 8, and the clamping portion 1-1-1 and the single-side hook groove 1-1-4 are arranged on the lower portion supporting portion 1-1-2. The frame keel 1-1 of the embodiment can form a through groove around the wall surface, so that the lamp strip 8 plays a role of washing a wall lamp.

The main keel 1-2 of this embodiment is designed with two structures of split type staggered floor and integral type staggered floor, as shown in fig. 11, the split type staggered floor structure is formed by connecting and combining two main keels 1-2 of different structures distributed from top to bottom by using a connecting plate 9, the two side hook grooves 1-2-3 of the two main keels 1-2 are both deformed into single side hook grooves, which are respectively used for fixing ceiling plates 3 on two sides, a ceiling plate 3 in the vertical direction is further installed between the two main keels 1-2, and a light bar 8 is installed on the main keel 1-2 below. The split type split level structure of this embodiment enables the furred ceiling plate 3 of fossil fragments both sides to fix at different heights, makes the tower bridge structure demonstrate different stereoeffect, has decorative and third dimension more.

The integrated staggered floor structure of the embodiment is shown in fig. 12, a main keel 1-2 of the structure is provided with two clamping parts II 1-2-1 and two supporting parts II 1-2-2 which are different in height, two side hook grooves 1-2-3 are deformed into two single side hook grooves and are located at different height positions on two sides of the main keel 1-2, and a light bar 8 is arranged on the right side of the main keel 1-2. Fig. 12 includes two integrated staggered structures, the bottom surface of the main keel 1-2 of the left side structure of fig. 12 is an uneven closed surface, the bottom surface of the main keel 1-2 of the right side structure of fig. 12 is provided with a slot, and an aluminum rock plate decorative strip can be installed in the slot.

In addition, it should be noted that the specific embodiments described in the present specification may be different in the components, the shapes of the components, the names of the components, and the like, and the above description is only an example of the structure of the present invention. All the equivalent changes or simple changes made according to the structure, characteristics and principle of the utility model are included in the protection scope of the utility model. Various modifications, additions and substitutions may be made by those skilled in the art without departing from the scope of the invention as defined in the accompanying claims.

Claims (8)

1. The utility model provides a big board tower bridge mounting structure of aluminium honeycomb, includes fossil fragments (1), connecting piece (2), furred ceiling plate spare (3) and hangs connecting piece (4), its characterized in that: the keel (1) comprises a frame keel (1-1), a main keel (1-2) and a triangular keel (1-3), the frame keel (1-1) comprises a first clamping part (1-1-1), a first supporting part (1-1-2), an outer baffle (1-1-3) and a unilateral hook groove (1-1-4), the main keel (1-2) comprises a second clamping part (1-2-1), a second supporting part (1-2-2) and a bilateral hook groove (1-2-3), the frame keel (1-1) is located on the periphery of the keel (1), and the main keel (1-2) and the triangular keel (1-3) are vertically and crossly arranged;

the keels (1) are mutually connected through the connecting pieces (2), the connecting pieces (2) comprise T-shaped connecting pieces (2-1) and cross-shaped connecting pieces (2-2), the head part of the T-shaped connecting piece (2-1) is provided with a first clamping hook (2-1-1), the tail part is provided with a first clamping groove (2-1-2), the middle parts of the top surfaces of the first clamping hook (2-1-1) and the first clamping groove (2-1-2) are respectively provided with a threaded hole (2-3), two short sides of the cross-shaped connecting piece (2-2) are provided with a second clamping hook (2-2-1), two long sides of the cross-shaped connecting piece are provided with a second clamping groove (2-2-2), and threaded holes (2-3) are also processed in the center of the top surface of the cross-shaped connecting piece (2-2) and the middle part of the top surface of the second clamping groove (2-2-2);

the ceiling plates (3) are horizontally arranged on a square grid formed by the keels (1), and the periphery of the ceiling plates (3) is fixed through single-side hook grooves (1-1-4) and double-side hook grooves (1-2-3);

the hanging and connecting piece (4) is installed between a floor slab (5) and a main keel (1-2), the hanging and connecting piece (4) is composed of a hanging rod (4-1) and a hanging piece (4-2), the upper end of the hanging rod (4-1) is connected with the floor slab (5), the lower end of the hanging rod is connected with the horizontal part of the hanging piece (4-2), the hanging piece (4-2) is 7-shaped, and the bottom of the hanging piece (4-2) is bent to form a three clamping hook (4-2-1).

2. The aluminum honeycomb large panel tower bridge installation structure according to claim 1, wherein: and the outer baffle (1-1-3) of the frame keel (1-1) is fixed on the wall surface.

3. The aluminum honeycomb large panel tower bridge installation structure according to claim 1, wherein: the connecting piece (2) is locked through a cross-shaped column tooth hand-screwed screw (6) arranged at the threaded hole (2-3).

4. The aluminum honeycomb large panel tower bridge installation structure according to claim 1, wherein: the upper surfaces of the top plates of the first clamping part (1-1-1) and the second clamping part (1-2-1) are both provided with protrusions (1-4) along the length direction.

5. The aluminum honeycomb large panel tower bridge installation structure according to claim 1, wherein: the first hook (2-1-1), the second hook (2-2-1) and the third hook (4-2-1) have the same size except the width.

6. The aluminum honeycomb large panel tower bridge installation structure according to claim 1, wherein: the first clamping groove (2-1-2) and the second clamping groove (2-2-2) are completely the same, openings are formed in the bottoms of the first clamping groove (2-1-2) and the second clamping groove (2-2-2), and the first clamping groove (2-1-2) and the second clamping groove (2-2-2) are of square groove structures and trapezoidal groove structures.

7. The aluminum honeycomb large panel tower bridge installation structure according to claim 1, wherein: the ceiling panel (3) comprises a honeycomb aluminum rock panel and a grid.

8. The aluminum honeycomb large panel tower bridge installation structure according to claim 1, wherein: moulding (7) are installed to the concatenation position of furred ceiling plate (3).

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