CN214833928U - Plastic-wood board ceiling structure - Google Patents

Abstract

The application discloses mould wooden plate furred ceiling structure relates to the technical field of mould board furred ceiling, it is including setting firmly in keel structure's bearing angle steel structure, still include a plurality of mould wooden slat and the mould wooden square tube that a plurality of intervals set up that adjacently arrange in proper order, the length direction of moulding wooden square tube and the length direction of moulding wooden slat become angle setting, bearing angle steel structure, mould wooden slat and mould wooden square tube top-down sets gradually, mould wooden slat and mould wooden square tube through a plurality of first bolt assembly of group and a plurality of first screwed connection in bearing angle steel structure. This application has the degree of difficulty lower to the local maintenance of furred ceiling structure, and the required time of maintenance is shorter effect.

Description

Plastic-wood board ceiling structure

Technical Field

The application relates to the technical field of plastic board suspended ceilings, in particular to a plastic-wood board suspended ceiling structure.

Background

At present, ceiling tiles on the market mainly comprise wood boards, gypsum boards, plastic boards, aluminum alloy boards and the like, but the traditional ceiling tiles have other defects of complex construction procedures or low material environmental protection and the like in the actual installation process. Therefore, the plastic-wood board is used as a new ceiling board, combines wood and plastic, not only keeps the texture of the board, but also has good moisture resistance, water resistance, acid and alkali resistance, insect prevention and other high-quality performances, and is widely applied to the fields of decoration and construction.

In the related art, the plastic-wood board is generally formed integrally by using an integral forming technology, and is integrally formed according to the shape of a roof and then installed in a keel structure of the roof.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: when carrying out local maintenance to the furred ceiling, need pull down monoblock wood moulding board, the maintenance degree of difficulty is higher, and repair duration is longer, consequently has certain improvement space.

SUMMERY OF THE UTILITY MODEL

In order to reduce the degree of difficulty to the local maintenance of furred ceiling structure, this application provides a mould wooden plate furred ceiling structure.

The application provides a mould wooden plate furred ceiling structure adopts following technical scheme:

the utility model provides a mould wooden plate furred ceiling structure, is including setting firmly in keel structure's bearing angle steel structure, still includes the wooden square tube of moulding that a plurality of adjacent wooden laths of moulding and a plurality of intervals of arranging in proper order set up, the length direction of moulding the wooden square tube and the length direction of moulding the wooden lath become angle setting, bearing angle steel structure, mould the wooden lath and mould wooden square tube top-down and set gradually, mould the wooden lath and mould wooden square tube through a plurality of first bolt assembly of group and a plurality of first screwed connection in bearing angle steel structure.

Through adopting above-mentioned technical scheme, when needing to carry out local maintenance to the furred ceiling, will treat that first bolt assembly or first screw of maintenance position demolish, will with treat that maintenance position is corresponding moulds wooden slat and mould wooden square tube and dismantle, change, the degree of difficulty to the local maintenance of furred ceiling structure is lower, the required time of maintenance is shorter, in addition, through bearing angle steel structure, the combination of a plurality of first bolt assemblies and a plurality of first screw is installed moulding wooden slat and mould wooden square tube, the mounting structure is simple, and installation stability is higher.

Preferably, the bearing angle steel structure includes the vertical angle steel subassembly that is used for with keel structure fixed and is used for with the horizontal angle steel subassembly of moulding the wooden slat fixed, horizontal angle steel subassembly sets firmly in vertical angle steel subassembly.

Through adopting above-mentioned technical scheme, through the cooperation of vertical angle steel subassembly and horizontal angle steel subassembly, realize being connected between furred ceiling structure and the keel structure.

Preferably, the plastic-wood lath comprises a plurality of lath monomers connected end to end, the plastic-wood square tube comprises a plurality of square tube monomers connected end to end, and the position of the joint of two adjacent lath monomers in the same plastic-wood lath corresponds to the position of the plastic-wood square tube;

vertical angle steel subassembly includes the first angle steel that a plurality of intervals set up, first angle steel sets up in the free junction of two adjacent square tube, horizontal angle steel subassembly is including setting firmly in the second angle steel of first angle steel, the length direction setting of moulding the wooden slat is followed to the second angle steel, the second angle steel is used for moulding the wooden square tube with two adjacent square tube monomers and two adjacent and is connected fixedly, first bolt assembly sets up between second angle steel, moulding the wooden slat and moulding the wooden square tube, horizontal angle steel still is including setting firmly the third angle steel in the second angle steel, the length direction setting of moulding the wooden square tube is followed to the third angle steel, the third angle steel is used for fixing adjacent slat monomer and adjacent moulding the wooden slat.

Through adopting above-mentioned technical scheme, realized the connection between each structure monomer, connection structure is simple, and joint strength is higher.

Preferably, when moulding the wooden slat cloth and locating the different planes that are the angle setting, on two planes mould wooden slat and mould wooden square tube and all set up about two planar junction symmetries, and two planar junctions have set firmly and have strengthened the square tube, strengthen the square tube and set firmly in keel structure, two mutual symmetries on two planes mould the both ends that the wooden square tube is relative respectively the butt in the both sides of strengthening the square tube.

Through adopting above-mentioned technical scheme, when the different planes that are the angle setting appear in the furred ceiling structure, the setting of strengthening the square tube has increased the overall stability of furred ceiling structure.

Preferably, a connecting angle steel is fixedly arranged at a position, corresponding to the reinforcing square tube, on the keel structure, and the reinforcing square tube is fixed on the connecting angle steel through a plurality of groups of second bolt assemblies.

Through adopting above-mentioned technical scheme, realized strengthening the fixed connection of square tube and fossil fragments structure.

Preferably, a clamping mechanism for clamping the plastic-wood batten and the plastic-wood square tube is arranged between the plastic-wood batten and the plastic-wood square tube.

Through adopting above-mentioned technical scheme, when will mould wooden square tube and install in moulding wooden slat bottom, block mechanism connects the two block, has promoted the joint strength who moulds wooden square tube and mould wooden slat, is convenient for carry out preliminary location to the hookup location who moulds wooden square tube simultaneously.

Preferably, the block mechanism is including seting up the draw-in groove of moulding the wood square tube, the draw-in groove runs through the both sides wall of moulding the wood square tube homonymy, the block mechanism is still including setting firmly the connection piece in moulding the wood slat, the one end of connecting piece wood slat is moulded to the dorsad extends towards one side of moulding the wood slat has the shell fragment, mould wood square tube butt when moulding the wood slat, block mechanism is in the block state, the free end butt of shell fragment is in the inside wall of moulding the wood square tube.

Through adopting above-mentioned technical scheme, realized moulding the block of wood square tube with moulding the wooden slat, promoted moulding the joint strength between wood square tube and the wooden slat, simultaneously, played the effect of preliminary location when moulding the wood square tube to the installation.

Preferably, the elastic sheet is an arc sheet with an arc concave surface facing one side of the connecting rod.

By adopting the technical scheme, the abrasion of the side wall of the elastic sheet back to the connecting sheet to the edge of the clamping groove is reduced when the connecting sheet and the elastic sheet enter the clamping groove.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the suspended ceiling needs to be locally maintained, the first bolt assembly or the first screw at the position to be maintained is removed, the plastic-wood batten and the plastic-wood square tube corresponding to the position to be maintained are removed and replaced, the difficulty of locally maintaining the suspended ceiling structure is low, the time required by maintenance is short, in addition, the plastic-wood batten and the plastic-wood square tube are installed through the combination of the bearing angle steel structure, the first bolt assemblies and the first screws, the installation structure is simple, and the installation stability is high;

2. when the suspended ceiling structure has different planes arranged at angles, the arrangement of the reinforced square tube increases the overall stability of the suspended ceiling structure;

3. when the plastic-wood square tube is arranged at the bottom end of the plastic-wood batten, the plastic-wood square tube and the plastic-wood batten are connected in a clamping mode through the clamping mechanism, the connection strength of the plastic-wood square tube and the plastic-wood batten is improved, and meanwhile the connection position of the plastic-wood square tube is convenient to preliminarily position.

Drawings

Fig. 1 is a schematic structural diagram of a suspended ceiling structure shown in the first embodiment.

Fig. 2 is a partial structural schematic diagram showing the structure of the plastic-wood lath, the plastic-wood square tube and the bearing angle steel in the first embodiment.

Fig. 3 is a schematic partial explosion diagram showing the single slat, the single square tube and the positional relationship therebetween according to the first embodiment.

Fig. 4 is a partial structural schematic view showing a connection structure between a third angle steel and a second angle steel in the first embodiment.

FIG. 5 is a schematic partial cross-sectional view illustrating the structure of the reinforcement box, the tie bar, the tie angle and the second bolt assembly according to the first embodiment.

FIG. 6 is a partial cross-sectional view illustrating a structure of an engaging mechanism according to a second embodiment.

Description of reference numerals: 1. plastic-wood laths; 11. a batten monomer; 2. plastic-wood square tube; 21. a square tube monomer; 3. a load-bearing angle steel structure; 31. a first angle steel; 32. a second angle steel; 33. third angle steel; 34. a connecting plate; 35. connecting corner connectors; 36. connecting angle steel; 4. a first screw; 5. a second screw; 6. a first bolt assembly; 7. reinforcing the square tube; 71. connecting the ribbon boards; 8. a second bolt assembly; 9. a clamping mechanism; 91. a card slot; 92. connecting sheets; 93. an elastic sheet.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses mould wooden plate furred ceiling structure.

Example one

Referring to fig. 1, the structure comprises a bearing angle steel structure 3 fixed with a keel structure, a plastic-wood batten 1 arranged at the bottom end of the bearing angle steel structure 3 and a plastic-wood square tube 2 arranged at the bottom end of the plastic-wood batten 1.

Referring to fig. 1, 2 and 3, a plurality of plastic-wood laths 1 are arranged adjacently in sequence, and any plastic-wood lath 1 comprises a plurality of lath single bodies 11 connected end to end. The plastic-wood square tube 2 and the plastic-wood batten 1 are arranged at an angle, the plastic-wood square tube 2 is uniformly distributed along the length direction of the plastic-wood batten 1 at intervals, and any plastic-wood square tube 2 comprises a plurality of square tube monomers 21 which are connected end to end. In the same plastic-wood batten 1, the joint of two adjacent batten monomers 11 is positioned right above the plastic-wood square tube 2. The joint of two adjacent square tube single bodies 21 corresponding in position is aligned with the joint of two adjacent plastic-wood laths 1. In the actual construction process, considering construction and raw material errors, 2mm gaps are reserved between adjacent plastic-wood battens 1, between adjacent batten monomers 11 and between adjacent square tube monomers 21.

With reference to fig. 2, 3 and 4, the load-bearing angle structure 3 comprises a longitudinal angle assembly for fixing with the keel structure and a transverse angle assembly for fixing with the plank 1.

Vertical angle steel subassembly includes the first angle steel 31 of the plane setting at perpendicular to plastic-wood slat 1 place, and first angle steel 31 is provided with a plurality ofly, and first angle steel 31 and two adjacent square tube monomer 21's junction one-to-one, first angle steel 31 welded fastening are in keel structure.

Horizontal angle steel subassembly includes the second angle steel group that the length direction interval of a plurality of groups edge mould wooden square tube 2 set up, second angle steel group includes two second angle steel 32 about first angle steel 31 symmetry sets up, second angle steel 32 sets up along the length direction of moulding wooden slat 1, and the opening of two second angle steel 32 is carried on the back mutually, two relative both sides wall welded fastening of second angle steel 32 are in first angle steel 31, two second angle steel 32 are corresponding with the position of two adjacent mould wooden slat 1 and two adjacent square tube monomers 21 respectively.

Horizontal angle steel subassembly still includes the third angle steel group that a plurality of groups set up along the length direction interval of moulding wooden slat 1, and third angle steel group includes a plurality of third angle steels 33 that set up along the length direction of moulding wooden square tube 2, and third angle steel 33 sets firmly between two adjacent second angle steel 32. First screw 4 is worn to be equipped with from top to bottom on the third angle steel 33, and first screw 4 sets up to self-tapping screw, and first screw 4 is arranged in being connected with two adjacent slat monomers 11 in same plastic-wood slat 1, and first screw 4 connects gradually in third angle steel 33, plastic-wood slat 1 and plastic-wood square tube 2.

Be provided with connecting plate 34 between third angle steel 33 and the second angle steel 32, the both ends of connecting plate 34 are fixed through second screw 5 and third angle steel 33 and second angle steel 32 respectively, realize the primary connection between third angle steel 33 and the second angle steel 32. Be provided with between third angle steel 33 and the second angle steel 32 and connect angle sign indicating number 35, the both ends of connecting angle sign indicating number 35 welded fastening respectively in third angle steel 33 and second angle steel 32, realize the fixed connection between third angle steel 33 and the second angle steel 32.

The connecting plate 34 is provided with a first bolt assembly 6, and the connecting plate 34, the second angle steel 32, the plastic-wood lath 1 and the plastic-wood square tube 2 are connected by the first bolt assembly 6.

Referring to fig. 1 and 5, when the wood-plastic lath 1 is laid on different planes which are arranged at an angle, the wood-plastic lath 1 and the wood-plastic square tube 2 on the two planes are symmetrically arranged about the joint of the two planes. The junction of two planes sets firmly strengthens square tube 7, strengthens the length direction of square tube 7 and sets up along the extending direction of two planar junctions, and the relative both ends of two plastic-wood square tubes 2 of mutual symmetry on two planes are the butt respectively in the both sides of strengthening square tube 7. The end face of the top end of the reinforcing square tube 7 is fixedly connected with a connecting strip plate 71, the length direction of the connecting strip plate 71 is the same as that of the reinforcing square tube 7, and two opposite sides of two plastic-wood strip plates 1 which are symmetrical to each other on two planes are respectively abutted against two sides of the connecting strip plate 71. The keel structure is welded and fixed with connecting angle steel 36 corresponding to the connecting strip plate 71, the connecting angle steel 36 is arranged along the length direction of the reinforcing square tube 7, and a plurality of groups of second bolt assemblies 8 used for connecting the connecting angle steel 36, the connecting strip plate 71 and the reinforcing square tube 7 are arranged among the connecting angle steel 36, the connecting strip plate 71 and the reinforcing square tube 7. When the ceiling structure appears in different planes arranged at angles, the reinforcing square tube 7 and the connecting strip plates 71 are arranged to increase the overall stability of the ceiling structure.

The implementation principle of a plastic-wood board suspended ceiling structure of the embodiment of the application is as follows:

the plastic-wood batten 1, the plastic-wood square tube 2, the reinforcing square tube 7 and the connecting batten 71 are hoisted through the matching of the bearing angle steel structure 3, the first bolt assemblies 6, the second bolt assemblies 8, the first screws 4 and the second screws 5, and the installation structure is simple and the installation stability is high; when local maintenance is required to be carried out on the suspended ceiling, after the first bolt assembly 6, the first screw 4 and the second screw 5 to be maintained are detached, the square tube monomer 21 corresponding to the position to be maintained is detached, the batten monomer 11 is detached, the monomer to be maintained is replaced, the difficulty of local maintenance of the suspended ceiling structure is low, and the time required by maintenance is short.

Example two

Referring to fig. 6, a plastic wood board ceiling structure is different from the first embodiment in that, in the same plastic wood board 1, a clamping mechanism 9 is arranged between a joint of two adjacent board monomers 11 and the plastic wood square tube 2.

The clamping mechanism 9 comprises a clamping groove 91 arranged on the top end face of the plastic-wood square tube 2, the clamping groove 91 penetrates through two side walls on the same side of the plastic-wood square tube 2, the two clamping grooves 91 are arranged at intervals, and the two clamping grooves 91 are corresponding to the two slat single bodies 11 respectively. Respectively fixedly connected with and the corresponding connection piece 92 of draw-in groove 91 on two slat monomers 11, connection piece 92 extends to the one end of slat monomer 11 dorsad has shell fragment 93, and shell fragment 93 extends towards slat monomer 11, and the distance between shell fragment 93 and the connection piece 92 is crescent to the free end of shell fragment 93 from the link of shell fragment 93, and shell fragment 93 sets up to the arc piece of the concave surface in the arc towards one side of connecting rod.

The butt of 2 side connections of moulding the wood square tube is in the block state when moulding wooden slat 1, and block mechanism 9 is in the block state, and the free end butt of shell fragment 93 realizes moulding wooden side connections 2 and the block of moulding wooden slat 1 in the inside wall of moulding wooden side connections 2, has promoted the joint strength who moulds between wooden side connections 2 and the wooden slat 1 of moulding, simultaneously, has played the effect of preliminary location when moulding wooden side connections 2 to the installation.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a mould wooden plate furred ceiling structure which characterized in that: including setting firmly in bearing angle steel structure (3) of fossil fragments structure, still include a plurality of wood moulding slat (1) and the wood moulding square tube (2) that a plurality of intervals set up that adjacent arranging in proper order, the length direction of wood moulding square tube (2) and the length direction of wood moulding slat (1) become angle setting, bearing angle steel structure (3), wood moulding slat (1) and wood moulding square tube (2) top-down set gradually, wood moulding slat (1) and wood moulding square tube (2) are connected in bearing angle steel structure (3) through a plurality of first bolt assembly of group (6) and a plurality of first screw (4).

2. A plastic-wood board ceiling structure according to claim 1, wherein: the bearing angle steel structure (3) comprises a longitudinal angle steel component fixed with the keel structure and a transverse angle steel component fixed with the plastic-wood batten (1), and the transverse angle steel component is fixedly arranged on the longitudinal angle steel component.

3. A plastic-wood board ceiling structure according to claim 2, wherein: the plastic-wood batten comprises a plurality of batten monomers (11) connected end to end, the plastic-wood square tube (2) comprises a plurality of square tube monomers (21) connected end to end, and the position of the joint of every two adjacent batten monomers (11) in the same plastic-wood batten (1) corresponds to the position of the plastic-wood square tube (2);

the longitudinal angle steel component comprises a plurality of first angle steels (31) arranged at intervals, the first angle steels (31) are arranged at the joint of two adjacent square tube single bodies (21), the transverse angle steel component comprises a second angle steel (32) fixedly arranged on the first angle steel (31), the second angle steel (32) is arranged along the length direction of the plastic-wood batten (1), the second angle steel (32) is used for connecting and fixing two adjacent square tube monomers (21) and two adjacent plastic-wood square tubes (2), the first bolt component (6) is arranged among the second angle steel (32), the plastic-wood lath (1) and the plastic-wood square tube (2), the transverse angle steel also comprises a third angle steel (33) fixedly arranged on the second angle steel (32), the third angle steel (33) is arranged along the length direction of the plastic-wood square tube (2), the third angle steel (33) is used for fixing the adjacent lath single bodies (11) and the adjacent plastic-wood laths (1).

4. A plastic-wood board ceiling structure according to claim 1, wherein: mould wooden slat (1) and lay when being the different planes of angle setting, on two planes mould wooden slat (1) and mould wooden square tube (2) and all set up about two planar junction symmetries, and two planar junctions have set firmly and have strengthened square tube (7), strengthen square tube (7) and set firmly in the fossil fragments structure, two relative both ends of moulding wooden square tube (2) butt respectively in the both sides of strengthening square tube (7) of mutual symmetry on two planes.

5. A plastic-wood board ceiling structure according to claim 4, wherein: the keel structure is provided with connecting angle steel (36) at the position corresponding to the reinforcing square tube (7), and the reinforcing square tube (7) is fixed on the connecting angle steel (36) through a plurality of groups of second bolt assemblies (8).

6. A plastic-wood board ceiling structure according to claim 1, wherein: a clamping mechanism (9) for clamping the plastic-wood batten (1) and the plastic-wood square tube (2) is arranged between the two.

7. A plastic-wood board ceiling structure according to claim 6, wherein: block mechanism (9) are including seting up draw-in groove (91) in moulding wooden side way (2), draw-in groove (91) run through the both sides wall of moulding wooden side way (2) homonymy, block mechanism (9) are still including setting firmly connection piece (92) in moulding wooden slat (1), connection piece (92) extend towards one side of moulding wooden slat (1) one end of moulding wooden slat (1) dorsad has shell fragment (93), mould wooden side way (2) butt when moulding wooden slat (1), block mechanism (9) are in the block state, the free end butt of shell fragment (93) is in the inside wall of moulding wooden side way (2).

8. A plastic-wood board ceiling structure according to claim 7, wherein: the elastic sheet (93) is an arc sheet with an arc-shaped concave surface facing one side of the connecting rod.

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