CN212897380U - Green assembled building's floor changes laying structure based on BIM - Google Patents

Abstract

The utility model discloses a green assembled building's floor changes laying structure based on BIM. Its technical essential includes from the floor structure board that upwards sets gradually down, a plurality of anticorrosive wooden fossil fragments, vermiculite concrete layer and ceramic tile, each anticorrosive wooden fossil fragments all includes two risers and two diaphragm constitution, be provided with the transverse connection pole between the horizontal adjacent anticorrosive wooden fossil fragments, wherein be close to two at least of the outside and be provided with vertical connecting rod between the anticorrosive wooden fossil fragments, transverse connection pole and vertical connecting rod all can dismantle with anticorrosive wooden fossil fragments and be connected, be provided with the mounting hole on four corners of floor structure board, be provided with the stake in the mounting hole, be provided with the nail that passes anticorrosive wooden fossil fragments and stake on the anticorrosive wooden fossil fragments that lie in four corners of floor structure board. The utility model has the advantages of be convenient for each anticorrosive wood fossil fragments and be connected fixedly between the floor structure board, improve the efficiency of construction, and accessible BIM realizes visualization, harmony and simulation nature.

Description

Green assembled building's floor changes laying structure based on BIM

Technical Field

The utility model relates to a technical field is laid to the floor brick, and more specifically says, it relates to a structure is laid to floor commentaries on classics of green assembly type structure based on BIM.

Background

The BIM (building Information modeling) technology is a datamation tool applied to engineering design, construction and management. Through the integration of building datamation and informatization models, the building information sharing and transmission are carried out in the whole life cycle process of project planning, operation and maintenance, so that engineering technicians can correctly understand and efficiently respond to various building information, a foundation for cooperative work is provided for design teams and all building main bodies including buildings and operation units, and the building information sharing and transmission method plays an important role in improving production efficiency, saving cost and shortening construction period.

The Chinese patent with the publication number of CN206438660U discloses a floor tile laying structure for a green fabricated building, which comprises floor tiles and a structural layer, wherein the floor tiles are laid above the structural layer, the structural layer consists of a waterproof layer, a vermiculite concrete filling layer, anticorrosive wood keels and a floor structural plate, a plurality of anticorrosive wood keels are arranged above the floor structural plate, the anticorrosive wood keels are fixed on the floor structural plate through connecting pieces, the splicing positions of the anticorrosive wood keels are provided with a distance of 300mm, the vermiculite concrete filling layer is filled in the hollow cavities of the anticorrosive wood keels and in the distance, the waterproof layer is arranged above the vermiculite concrete filling layer and the anticorrosive wood keels, and the floor tiles are arranged above the waterproof layer; the anti-corrosion wood keel is composed of two transverse wood plates with the same structure and two vertical wood plates with the same structure, the anti-corrosion wood keel is square, and the periphery of the anti-corrosion wood keel is coated with a flame-retardant layer.

Similar to the floor tile laying structure for the green fabricated building in the prior art, the floor tile laying structure can be realized through BIM, and the visualization, coordination, simulation, optimization and drawing property of the floor tile laying structure are achieved. The vermiculite concrete filling layer has the properties of light weight, heat insulation, sound insulation and the like, so that the floor tile laying mechanism has light weight, firm laying and pasting and simple construction process; and each square anti-corrosion wood keel is fixed on the floor structure plate through a connecting piece, has a supporting function, improves the stability of floor tile laying, and meets the floor tile laying requirement of a green fabricated building. However, because the floor structure board is mostly the concrete steel bar structure, it is comparatively troublesome when fixing each anticorrosive wood joist respectively at the floor structure board through the connecting piece, and the quantity of anticorrosive wood joist is more, leads to the efficiency of construction lower, consequently remains to improve.

SUMMERY OF THE UTILITY MODEL

To current technical problem, the utility model aims to provide a floor changes laying structure based on BIM's green assembly type structure, it has and is convenient for each anticorrosive wood fossil fragments and floor structure between the board be connected fixedly, improves the advantage of efficiency of construction.

In order to achieve the above purpose, the utility model provides a following technical scheme:

the utility model provides a floor changes laying structure based on BIM's green fabricated building, includes from down upwards the floor structure board that sets gradually, a plurality of anticorrosive wood fossil fragments, fill in cavity and the vermiculite concrete layer and the ceramic tile between each anticorrosive wood hole bone interval of each anticorrosive wood fossil fragments, each anticorrosive wood fossil fragments all include two risers and two diaphragms constitution, and is horizontal adjacent be provided with transverse connecting rod between the anticorrosive wood fossil fragments, wherein be close to at least two in the outside be provided with vertical connecting rod between the anticorrosive wood fossil fragments, transverse connecting rod and vertical connecting rod all can dismantle with anticorrosive wood fossil fragments and be connected, be provided with the mounting hole on four corners of floor structure board, be provided with the stake in the mounting hole, be located be provided with the nail that passes anticorrosive wood fossil fragments and stake on the anticorrosive wood fossil fragments of four corners of floor structure board.

By adopting the technical scheme, the anti-corrosion wood keels are arranged on the floor structure plate, the transverse connecting rods can connect the anti-corrosion wood keels which are transversely arranged together, and the vertical connecting rods can connect two columns of anti-corrosion wood keels which are longitudinally arranged and close to the outermost side together, so that all the anti-corrosion wood keels are connected to form a plane, and a plurality of anti-corrosion wood keels, the transverse connecting rods and the vertical connecting rods which are detachably connected are convenient to transport; then, nails penetrate through the anti-corrosion wooden keels positioned on the periphery of the floor structure plate and are fixed with the wooden piles in the mounting holes, so that the four anti-corrosion wooden keels on the periphery are fixed on the floor structure plate, all the anti-corrosion wooden keels connected into a whole can be fixed, and the anti-corrosion wooden keels are prevented from moving; therefore, the anti-corrosion wood keels and the floor structural plates are fixedly connected, so that the anti-corrosion wood keels and the floor structural plates are fixedly connected, and the construction efficiency is improved.

The utility model discloses further set up to: all be provided with the joint groove on diaphragm and the riser, the opening in joint groove is located the periphery side of anticorrosive wooden fossil fragments, the both ends joint of transverse connecting rod is in the joint inslot of riser, the both ends joint of vertical connecting rod is in the joint inslot of diaphragm.

Through adopting above-mentioned technical scheme, with the joint inslot of the both ends joint on the riser of two adjacent anticorrosive wood keels of transverse connection pole, just can be in the same place anticorrosive wood keel high-speed joint on each row of transverse, peg graft the joint inslot on the diaphragm of longitudinal arrangement's adjacent anticorrosive wood keel with the both ends of vertical connection pole, just can be in the same place each anticorrosive wood keel high-speed joint of vertical alignment.

The utility model discloses further set up to: the transversal circular form of personally submitting of joint groove, the both ends of horizontal connecting rod and vertical connecting rod all are provided with the elastic sleeve, the outer wall of elastic sleeve and the inner wall laminating in joint groove.

Through adopting above-mentioned technical scheme, the elastic sleeve has better elastic deformation ability, when the both ends joint with transverse connection pole or vertical connecting rod in the joint inslot, the elastic sleeve can improve the joint strength of transverse connection pole or vertical connecting rod and joint groove.

The utility model discloses further set up to: the end part of the elastic sleeve is arranged in a conical shape.

Through adopting above-mentioned technical scheme, set the tip of elastic sleeve into the toper form, can have the effect of direction, be convenient for insert the joint inslot with the elastic sleeve.

The utility model discloses further set up to: the middle of the transverse connecting rod and the vertical connecting rod is provided with a supporting rod, the distance between the supporting rod and the floor mechanism plate can be adjusted, and the lower end of the supporting rod is in contact with the upper surface of the floor structure plate.

Through adopting above-mentioned technical scheme, because have the interval between the anticorrosive wood fossil fragments of adjacent, and the upper surface unevenness of some floor mechanism boards, consequently adjust the bracing piece and make its lower extreme and floor mechanism board contact for the bracing piece can support each transverse connecting rod and vertical connecting rod, guarantees the stability of transverse connecting rod and vertical connecting rod.

The utility model discloses further set up to: one end of the supporting rod is provided with a threaded part, and threaded holes are formed in the transverse connecting rod and the vertical connecting rod.

Through adopting above-mentioned technical scheme, through the cooperation of screw thread portion and screw hole, the length that screw thread portion one end is located the screw hole on the bracing piece is adjusted to the swivel support pole, alright carry out quick adjustment to the distance between bracing piece and the floor mechanism board.

The utility model discloses further set up to: the floor structure plate is characterized in that a mounting hole is also formed in the position, close to the center, of the floor structure plate, a timber pile is arranged in the mounting hole, and a nail penetrating through the anti-corrosion timber keel is arranged in the timber pile.

Through adopting above-mentioned technical scheme, the position that is close to the center on floor structure board also sets up mounting hole and stake to fix the anticorrosive wooden fossil fragments that are close to central point through the nail, can fix again in the intermediate position of a plurality of anticorrosive wooden fossil fragments of laying, improve the stability fixed to a plurality of anticorrosive wooden fossil fragments.

The utility model discloses further set up to: and the upper surface of the floor structure plate is provided with a waterproof layer.

Through adopting above-mentioned technical scheme, set up the waterproof layer at the upper surface of floor structure board, can prevent that the water of floor structure board top from oozing to the floor in the below.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) by arranging the cooperation among the transverse connecting rods, the vertical connecting rods, the nails and the timber piles, all the laid anti-corrosion wooden keels can be connected together by the transverse connecting rods and the vertical connecting rods, and then the four anti-corrosion wooden keels positioned on the periphery are fixed by the nails, so that all the anti-corrosion wooden keels connected into a whole can be fixed, the anti-corrosion wooden keels and the floor structural slab can be conveniently connected and fixed, and the construction efficiency is improved;

(2) through the arrangement of the clamping grooves, the two ends of the transverse connecting rod can be clamped in the clamping grooves of the vertical plates, the two ends of the vertical connecting rod can be clamped in the clamping grooves of the transverse plates, so that all anti-corrosion wood keels can be quickly connected together, and the clamping strength of the transverse connecting rod and the clamping grooves of the vertical connecting rod and the clamping grooves can be improved through the arrangement of the elastic sleeves;

(3) through setting up the bracing piece, and the bracing piece can be adjusted to lower extreme and floor structural slab contact, can support the intermediate position of transverse connection pole and vertical connecting rod, guarantees the stability of transverse connection pole and vertical connecting rod.

Drawings

FIG. 1 is a schematic view of a floor turn-laying structure;

FIG. 2 is a schematic view of the structure after hiding the floor tiles and the vermiculite concrete layer;

fig. 3 is a schematic view of a connection structure of the corrosion-resistant wood keel;

fig. 4 is an enlarged schematic view of a portion a of fig. 2.

Reference numerals: 1. a floor structure panel; 2. a waterproof layer; 3. an anticorrosive wood keel; 31. a transverse plate; 32. a vertical plate; 4. a vermiculite concrete layer; 5. floor tiles; 6. a transverse connecting rod; 7. a vertical connecting rod; 8. mounting holes; 9. piling wood; 10. nailing; 11. a clamping groove; 12. an elastic sleeve; 13. a support bar; 14. a threaded bore.

Detailed Description

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

In the embodiment, a floor of green prefabricated building changes laying structure based on BIM, as shown in fig. 1 and fig. 2, includes floor structure board 1, waterproof layer 2, a plurality of anticorrosive wood joist 3, vermiculite concrete layer 4 and ceramic tile 5 filled in the cavity of each anticorrosive wood joist 3 and between the spacing of each anticorrosive wood hole bone that set gradually from bottom to top.

As shown in fig. 2 and 3, each waterproof layer 2 may be formed by painting polyurethane waterproof paint to prevent water from penetrating through the floor structure panel 1; the anti-corrosion wooden keels 3 are arranged on the upper surface of the waterproof layer 2 at intervals, each anti-corrosion wooden keel 3 is a square frame and is surrounded by two vertical plates 32 and two transverse plates 31, a transverse connecting rod 6 is arranged between every two transverse adjacent anti-corrosion wooden keels 3, and a vertical connecting rod 7 is arranged between every two adjacent anti-corrosion wooden keels 3 close to two longitudinal columns on the outermost side. The horizontal connecting rods 6 and the vertical connecting rods 7 are detachably connected with the anti-corrosion wood keels 3, mounting holes 8 are formed in four corners of the floor structure plate 1, the mounting holes 8 are located right below transverse plates 31 or vertical plates 32 of the anti-corrosion wood keels 3 on the periphery, wood piles 9 are fixed in the mounting holes 8, and nails 10 penetrating through the anti-corrosion wood keels 3 and the wood piles 9 are arranged on the anti-corrosion wood keels 3 located in the four corners of the floor structure plate 1; and the position close to the center on the floor structure plate 1 is also provided with a mounting hole 8, a timber pile 9 is also fixed in the mounting hole 8, and a nail 10 penetrating through the anticorrosion wood keel 3 positioned above the mounting hole 8 is arranged in the timber pile 9.

The transverse connecting rods 6 can connect a plurality of transverse anticorrosive wood keels 3 together, and the vertical connecting rods 7 can connect two longitudinal columns of anticorrosive wood keels 3 together, so that all the paved anticorrosive wood keels 3 are connected together; then, the five anti-corrosion wood keels 3 which are positioned close to the periphery and the center are nailed tightly on the floor structural slab through the nails 10, so that the anti-corrosion wood keels 3 are conveniently connected and fixed with the floor structural slab 1, and the construction efficiency is improved.

Further, the transverse plate 31 and the vertical plate 32 are both provided with a clamping groove 11, and an opening of the clamping groove 11 is positioned on the outer peripheral side of the anti-corrosion wooden keel 3; the both ends joint of transverse connection pole 6 is in the joint groove 11 of riser 32, and the both ends joint of vertical connecting rod 7 is in the joint groove 11 of diaphragm 31, consequently the mode through the joint alright connect each anticorrosive wooden fossil fragments 3 fast and the restriction is on the coplanar.

As shown in fig. 2 and 4, the cross sections of the clamping groove 11, the transverse connecting rod 6 and the vertical connecting rod 7 are circular, the two ends of the transverse connecting rod 6 and the vertical connecting rod 7 are sleeved and fixed with elastic sleeves 12, the elastic sleeves 12 can be made of rubber materials, and the end parts of the elastic sleeves 12 are arranged in a conical shape, so that the guide effect is achieved, and the two ends of the transverse connecting rod 6 and the vertical connecting rod 7 can be conveniently inserted into the clamping groove 11; when the both ends of connecting rod inserted in joint groove 11, the outer wall of elastic sleeve 12 can take place closely to laminate with the inner wall in joint groove 11, improves the joint strength of horizontal connecting rod 6 and vertical connecting rod 7 both ends and joint groove 11.

Furthermore, support rods 13 are arranged between the transverse connecting rods 6 and the vertical connecting rods 7, and the distance between each support rod 13 and the floor structural plate 1 can be adjusted; through the distance between regulation bracing piece 13 lower extreme and the waterproof layer 2 for the lower extreme of bracing piece 13 contacts with the waterproof layer 2 of 1 upper surface of floor structure board, therefore bracing piece 13 can support from the intermediate position of transverse connection pole 6 or vertical connecting rod 7, guarantees the stability of transverse connection pole 6 and vertical connecting rod 7. Wherein, screw thread portion is established to the one end of bracing piece 13, is equipped with screw hole 14 on transverse connection pole 6 and the vertical connecting rod 7, through rotatory bracing piece 13, just can adjust bracing piece 13 to the position of lower extreme and waterproof layer 2 contact, guarantees that bracing piece 13 lower extreme and some waterproof layer 2 upper surfaces of surperficial injustice contact.

The utility model discloses a working process and beneficial effect as follows:

after the anti-corrosion wood keels 3 are arranged on the waterproof layer 2 in a plurality of horizontal rows and a plurality of vertical columns, two ends of the horizontal connecting rods 6 can be inserted into the clamping grooves 11 of the vertical plates 32 of the adjacent anti-corrosion wood keels 3 so as to limit the anti-corrosion wood keels 3 on the same plane; two ends of the vertical connecting rod 7 are inserted into the clamping grooves 11 of the transverse plates 31 of the two columns of the anticorrosive wood keels 3 close to the outermost side, so that all the anticorrosive wood keels 3 which are transversely and longitudinally arranged can be limited in the same horizontal plane; and then the nails 10 penetrate through the five anti-corrosion wood keels 3 at the four corners and the central position and are fixed with the wood piles 9 in the mounting holes 8, so that all the anti-corrosion wood keels 3 can be fixed on the floor structure layer, and the effect of improving the construction efficiency is realized.

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

Claims (8)

1. The utility model provides a green fabricated building's floor changes lays structure based on BIM, includes floor structure board (1), a plurality of anticorrosive wood joist (3) that set gradually from making progress down, fills in vermiculite concrete layer (4) and ceramic tile (5) between the cavity of each anticorrosive wood joist (3) and each anticorrosive wood hole bone interval, each anticorrosive wood joist (3) all include two riser (32) and two diaphragm (31) and constitute its characterized in that: horizontal adjacent be provided with transverse connection pole (6) between anticorrosive wooden keel (3), wherein be close to at least two in the outside be provided with vertical connecting rod (7) between anticorrosive wooden keel (3), transverse connection pole (6) and vertical connecting rod (7) all can be dismantled with anticorrosive wooden keel (3) and be connected, be provided with mounting hole (8) on four corners of floor structure board (1), be provided with timber pile (9) in mounting hole (8), be located be provided with nail (10) that pass anticorrosive wooden keel (3) and timber pile (9) on anticorrosive wooden keel (3) of four corners of floor structure board (1).

2. The BIM-based green fabricated building floor-to-floor laying structure of claim 1, wherein: all be provided with joint groove (11) on diaphragm (31) and riser (32), the opening in joint groove (11) is located the periphery side of anticorrosive wooden keel (3), the both ends joint of transverse connection pole (6) is in joint groove (11) of riser (32), the both ends joint of vertical connecting rod (7) is in joint groove (11) of diaphragm (31).

3. The BIM-based green fabricated building floor-to-floor laying structure of claim 2, wherein: the transversal circular form of personally submitting of joint groove (11), the both ends of transverse connection pole (6) and vertical connecting rod (7) all are provided with elastic sleeve (12), the outer wall of elastic sleeve (12) and the inner wall laminating of joint groove (11).

4. The BIM-based green fabricated building floor-to-floor laying structure of claim 3, wherein: the end part of the elastic sleeve (12) is arranged in a conical shape.

5. The BIM-based green fabricated building floor-to-floor laying structure of claim 1, wherein: the middle of the transverse connecting rod (6) and the middle of the vertical connecting rod (7) are both provided with a supporting rod (13), the distance between the supporting rod (13) and the floor mechanism plate can be adjusted, and the lower end of the supporting rod (13) is in surface contact with the upper surface of the floor structure plate (1).

6. The BIM-based green fabricated building floor-to-floor laying structure of claim 5, wherein: one end of the supporting rod (13) is provided with a threaded part, and threaded holes (14) are formed in the transverse connecting rod (6) and the vertical connecting rod (7).

7. The BIM-based green fabricated building floor-to-floor laying structure of claim 1, wherein: the floor structure plate is characterized in that a mounting hole (8) is also formed in the position, close to the center, of the floor structure plate (1), a timber pile (9) is arranged in the mounting hole (8), and a nail (10) penetrating through the anti-corrosion timber keel (3) is arranged in the timber pile (9).

8. The BIM-based green fabricated building floor-to-floor laying structure of claim 1, wherein: the upper surface of the floor structure plate (1) is provided with a waterproof layer (2).

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