CN112081325A - Heat preservation and decoration integrated prefabricated floor slab - Google Patents

Abstract

The invention relates to a heat-insulation and decoration integrated prefabricated floor slab, wherein one side wall of the floor slab is abutted against a wall slab, a bearing plate positioned below the floor slab is arranged on the wall slab, the floor slab comprises a base plate, a heat-insulation plate and a decoration plate which are sequentially connected along the direction far away from the wall slab, a plurality of first buckling holes are formed in the wall slab, first buckling parts matched with the first buckling holes are formed in the base plate, and positioning parts are arranged at the tops of the wall slab and the floor slab. The invention has the effects of convenient installation and accelerated installation efficiency by an assembly method.

Description

Heat preservation and decoration integrated prefabricated floor slab

Technical Field

The invention relates to the technical field of building construction, in particular to a heat-preservation and decoration integrated prefabricated floor slab.

Background

With the rapid development of social economy, various industries are continuously developed, and the construction industry is the basis of the development of various industries.

The floor slab is a separated bearing component, then the house is vertically separated into a plurality of layers, and vertical loads of people, furniture and the like and the self weight of the floor slab are transmitted to the foundation through the wall body, the beam or the column. The floor can be divided into several forms such as wood floor, brick arch floor, reinforced concrete floor and steel lining bearing floor according to the used materials.

In the process of building engineering construction, according to the demand of reality, add heated board and decorative board on the floor, the heated board is used for thermal-insulated, and the decorative board is for improving whole wall body's pleasing to the eye degree. For earlier production or use, customers will most likely want a shorter schedule to be better. In the current building process, the construction site needs to be measured on site, and the floor slab is manufactured on site according to the measured structure.

The above prior art solutions have the following drawbacks: most of the current floor construction needs to be carried out on site, certain requirements are met on the construction site range, and the site construction of each part to be used on site wastes a great deal of time and prolongs the construction period.

Disclosure of Invention

The invention aims to provide a heat-insulation and decoration integrated assembly type prefabricated floor slab, which solves the problem of long construction period.

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

the utility model provides a keep warm and decorate integration assembled precast floor, one of them lateral wall and the wallboard butt of floor, be provided with the bearing plate that is located the floor below on the wallboard, the floor includes along the direction of keeping away from the wallboard including base plate, heated board and the decorative board that connects gradually, be provided with a plurality of first lock holes on the wallboard, be provided with the first buckling parts with first lock hole matched with on the base plate, the top of wallboard and floor is provided with the setting element.

By adopting the technical scheme, the floor slab consists of the substrate, the heat insulation board and the decorative board, the floor slab also has the heat insulation effect on the premise of having the shielding and reinforcing functions, and the decorative board is arranged on the outermost layer, so that the overall attractiveness is improved; according to the actual size of construction site, will prefabricate the floor in advance and transport the job site, floor and wallboard pass through mutually supporting of first buckling hole and first buckling parts, make the floor hang and establish on the wallboard, should be provided with and help improving the efficiency of installation, according to the needs of difference, the not floor of equidimension of cooperation, this setting has stronger flexibility, greatly reduced the time of being equipped with the floor at the job site.

The invention is further configured to: the horizontal projection of the first buckling hole on the wall plate is in an inverted convex shape, the area of the end part, close to the wall plate, of the first buckling part in the projection of the wall plate is larger than the area of the end part, far away from the wall plate, of the first buckling part in the projection of the wall plate, and when the first buckling part is located in the first buckling hole, the moving direction of the first buckling part in the first buckling hole is in the vertical direction.

By adopting the technical scheme, in the buckling process, the end part of the first buckling part, which is close to the wallboard, extends into the first buckling hole, and the substrate can move in the vertical direction due to the gravity of the substrate, so that the first buckling part moves in the first buckling hole, and the substrate and the wallboard are connected more tightly; the end of the first buckling part close to the wallboard is larger than the end of the first buckling part far away from the wallboard in the area of the wallboard projection, after the first buckling part stretches into the first buckling hole, the first buckling part is matched with the first buckling hole in the shape of the inverted convex, the end of the first buckling part far away from the substrate can be limited to be always located in the first buckling hole, and the connection stability between the substrate and the wallboard is enhanced.

The invention is further configured to: the side wall, far away from the wallboard, of the base plate is connected with two first supporting rods which are horizontally arranged in a sliding mode, the first supporting rods are connected with two groups of vertical rods in a sliding mode, an interval exists between every two adjacent groups of vertical rods, the vertical rods comprise two second supporting rods which are vertically arranged, and the heat insulation plate is connected to the side walls of the first supporting rods and the vertical rods of the same group.

Through adopting above-mentioned technical scheme, set up first bracing piece and the second bracing piece of mutual staggered connection on the base plate, then connect the heated board on first bracing piece and second bracing piece, then there is the interval between heated board and the base plate, and it is equivalent to hollow insulating layer, plays better heat preservation effect.

The invention is further configured to: the end face of the first supporting rod far away from the wallboard is flush with the end face of the second supporting rod far away from the wallboard.

Through adopting above-mentioned technical scheme, the terminal surface that the wallboard was kept away from to first bracing piece flushes with the terminal surface that the wallboard was kept away from to the second bracing piece, then the connection that the heated board can be comparatively firm is on first bracing piece and second bracing piece.

The invention is further configured to: the heat-insulation board comprises two connecting plates which are connected up and down, a plurality of second buckling parts are arranged on the side wall, far away from the wallboard, of the second supporting rod, and second buckling holes matched with the second buckling parts are formed in the side wall, close to the wallboard, of the connecting plate.

By adopting the technical scheme, the heat-insulation board is divided into two connecting plates, so that the transportation is convenient, and the number of the connecting plates is matched according to the size of an actual wallboard; through mutually supporting in second buckling parts and second buckling hole, connect the connecting plate on first bracing piece, second bracing piece, it is comparatively convenient through the mode of lock, help improving the efficiency of installation.

The invention is further configured to: and third buckling parts are arranged on two sides of the second supporting rod on the substrate, third buckling holes matched with the third buckling parts are arranged on the side walls, close to the wall plate, of the connecting plate, and the area of the vertical cross section of each third buckling hole position is larger than the area of the projection of the third buckling part on the substrate.

By adopting the technical scheme, the third buckling parts which are symmetrically arranged play a role in clamping the second supporting rod, and the connecting plate can be buckled while the second supporting rod is fixed; the area of the vertical section of the third buckling hole is larger than the area of the projection of the third buckling part on the substrate, so that the third buckling part can conveniently stretch into the third buckling hole.

The invention is further configured to: the end part of the third buckling part corresponding to the connecting plate positioned above faces downwards, and the end part of the third buckling part corresponding to the connecting plate positioned below faces upwards.

Through adopting above-mentioned technical scheme, the connecting plate of different positions corresponds the third buckling parts that the orientation is different, and when the middle part of adjacent connecting plate received the extrusion force, made upper strata connecting plate upward movement, lower floor's connecting plate downstream, the direction of motion is opposite with the direction of the tip of third buckling parts, then the connection of connecting plate is more firm.

The invention is further configured to: the top surface of connecting plate is provided with the stopper, the bottom surface of connecting plate is provided with the spacing groove with stopper matched with.

By adopting the technical scheme, the installation efficiency between the adjacent connecting plates is facilitated to be increased through the mutual matching of the limiting blocks and the limiting grooves; through mutually supporting of spacing groove and stopper, can inject the hookup location between the adjacent connecting plate, help strengthening the connection stability between the connecting plate.

The invention is further configured to: and sealing elements are connected between the second supporting rods of the adjacent groups in a sliding manner, and each sealing element comprises first sealing gaskets which are symmetrically arranged and second sealing gaskets which are clamped between the two first sealing gaskets.

Through adopting above-mentioned technical scheme, the connection stability of the vertical pole of adjacent group is strengthened to the sealing member, during the installation, at first with the installation of first sealed pad, then packs the second sealed pad into between two first sealed pads.

The invention is further configured to: the setting element corresponds to be connected between the vertical pole of adjacent group, the setting element includes first locating plate and second locating plate, and vertical cross-section is the L font the second locating plate is fixed at the middle part of the vertical first locating plate lateral wall that sets up, the top surface of decorative board is provided with the constant head tank with the bottom matched with of first locating plate, be provided with the bolt of wearing to establish the wallboard on the second locating plate.

Through adopting above-mentioned technical scheme, the constant head tank at first locating plate and decorative board top cooperatees, and the second locating plate butt can strengthen the connection stability between wallboard and the floor on the wallboard.

In conclusion, the beneficial technical effects of the invention are as follows:

1. the prefabricated floor slab is transported to a construction site according to the actual size of the construction site, the floor slab and the wallboard are matched with each other through the first buckling hole and the first buckling part, so that the floor slab is hung on the wallboard, the arrangement is favorable for improving the installation efficiency, and the floor slabs with different sizes are matched according to different requirements, so that the arrangement has stronger flexibility, and the time for preparing the floor slab on the construction site is greatly reduced;

2. the insulation board is divided into two connecting plates, so that the insulation board is convenient to transport, and the number of the connecting plates is matched according to the size of an actual wallboard;

3. the first locating plate matches with the locating slot at the top of the decorative plate, and the second locating plate is abutted to the wallboard, so that the connection stability between the wallboard and the floor slab can be enhanced.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a partially exploded view of the present invention.

Fig. 3 is a partial mechanism diagram in the present invention.

In the figure, 1, wall panel; 11. a first fastening hole; 2. a floor slab; 21. a substrate; 211. a first groove; 212. a third groove; 22. a thermal insulation board; 221. a connecting plate; 222. a limiting block; 223. a limiting groove; 23. a decorative plate; 231. positioning a groove; 24. a first buckling part; 241. a first fastening plate; 242. a second fastening plate; 25. a second fastening part; 26. a second fastening hole; 27. a third buckling part; 28. a third fastening hole; 3. a bearing plate; 4. a second support bar; 5. a seal member; 51. a first gasket; 52. a second gasket; 6. a positioning member; 61. a first positioning plate; 62. a second positioning plate; 7. a first support bar; 71. a second groove.

Detailed Description

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

Referring to fig. 1, in order to provide the heat-insulating and decorative integrated prefabricated floor disclosed by the invention, one side wall of a wallboard 1 is abutted against a floor 2, a bearing plate 3 is fixed at the bottom of the wallboard 1 close to the side wall of the floor 2, and the bearing plate 3 has a bearing effect on the floor 2.

Referring to fig. 1 and 2, the floor slab 2 includes a substrate 21, an insulation board 22 and a decoration board 23 connected in sequence along a direction away from the wall slab 1, the wall slab 1 is provided with a plurality of first fastening holes 11, the number of the first fastening holes 11 is four, two first fastening holes 11 are located on the same horizontal line, the substrate 21 is fixed with a first fastening portion 24 matched with the first fastening holes 11, and the substrate 21 is fastened on the wall slab 1 through mutual matching of the first fastening portion 24 and the first fastening holes 11; the vertical cross section of the first buckling part 24 is in an L shape, the first buckling part 24 comprises a first buckling plate 241 and a second buckling plate 242 which are connected with each other, one end of the first buckling plate 241 is fixed on the base plate 21, the other end of the first buckling plate is fixed with the top of the side wall of the second buckling plate 242, and the area of the projection of the second buckling plate 242 on the wall plate 1 is larger than the area of the projection of the first buckling plate 241 on the wall plate 1; the projection of the first fastening hole 11 on the wall plate 1 is in the shape of an inverted convex, during the installation process, the first fastening part 24 is inserted into the first fastening hole 11 through the upper half part of the first fastening hole 11, that is, the second fastening plate 242 enters the first fastening hole 11 first, because of the gravity, the first fastening plate 241 and the second fastening plate 242 both move in the first fastening hole 11, the moving direction of the first fastening plate 241 is limited through the lower half part of the first fastening hole 11, and the second fastening plate 242 is limited to be located in the first fastening hole 11 all the time.

Referring to fig. 3, two first grooves 211 which are horizontally arranged at intervals are formed in the side wall of the substrate 21 away from the wall, two ends of each first groove 211 are communicated with the outside, the first support rod 7 is slidably inserted into the first grooves 211, and the end surface of the first support rod 7 extends out of the end surface of the substrate 21; two groups of vertical rods are connected to the first supporting rod 7 in a sliding mode, a space exists between every two adjacent groups of vertical rods, each group of vertical rods comprises two second supporting rods 4 which are vertically arranged, in order to facilitate the second supporting rods 4 to be inserted on the first supporting rod 7, four second grooves 71 which correspond to the second supporting rods 4 respectively are formed in the end face of the first supporting rod 7, the inserted first supporting rod 7 and the inserted second supporting rod 4 are perpendicular to each other, and the end face of the first supporting rod 7 is flush with the end face of the second supporting rod 4; in order to further improve the connection stability of the second support bar 4, a third groove 212 matched with the second support bar 4 is formed on the base plate 21, and the corresponding second groove 71 and the third groove 212 are on the same vertical line.

The third buckling parts 27 are arranged on the two sides of the second support rod 4 on the base plate 21, the side wall of the connecting plate 221 close to the wall plate 1 is provided with a third buckling hole 28 matched with the third buckling part 27, the area of the vertical section of the third buckling hole 28 is larger than the area of the projection of the third buckling part 27 on the base plate 21, the third buckling part 27 can conveniently stretch into the third buckling hole 28, the end part of the third buckling part 27 corresponding to the connecting plate 221 above faces downwards, the end part of the third buckling part 27 corresponding to the connecting plate 221 below faces upwards, the vertical section of the end part of the third buckling part 27 far away from the base plate 21 is triangular, and the guiding effect is achieved in the sliding process through the inner matching of the triangle and the third buckling hole 28.

The heat insulation board 22 is connected to the side walls of the first support rod 7 and the same group of vertical rods, the heat insulation board 22 is composed of two connecting boards 221 which are connected up and down, the side wall of the connecting board 221, which is close to the second support rod 4, is provided with a plurality of second buckling holes 26, the number of the second buckling holes 26 on the same connecting board 221 is four, the side wall of the support rod, which is close to the connecting board 221, is provided with a plurality of second buckling parts 25 corresponding to the second buckling holes 26, and the vertical cross section of each second buckling part 25 is L-shaped; in order to enhance the connection strength of the adjacent connecting plates 221 on the vertical rod, a limiting block 222 is fixed at the bottom of each connecting plate 221, a limiting groove 223 matched with the limiting block 222 is formed in the top of each connecting plate 221, and installation is performed according to the installation sequence from bottom to top in the installation process; the direction of the end of the third engaging portion 27 corresponding to the upper connecting plate 221 is opposite to the direction of the end of the second engaging portion 25, and the direction of the end of the third engaging portion 27 corresponding to the lower connecting plate 221 is the same as the direction of the end of the second engaging portion 25.

There is the interval between the vertical pole of adjacent group, insert and establish sealing member 5 on this interval, in the installation, sealing member 5 is including the first sealed pad 51 that the symmetry set up and the second sealed pad 52 of chucking between first sealed pad 51, two first sealed pads 51 and second sealed pad 52 are located same vertical line, the cross-section of first sealed pad 51 is the T font, the vertical cross-section of second sealed pad 52 is the trapezoidal, when putting into second sealed pad 52 between two first sealed pads 51, produce certain extrusion force each other, the tip that second bracing piece 4 was kept away from to first sealed pad 51 butts with connecting plate 221.

Referring to fig. 1, top of wallboard 1 and floor 2 is provided with setting element 6, setting element 6 corresponds the top of connecting the vertical pole of adjacent group, setting element 6 includes first locating plate 61 and second locating plate 62, the middle part at the first locating plate 61 lateral wall of vertical setting is fixed to the second locating plate 62 that the vertical cross-section is the L font, the bottom surface and the decorative board 23 of second locating plate 62, the top surface butt of connecting plate 221 (refer to fig. 3) and base plate 21, the lateral wall of second locating plate 62 and the lateral wall butt of wallboard 1, set up the bottom matched with constant head tank 231 with first locating plate 61 on the decorative board 23, three constant head tank 231 has been seted up to correspondence on the same decorative board 23, this setting helps strengthening wallboard 1 and floor 2's connection stability.

The implementation principle of the embodiment is as follows: in the installation process, the size of the wallboard 1 needing decoration is measured at first, the quantity of the bearing plates 3 and the floor slabs 2 needed is judged according to the size, and the needed materials are transported to a construction site in advance.

Connecting the bearing plate 3 to the bottom of the side wall of the wallboard 1, and fastening the substrate 21 on the wallboard 1 through the mutual matching of the first fastening part 24 and the first fastening hole 11, wherein the substrate 21 can move in the vertical direction due to gravity, so that the first fastening part 24 moves in the first fastening hole 11, and the connection between the substrate 21 and the wallboard 1 is more firm; the area of the end vertical section of the first buckling part 24 far away from the floor plate 2 is larger than the area of the end vertical section close to the floor plate 2, after the first buckling part 24 extends into the first buckling hole 11, the first buckling part 24 is matched with the inverted convex-shaped first buckling hole 11, the end part of the first buckling part 24 far away from the substrate 21 can be limited to be always located in the first buckling hole 11, and the connection stability between the substrate 21 and the wallboard 1 is enhanced.

The first support rod 7 is inserted on the side wall of the base plate 21 in a sliding mode, the second support rod 4 is inserted on the first support rod 7 in a sliding mode, third buckling parts 27 are fixed on the base plate 21 and on two sides of the second support rod 4, the second buckling parts 25 are matched with the second buckling holes 26, the third buckling parts 27 are matched with the third buckling holes 28, two connecting plates 221 are buckled on the adjacent second support rods 4 in the same group, the heat insulation plate 22 is formed, then the decorative plate 23 is connected on the heat insulation plate 22, and finally the floor plate 2 is connected with the wallboard 1 through the positioning part 6, so that the connection stability of the floor plate 2 and the wallboard 1 is improved.

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 (10)

1. The utility model provides a heat preservation is decorated integration assembled precast floor slab which characterized in that: one of them lateral wall and wallboard (1) butt of floor (2), be provided with bearing plate (3) that are located floor (2) below on wallboard (1), floor (2) are including base plate (21), heated board (22) and decorative board (23) that connect gradually along the direction of keeping away from wallboard (1), be provided with a plurality of first lock holes (11) on wallboard (1), be provided with first buckling parts (24) with first lock hole (11) matched with on base plate (21), the top of wallboard (1) and floor (2) is provided with setting element (6).

2. The integrated prefabricated floor slab with heat preservation and decoration functions as claimed in claim 1, wherein: the horizontal projection of the first buckling hole (11) on the wall plate (1) is in an inverted convex shape, the area of the projection of the end part of the first buckling part (24) close to the wall plate (1) on the wall plate (1) is larger than the area of the projection of the end part of the first buckling part (24) far away from the wall plate (1) on the wall plate (1), and when the first buckling part (24) is located in the first buckling hole (11), the moving direction of the first buckling part (24) in the first buckling hole (11) is in the vertical direction.

3. The integrated prefabricated floor slab with heat preservation and decoration functions as claimed in claim 1, wherein: sliding connection has first bracing piece (7) that two levels set up on the lateral wall of wallboard (1) is kept away from in base plate (21), sliding connection has two sets of vertical poles on first bracing piece (7), adjacent group there is the interval between the vertical pole, and is a set of the vertical pole includes two second bracing pieces (4) of two vertical settings, heated board (22) are connected on the lateral wall of first bracing piece (7) and same group vertical pole.

4. The integrally assembled prefabricated floor slab with heat preservation and decoration according to claim 3, wherein: the end face of the first support rod (7) far away from the wallboard (1) is flush with the end face of the second support rod (4) far away from the wallboard (1).

5. The integrated prefabricated floor slab with heat preservation and decoration functions as claimed in claim 4, wherein: the heat insulation board (22) comprises two connecting plates (221) which are connected up and down, a plurality of second buckling parts (25) are arranged on the side wall, far away from the wallboard (1), of the second supporting rod (4), and second buckling holes (26) matched with the second buckling parts (25) are formed in the side wall, close to the wallboard (1), of the connecting plates (221).

6. The integrated prefabricated floor slab with heat preservation and decoration functions as claimed in claim 5, wherein: third buckling parts (27) are arranged on two sides of the base plate (21) on the second supporting rod (4), third buckling holes (28) matched with the third buckling parts (27) are formed in the side wall, close to the wall plate (1), of the connecting plate (221), and the area of the vertical cross section of each third buckling hole (28) is larger than the area of the projection of the third buckling part (27) on the base plate (21).

7. The integrated prefabricated floor slab with heat preservation and decoration functions as claimed in claim 6, wherein: the end part of the third buckling part (27) corresponding to the connecting plate (221) positioned above faces downwards, and the end part of the third buckling part (27) corresponding to the connecting plate (221) positioned below faces upwards.

8. The integrally assembled prefabricated floor slab with heat preservation and decoration functions as claimed in claim 7, wherein: the top surface of the connecting plate (221) is provided with a limiting block (222), and the bottom surface of the connecting plate (221) is provided with a limiting groove (223) matched with the limiting block (222).

9. The integrally assembled prefabricated floor slab with heat preservation and decoration according to claim 6, wherein: and a sealing element (5) is connected between the second supporting rods (4) of the adjacent groups in a sliding manner, and the sealing element (5) comprises first sealing gaskets (51) which are symmetrically arranged and second sealing gaskets (52) clamped between the two first sealing gaskets (51).

10. The integrally assembled prefabricated floor slab with heat preservation and decoration according to claim 7, wherein: the utility model discloses a wallboard, including setting element (6), second locating plate (62), decorative board (23) and first locating plate (61), setting element (6) are provided with the bottom matched with constant head tank (231) with first locating plate (61), the bolt of wearing to establish wallboard (1) is provided with on second locating plate (62), setting element (6) include first locating plate (61) and second locating plate (62), and the vertical cross-section is the L font second locating plate (62) are fixed at the middle part of vertical first locating plate (61) lateral wall that sets up, the top surface of decorative board (23).

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