FLOOR AND COLUMN STRUCTURE

Abstract

A floor and column structure consists of floors and columns in a building, wherein each of the floors is composed of a floor iron sheet, square pipes, a floor steel grating, a lower impermeable membrane, rigid plastic foam, an upper impermeable membrane and cement stone concrete; each of the columns is composed of a column iron sheet, column steel gratings, steel posts and cement stone concrete; the floor iron sheet, the square pipes and the floor steel grating and the column iron sheets, the column steel gratings and the steel posts are welded into a framework; the lower impermeable membrane, the rigid plastic foam and the upper impermeable membrane are provided over the floor steel grating; Various pipelines are installed in the plastic foam layer; the cement stone concrete is provided over the upper impermeable membrane; and a colored cement talc layer is provided over the cement stone concrete. The inventive floors and columns do not need to be supported and reinforced by concrete beams, do not need to be enclosed by supporting timber boards during casting, can isolate vibration, insulate sound and heat, greatly shorten engineering time, prevent leakage, and facilitate pipeline installation, have smooth, bright, visually pleasant, sanitary and freshening surfaces, and can replace floors and columns in existing large buildings and be applied to the construction field.

Claims

1. A floor and column structure, consisting of floors and columns, wherein each of the floors is composed of a floor iron sheet (1), square pipes (2), a floor steel grating (3), a lower impermeable membrane (4), rigid plastic foam (5), an upper impermeable membrane (6) and cement stone concrete (7); each of the columns is composed of a column iron sheet (11), column steel gratings (12), steel posts (13) and cement stone concrete; the floor iron sheet (1) is fixedly welded to the column iron sheet (11); the floor iron sheet (1) can completely seal the bottom of each floor; the column iron sheet (11) can completely wrap each column; an upper surface of the floor iron sheet (1) is welded to a lower part of each of the square pipes (2); the square pipes (2) perform a function of reinforcing the iron sheet (1), and the square pipes (2) are each provided with a thin pipe wall so that slotting and installation of electric wires beside the square pipes (2) are convenient; an upper part of each square pipe (2) is welded to the floor steel grating (3); the floor steel grating (3) is welded to the steel grating (12) and the steel posts (13) at an upper part of, each column, and the floor iron sheet (1), the square pipes (2) and the steel grating (3) and the column iron sheets (11), the steel gratings (12) and the steel posts (13) are welded into a framework, which is firm and not prone to collapse; the columns and the bottom of the floors are cast with cement stone slurry for reinforcement; the lower impermeable membrane (4), the rigid plastic foam (5) and the upper impermeable membrane (6) are provided over the floor steel grating (3); the lower impermeable membrane (4), the rigid plastic foam (5) and the upper impermeable membrane (6) are sandwiched between the floor steel grating (3) and the cement stone concrete (7) for vibration isolation and acoustic and thermal insulation, which can prevent conduction of vibration, sound and heat between adjacent floors; the lower impermeable membrane (4) and the upper impermeable membrane (6) have an anti-seepage function and can prevent sewage in pipelines in the plastic foam layer from leaking vertically; a drain pipe (9) from a hand washing basin, a dish washing basin, a bathroom, etc. and a sewage pipe (8) from a toilet are connected in parallel in the plastic foam layer and then joined to a main pipe, which is arranged in a pipeline groove beside the column; a gas pipe, a heating pipe, an air conditioner pipe, a water pipe and various cables extend separately from the main pipe in the pipeline groove beside the column, pass through the plastic foam layer and enter a user meter box; the pipes and cables are arranged in the plastic foam layer, and not concreted with the cement stone slurry, which is convenient for installation and maintenance; the upper impermeable membrane (6) can prevent the overlying cement slurry from flowing into the plastic foam layer; the cement stone concrete (7) is provided over the upper impermeable membrane (6); the cement stone concrete (7) is hard and can bear large loads; and the surface of cement stone concrete (7) is treated separately.

2. The floor and column structure of claim 1, wherein, the cement stone concrete (7) is replaceable by cement volcanic scoria concrete according to actual situations, which cement volcanic scoria concrete is porous and lightweight, and can make the floors have better effects of vibration isolation and acoustic and thermal insulation.

3. The floor and column structure of claim 1, wherein a colored cement talc layer (10) can, be poured over the cement stone concrete (7), colored cement talc slurry is formed by mixing white cement, talc and water, in which a certain amount of pigment is added according to specific situations, the colored cement talc slurry is poured to form the colored cement talc layer (10), the formed layer surface is flat, bright and visually pleasant because talc is delicate, lubricating and easy to level, and in addition, the talc is favorable for water permeation, so that the formed layer surface is sanitary and freshening.

4. The floor and column structure of claim 1, wherein electric wires in a room under the floor extend separately from the meter box, run upwards through switches on walls to the bottom of the floor and extend between the floor iron sheet (1) and the steel grating (3), thereby avoiding the influence of the electric wires and dust over the electric wires on the room, and keeping a ceiling of the room visually pleasant, and during installation, only slotting, wire placing, sealing and, welding, and filling at corresponding positions are needed, and local slotting results in a shallow depth, which does not affect the steel grating and the entire structure, and is convenient for installation and maintenance.

5. The floor and column structure of claim 1, wherein a supporting plate is welded between each floor and each of the columns, and the supporting plate is a steel plate supported at the bottom of the floor, which is beneficial for load-bearing and construction and has an obvious effect especially for small columns and round columns.

6. The floor and column structure of claim 1, wherein the floor square pipes (2) above the columns can be replaced by a steel grating, so that there are two floor steel gratings above the columns, which can strengthen the floor around the columns and make joints between the floors and the columns firmer.

7. The floor and column structure of claim 1, wherein each floor is internally provided with cross members, vertical steel gratings are arranged in each of the cross members, the vertical steel gratings being vertically welded to the floor steel grating (3), cement stone concrete is poured around the vertical steel grating, and the cross members within the floor can strengthen the floor.

8. The floor and column structure of claim 1, wherein both the floor iron sheet (1) and the column iron sheet (11) are of a hollow structure.

9. The floor and column structure of claim 8, wherein the column iron sheet (11) is of a honeycomb hollow structure.

10. A floor and column structure, consisting of floors and columns, wherein the floor comprises a floor iron sheet (1) and a layer for acoustic and thermal insulation and vibration isolation provided over the iron sheet, the layer for acoustic and thermal insulation and vibration isolation being rigid plastic foam (5), a hollow brick layer, or a spaced supporting timber board layer; and each of the columns comprises a column iron sheet (11).

11. The floor and column structure of claim 10, wherein the floor further comprises square pipes (2) provided over the floor iron sheet (1), and an upper surface of the floor iron sheet (1) is welded to a lower part of each of the square pipes (2).

12. The floor and column structure of claim 10, wherein each of the floors further comprises a floor steel grating (3) provided over the square pipes (2), and an upper part of each square pipe (2) is welded to the floor steel grating (3).

13. The floor and column structure of claim 10, wherein each of the floors further comprises a lower impermeable membrane (4) provided over the floor iron sheet (1).

14. The floor and column structure of claim 12, wherein the lower impermeable membrane (4) is provided over the floor steel grating (3).

15. The floor and column structure of claim 10, wherein each of the floors further comprises an upper impermeable membrane (6), and the upper impermeable membrane is provided over the layer for acoustic and thermal insulation and vibration isolation.

16. The floor and column structure of claim 10, wherein each of the floors further comprises cement stone concrete (7), and the cement stone concrete (7) is provided over the upper impermeable membrane (6).

17. The floor and column structure of claim 10, wherein each of the floors is composed of the floor iron sheet (1), square pipes (2), a floor steel grating (3), the layer for acoustic and thermal insulation and vibration isolation, an upper impermeable membrane (6) and cement stone concrete (7) arranged in sequence; or the floor is composed of the floor iron sheet (1), square pipes (2), a floor steel grating (3), a lower impermeable membrane (4), the layer for acoustic and thermal insulation and vibration isolation and cement stone concrete (7) arranged in sequence; or when the floor iron sheet (1) is thickened such that the floor iron sheet (1) can bear loads of the floor and objects on the floor, the floor is composed of the floor iron sheet (1), a lower impermeable membrane (4), the layer for acoustic and thermal insulation and vibration isolation, an upper impermeable membrane (6) and cement stone concrete (7) arranged in sequence.

18. The floor and column structure of claim 10, wherein each of the columns further comprises one or more of a column steel grating (12), a steel post (13) and cement stone concrete.

19. The floor and column structure of claim 10, wherein a ceiling is formed under the floor iron sheet (1), at least part of electric wires, closed circuit television lines, network cables, telephone lines, heating pipes, cooling pipes, water pipes and gas pipes extend above the ceiling, and at least part of the electric wires, closed circuit television lines, network cables, telephone lines, heating pipes, cooling pipes, water pipes, gas pipes and sewage pipes extend through the layer for acoustic and thermal insulation and vibration isolation, the layer for acoustic and thermal insulation and vibration isolation being rigid plastic foam (5), a hollow brick layer, or a spaced supporting timber board layer.

20. The floor and column structure of claim 10, wherein both the floor iron sheet (1) and the column iron sheet (11) are of a hollow structure.

Description

BRIEF DESCRIPTION OF DRAWINGS

[0031] FIG. 1 is a schematic view of a floor;

[0032] FIG. 2 is a schematic view of a column;

[0033] FIG. 3 is a schematic view of a first embodiment of the floor of the present application;

[0034] FIG. 4 is a schematic view of a second embodiment of the floor of the present application;

[0035] FIG. 5 is a schematic view of a third embodiment of the floor of the present application; and

[0036] FIG. 6 is a schematic view of a fourth embodiment of the floor of the present application.

[0037] In the accompanying drawings: 1. floor iron sheet 2. square pipe 3. floor steel grating 4. lower impermeable membrane 5. rigid plastic foam 6. upper impermeable membrane 7. cement stone concrete 8. sewage pipe 9. drain pipe 10. colored cement talc layer 11. column iron sheet 12. column steel grating 13. steel post.

DETAILED DESCRIPTION

[0038] The present application consists of floors and columns. Each of the floors is composed of a floor iron sheet 1, square pipes 2, a floor steel grating 3, a lower impermeable membrane 4, rigid plastic foam 5, an upper impermeable membrane 6 and cement stone concrete 7. Each of the columns is composed of a column iron sheet 11, column steel gratings 12, steel posts 13 and cement stone concrete. The floor iron sheet 1 is fixedly welded to the column iron sheet 11. The floor iron sheet 1 can completely seal the bottom of each floor. The column iron sheet 1 can completely wrap each column. An upper surface of the floor iron sheet 1 is welded to a lower part of each of the square pipes 2. The square pipes 2 perform a function of reinforcing the iron sheet 1, and the square pipes 2 are each provided with a thin pipe wall so that slotting and installation of electric wires beside the square pipes 2 are convenient. An upper part of each square pipe 2 is welded to the floor steel grating 3. The floor steel grating 3 is welded to the steel grating 12 and the steel posts 13 at an upper part of each column, and the floor iron sheet 1, the square pipes 2 and the steel grating 3 and the column iron sheets 11, the steel gratings 12 and the steel posts 13 are welded into a framework, which is firm and not prone to collapse. The columns and the bottom of the floors are cast with cement stone slurry for reinforcement. The lower impermeable membrane 4, the rigid plastic foam 5 and the upper impermeable membrane 6 are provided over the floor steel grating 3. The lower impermeable membrane 4, the rigid plastic foam 5 and the upper impermeable membrane 6 are sandwiched between the floor steel grating 3 and the cement stone concrete 7 for vibration isolation and acoustic and thermal insulation, which can prevent conduction of vibration, sound and heat between adjacent floors. The lower impermeable membrane 4 and the a upper impermeable membrane 6 have an anti-seepage function and can prevent sewage in pipelines in the plastic foam layer from leaking vertically. A drain pipe 9 from a hand washing basin, a dish washing basin, a bathroom, etc. and a sewage pipe 8 from a toilet are connected in parallel in the plastic foam layer and then joined to a main pipe, which is arranged in a pipeline groove beside the column. A gas pipe, a heating pipe, an air conditioner pipe, a water pipe and various cables extend separately from the main pipe in the pipeline groove beside the column, pass through the plastic foam layer and enter a user meter box. The pipes and cables are arranged in the plastic foam layer, and not concreted with the cement stone slurry, which is convenient for installation and maintenance. The upper impermeable membrane 6 can prevent the overlying cement slurry from flowing into the plastic foam layer. The cement stone concrete 7 is provided over the upper impermeable membrane 6. The cement stone concrete 7 is hard and can bear large loads. The surface of cement stone concrete 7 is treated separately.

[0039] Further, the cement stone concrete 7 is replaceable by cement volcanic scoria concrete according to actual situations, which cement volcanic scoria concrete is porous and lightweight, and can make the floors have better effects of vibration isolation and acoustic and thermal insulation.

[0040] Further, a colored cement talc layer 10 can be poured over the cement stone concrete 7, colored cement talc slurry is formed by mixing white cement, talc and water, in which a certain amount of pigment is added according, to specific situations, the colored cement talc slurry is poured to form the colored cement talc layer 10, the formed layer surface is flat, bright and visually pleasant because talc is delicate, lubricating and easy to level, and in addition, the talc is favorable for water permeation, so that the formed layer surface is sanitary and freshening.

[0041] Further, electric wires in a room under the floor extend separately from the meter box, run upwards through switches on walls to the bottom of the floor and extend between the floor iron sheet 1 and the steel grating 3, thereby avoiding the influence of the electric wires and dust over the electric wires on the room, and keeping a ceiling of the room visually pleasant, and during installation, only slotting, wire placing, sealing and welding, and filling at corresponding positions are needed, and local slotting results in a shallow depth, which does not affect the steel grating and the entire structure, and is convenient for installation and maintenance.

[0042] Further, a supporting plate is welded between each floor and each of the columns, and the supporting plate is a steel plate supported at the bottom of the floor, which is beneficial for load-bearing and construction and has an obvious effect especially for small columns and round columns.

[0043] Further, there is a pipeline groove beside the column, and there are various pipelines in the pipeline groove. The pipeline groove is installed in a recess of the column, which is visually pleasant, handy and convenient to install.

[0044] Further, the floor square pipes 2 above the columns can be replaced by a steel grating, so that there are two floor steel gratings above the columns, which can strengthen the floor around the columns, and make joints between the floors and the columns firmer.

[0045] Further, each floor is internally provided with cross members, vertical, steel gratings are arranged in each of the cross members, the vertical steel gratings being vertically welded to the floor steel grating 3, cement stone concrete is poured around the vertical steel grating, and the cross members within the floor can strengthen the floor.

[0046] Further, when the floor iron sheet 1 is thickened such that the floor iron sheet 1 can bear loads of the floor and objects on the floor, the square pipes 2 and the floor steel grating 3 may be omitted.

[0047] Further, when the column iron sheet 11 is thickened such that the column iron sheet 11 and the steel posts 13 can support the overlying part of the building, the column steel grating 12 may be omitted.

[0048] Further, when the column iron sheet 11 is thickened such that the column iron sheet 11 and the steel posts 13 can support the overlying part of the building, the column steel grating 12 and the cement stone concrete in the column are omitted.

[0049] Further, when the column iron sheet 11 is thickened, the column steel grating 12, the steel posts 13 and the cement stone concrete in the column are omitted.

[0050] Further, when the column iron sheet 11 is thickened such that the column iron sheet 11 can independently support the overlying part of the building, the column steel grating 12 and the steel posts 13 are omitted.

[0051] Further, according to specific actual situations, the lower impermeable membrane 4 may be omitted.

[0052] Further, according to specific actual situations, the upper impermeable membrane 6 may be omitted.

[0053] Further, according to specific actual situations, the rigid plastic foam 5 may be replaced by hollow bricks with the same acoustic and thermal insulation and vibration isolation functions.

[0054] Further, according to specific actual situations, the rigid plastic foam 5 may be replaced by a spaced supporting timber board layer with the same acoustic and thermal insulation and vibration isolation functions.

[0055] Further, if the floor panel is wooden floor, cement stone concrete 7 may be omitted according to actual situations.

[0056] Further, the present application further provides a floor and column structure, consisting of floors and columns, wherein the floor includes a floor iron sheet 1 and a layer for acoustic and thermal insulation and vibration isolation provided over the iron sheet, the layer for acoustic and thermal insulation and vibration isolation being rigid plastic foam 5, a hollow brick layer, or a spaced supporting timber board layer; and each of the columns includes a column iron sheet 11.

[0057] Optionally, in the floor and column structure, the floor further includes square pipes 2 provided over the floor iron sheet 1, and an upper surface of the floor iron sheet 1 is welded to a lower part of each of the square pipes 2.

[0058] Optionally, in the floor and column structure, each of the floors further includes a floor steel grating 3 provided over the square pipes 2, and an upper part of each square pipe 2 is welded to the floor steel grating 3.

[0059] Optionally, in the floor and column structure, each of the floors further includes a lower impermeable membrane 4 provided over the floor iron sheet 1.

[0060] Optionally, in, the floor and column structure, the lower impermeable membrane 4 is provided over the floor steel grating 3.

[0061] Optionally, in the floor and column structure, each of the floors further includes an upper impermeable membrane 6, and the upper impermeable membrane is provided over the layer for acoustic and thermal insulation and vibration isolation.

[0062] Optionally, in the floor and column structure, each of the floors further includes cement stone concrete 7, and the cement stone concrete 7 is provided over the upper impermeable membrane 6.

[0063] Optionally, in the floor and column structure,

[0064] as shown in FIG. 4, each of the floors is composed of the floor iron sheet 1, square pipes 2, a floor steel grating 3, the layer for acoustic and thermal insulation and vibration isolation, an upper impermeable membrane 6 and cement stone concrete 7 arranged in sequence; or

[0065] as shown in FIG. 5, the floor is composed of the floor iron sheet 1, square pipes 2, a floor steel grating 3, a lower impermeable membrane 4, the layer for acoustic and thermal insulation and vibration isolation and cement stone concrete 7 arranged, in sequence; or

[0066] as shown in FIG. 3, when the floor iron sheet 1 is thickened such that the floor iron sheet 1 can bear loads of the floor and objects on the floor, the floor is composed of the floor iron sheet 1, a lower impermeable membrane 4, the layer for acoustic and thermal insulation and vibration isolation, an upper impermeable membrane 6 and cement stone concrete 7 arranged in sequence. In other implementations, the thickened iron sheet 1 which can bear the gravity of the floor and the objects on the floor can also be a hollow steel plate or an iron plate so as to facilitate welding and production. As long as the plate can bear the gravity of the floor and the objects on the floor, it will fall within the scope of the floor iron sheet 1 claimed in this application.

[0067] Optionally, in the floor and column structure, each of the columns further includes one or more of a column steel grating 12, a steel post 13 and cement stone concrete. Specifically, when the column iron sheet 11 is thickened such that the column iron sheet 11 and the steel posts 13 can support the overlying part of the building, the column includes the column iron sheet and the steel posts, and the column steel grating 12 and the cement stone concrete are omitted in the column. In other implementations, when the column iron sheet 11 is thickened, the column steel grating 12, the steel posts 13 and the cement stone concrete in the column may be omitted.

[0068] In order to facilitate welding and production in the implementation process, when the column iron sheet 11 needs to be thickened, a honeycomb hollow structure can be used, and its material can be steel, stainless steel, etc. The steel post 13 can be a honeycomb hollow metal column. Further, as required by interior decoration, a ceiling is formed under the floor iron sheet 1, some of electric wires, closed circuit television lines, network cables, telephone lines, heating pipes, cooling pipes, water pipes and gas pipes extend above the ceiling, and some of the electric wires, closed circuit television lines, network cables, telephone lines, heating pipes, cooling, pipes, water pipes, gas pipes and sewage pipes extend through the rigid plastic foam layer, namely, part of the electric wires, network cables, telephone lines, closed circuit television lines, heating pipes, cooling pipes, water pipes and gas pipes extend above the ceiling, and the rest of the electric wires, network cables, telephone lines, closed circuit television lines, heating pipes, cooling pipes, water pipes, gas pipes and sewage pipes extend through the rigid plastic foam layer.

[0069] The functions and connections of the floor iron sheet, square pipe, floor steel grating, lower impermeable membrane, upper impermeable membrane, cement stone concrete, column iron sheet, column steel grating, steel post and concrete involved in the floor and column structure of the present application are the same as those of corresponding structural components in the technical scheme of the floors and columns of the present application. The layer for acoustic and thermal insulation and vibration isolation is the rigid plastic foam layer 5, and in other embodiments, alternatively, may be a hollow brick layer, or a spaced supporting timber board layer. In the embodiments shown in FIGS. 3, 4 and 5, the colored cement talc layer 10 may be further provided over the cement stone concrete 7, and a sewage pipe 8 and a drain pipe 9 are arranged in the layer for acoustic and thermal insulation and vibration isolation.