CN216664675U - Assembled floor system - Google Patents

Abstract

The utility model relates to an assembly type floor system which is more environment-friendly and has stronger bearing capacity. This kind of assembled floor system is including a supporting beam, floor board and two tie-beams in front and back, the floor board is equipped with on the supporting beam, its characterized in that: the floor board is formed by silica-based ceramic plate and many reinforcing bars complex, and the reinforcing bar transversely runs through in silica-based ceramic plate to two bar connection heads around exposing are equipped with first connecting hole on the tie-beam, and two bar connection heads around the floor board are arranged in the first connecting hole of two tie-beams around respectively, and the tie-beam is connected on a supporting beam. The assembled floor system adopts the floor panel formed by compounding the silicon-based ceramic plate and the plurality of steel bars, is more environment-friendly in material, firmer in structure and very convenient to install.

Description

Assembled floor system

Technical Field

The utility model relates to the field of decoration engineering, in particular to an assembled floor system.

Background

The floors of buildings are all formed by pouring reinforced concrete, however, some buildings are not suitable for the floors (such as a factory building), only assembled floors can be installed, and the assembled floors are generally formed by connecting various supporting beams and prefabricated plates. For example, a fabricated floor system is disclosed in utility model entitled "fabricated floor system and installation method" (patent No. 202011094814.8), in which the floor panels are cement fiber boards, but the cement fiber boards have poor bearing capacity and are troublesome to lay.

Disclosure of Invention

In view of the defects in the prior art, the utility model innovatively provides the fabricated floor system which is higher in bearing capacity and more convenient to install.

This kind of assembled floor system is including a supporting beam, floor board and two tie-beams around with, the floor board is equipped with on a supporting beam, its characterized in that: the floor board is formed by silica-based ceramic plate and many reinforcing bars complex, the reinforcing bar transversely runs through in silica-based ceramic plate to two bar connection heads around exposing, be equipped with first connecting hole on the tie-beam, two bar connection heads around the floor board are arranged in the first connecting hole of two tie-beams around respectively, the side of floor board is equipped with C shaped steel, in C shaped steel's the recess was arranged in to silica-based ceramic plate's side, the tip of C shaped steel passes through the angle steel and connects on the tie-beam, the tie-beam is connected on a supporting beam.

One or more middle beams are arranged between the front connecting beam and the rear connecting beam, a plurality of second connecting holes are formed in the middle beams, the floor panels are arranged between the middle beams and the connecting beams or between the connecting beams and the middle beams and between the middle beams and the middle beams, reinforcing steel bars on the two floor panels on the front side and the rear side of the middle beams are arranged in the second connecting holes of the middle beams in a left-right staggered mode, and two ends of C-shaped steel are connected between the middle beams and the connecting beams or between the connecting beams and the middle beams and between the middle beams and the middle beams through angle steel.

The side of floor board is equipped with I-shaped steel, the left and right sides of I-shaped steel all is equipped with the floor board, in arranging the recess of I-shaped steel in the floor board, the tip of I-shaped steel passes through the angle steel and connects between centre sill and tie-beam or between tie-beam and centre sill and between centre sill and centre sill.

According to the fabricated floor system provided by the utility model, the floor panel compounded by the silicon-based ceramic plate and the plurality of steel bars is adopted, so that the material is more environment-friendly, the structure is firmer, and the installation is very convenient.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Detailed Description

As shown in fig. 1, the fabricated floor system includes a supporting beam (not shown), a floor panel 1 and two front and rear connecting beams 2, wherein the floor panel 1 is laid on the supporting beam, the floor panel 1 is formed by compounding a silicon-based ceramic plate 10 and a plurality of steel bars 11, and the steel bars 11 transversely penetrate through the silicon-based ceramic plate 10 and expose two front and rear steel bar connectors. The silicon-based ceramic plate 10 is a brand-new green energy-saving environment-friendly product, is synthesized by materials such as argil ore and the like, is fused according to a CaO-MgO-Al2O3-SiO2 quaternary system, is formed by adding an inorganic composite mineralizer into a mixture of primary minerals and adopting an advanced production process and a foaming technology through high-temperature roasting, is a closed-pore inorganic light silicon-based product with high porosity, has the characteristics of heat preservation, fire prevention, moisture prevention, sound insulation and the like, and the inner composite steel bars further enhance the bearing capacity of the product.

In order to be convenient for install this kind of floor board, be equipped with first connecting hole 20 on tie-beam 2, two steel bar connection heads around floor board 1 are arranged in the first connecting hole 20 of two tie-beams 2 around respectively, and be equipped with C shaped steel 3 at floor board 1's side, the recess of C shaped steel 3 is arranged in to the side of silicon-based ceramic plate 10, the tip of C shaped steel 3 passes through angle steel 5 to be connected on tie-beam 2, and tie-beam 2 connects on a supporting beam. When the building is installed, the floor panel 1 is laid on the supporting beams, and the supporting beams can mainly support the floor panel 1; the reinforcing steel bars 11 of the floor panels 1 are connected into the first connecting holes 20 of the connecting beams 2, and the connecting beams 2 are connected onto the supporting beams, so that the structure not only can arrange the floor panels 1, but also the connecting beams 2 can play a role in supporting the floor panels 1; the C-shaped steel 3 can not only protect the side surface of the floor panel 1, but also play a role in supporting the floor panel 1 after being connected to the connecting beam 2. Through the common support of supporting beam, tie-beam 2 and the three of C shaped steel 3, floor panel 1 can be very firm, has characteristics such as heat preservation, fire prevention, dampproofing, syllable-dividing, environmental protection moreover.

In order to expand the front and rear length, one or more middle beams 6 are arranged between the front and rear connecting beams 2 (the middle beams 6 are also connected to the supporting beams), a plurality of second connecting holes 60 are arranged on the middle beams 6, the floor panels 1 are arranged between the middle beams 6 and the connecting beams 2 (when only one connecting beam 2 is provided), or between the connecting beams 2 and the middle beams 6 and between the middle beams 6 and the middle beams 6 (when more than two connecting beams 6 are provided), the reinforcing steel bars on the two floor panels 1 at the front and rear sides of the middle beams 6 are arranged in the second connecting holes 60 of the middle beams 6 in a left-right staggered mode, and two ends of the C-shaped steel 3 are connected between the middle beams 6 and the connecting beams 2 or between the connecting beams 2 and the middle beams 6 and between the middle beams 6 and the middle beams 6 through angle steels 5. By means of this construction, the number of front and rear floor panels 1 can be expanded continuously.

In order to expand the left and right length, I-shaped steel 4 is arranged on the side edge of the floor slab 1, the floor slab 1 is arranged on the left and right sides of the I-shaped steel 4, the floor slab 1 is arranged in a groove of the I-shaped steel 4, and the end part of the I-shaped steel 4 is connected between the middle beam 6 and the connecting beam 2 through angle steel 5, or between the connecting beam 2 and the middle beam 6 and between the middle beam 6 and the middle beam 6. Through this kind of structure, can constantly expand the quantity of left and right sides floor board.

Finally, the inner side surface of the connecting beam 2 and the two side surfaces of the middle beam 6 are respectively stuck with rubber pads. The rubber pad can relax the interaction between the silicon-based ceramic plate 10 and the connection beam 2 and also relax the interaction between the silicon-based ceramic plate 10 and the intermediate beam 6, thereby protecting the silicon-based ceramic plate 10 from abrasion.

Claims (4)

1. The utility model provides an assembled floor system, is including a supporting beam, floor board (1) and two tie-beams (2) in front and back, floor board (1) is equipped with on a supporting beam, its characterized in that: floor board (1) is formed by silica-based ceramic plate (10) and many reinforcing bars (11) complex, reinforcing bar (11) transversely run through in silica-based ceramic plate (10) to two bar connection heads around exposing, be equipped with first connecting hole (20) on tie-beam (2), two bar connection heads are arranged in first connecting hole (20) of two tie-beams (2) around floor board (1) respectively, the side of floor board (1) is equipped with C shaped steel (3), the side of silica-based ceramic plate (10) is arranged in the recess of C shaped steel (3), the tip of C shaped steel (3) passes through angle steel (5) and connects on tie-beam (2), tie-beam (2) are connected on a supporting beam.

2. A fabricated floor system according to claim 1, wherein: have one or many centre girders (6) between two tie-beams (2) around, a plurality of second connecting holes (60) have on centre girder (6), floor board (1) is established between centre girder (6) and tie-beam (2) or between tie-beam (2) and centre girder (6) and between centre girder (6) and centre girder (6), the reinforcing bar on two floor boards (1) on both sides around centre girder (6) is located in centre girder (6)'s second connecting hole (60) with the mode of left and right staggering, the both ends of C shaped steel (3) are passed through angle steel (5) and are connected between centre girder (6) and tie-beam (2) or between tie-beam (2) and centre girder (6) and between centre girder (6) and centre girder (6).

3. A fabricated floor system according to claim 2, wherein: the side of floor board (1) is equipped with I-shaped steel (4), the left and right sides of I-shaped steel (4) all is equipped with floor board (1), in arranging I-shaped steel (4)'s the recess in floor board (1), the tip of I-shaped steel (4) passes through angle steel (5) to be connected between centre sill (6) and tie-beam (2) or between tie-beam (2) and centre sill (6) and between centre sill (6) and centre sill (6).

4. A fabricated floor system according to claim 2, wherein: rubber mats are adhered to the inner side face of the connecting beam (2) and the two side faces of the middle beam (6).

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