JPH0259900B2 - - Google Patents

Abstract

A thin lightweight, strong cementitious floor panel (10) has a flat upper surface (12) and a ribbed lower surface (14). Reinforcing rods (32,34) extend through the ribs (16) near the bottom of the panel and are arranged one (32) along each side of the panel and two (34) in a crossed configuration in the centre. The ends of the crossed bars (34) rest on the side bars (32) and the side bars (32) extend to regions adjacent corners of the panel at which the panel can be supported in a floor so that the bars tend to transfer loads imposed on the panel to the panel support regions.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to lightweight floor panels and floor systems made of cementitious materials.

(Prior Art) Floor panels are widely used in computer rooms and the like where it is convenient to have a raised floor so that wiring and mechanisms can be housed under the floor. Conventional floor panels have generally been constructed from compressed lumber or chipboard enclosed within a case formed from sheet metal or two welded steel panels. Although the chipboard and metal panel floor panels are relatively lightweight, they are expensive to manufacture and are not completely fireproof. Taking this point into consideration, the applicant investigated concrete floor panels. However, in the case of concrete panels sufficient strength (usually around 1055
tons are required. ) would increase the weight and make it impossible to install or remove (for example, to free up space under a floor panel) without mechanical force.

(Object of the Invention) In view of the above-mentioned circumstances, the present invention has sufficient strength to be used as a raised floor in various purpose places (for example, a computer room), is lightweight, and can be carried by one or more people. The object is to provide a lightweight and reinforced concrete floor panel that can be handled by two workers.

CONSTRUCTION The floor panel of the present invention consists of a thin rectangular body of cementitious material with an essentially flat upper surface and a lower surface having a plurality of ribs. The ribs increase the strength of the panel and help reduce the amount of material within the panel. The material also has four corners at which the panel can be supported.
A set of reinforcing bars are disposed within the body of material generally parallel to the top surface. The set of reinforcing bars includes two cross bars that extend between opposite sides at a substantially right angle to both sides and intersect with each other at approximately the center, and two cross bars that extend along each side and have their ends at the corners. There are four sidebars within the section. Both ends of the two cross bars rest on the side bars on both sides, so that the load applied to the top surface of the panel is transmitted to the corner portions via each reinforcing bar. Further, a reinforcing mesh member is disposed within the material body and extends substantially parallel to the upper surface. The mesh member covers at least a major portion of the interior portion of the sidebar of the panel.

(Example) Examples of the present invention will be described in detail below with reference to the drawings. 1-4, a floor panel 10 according to one embodiment of the present invention is generally square in shape and includes a fiber reinforced concrete body. Fiber-reinforced concrete is well known and usually consists of cement, sand, glass fibers and water, with plasticizers and polymers sometimes added for further reinforcement. Lightweight aggregates such as barlite may be added to further reduce the weight of the compound.

The top surface 12 of the panel 10 is generally flat, and the bottom surface 14 has ribs 16 formed therein. Panel 10
Its thickness is extremely small compared to its length and width. The length and width of the panel 10 is typically 610 mm, whereas the overall thickness t of the panel 10, excluding the corners (described below), is only about 43 mm. i.e. rib 1
6 is formed to increase strength while reducing overall weight.

The ribs 16 are made up of four side ribs 18 extending along the lower surface of each side of the panel 10, and two large ribs 20 that are perpendicular to each other and divide the lower surface 14 of the panel 10 into four quadrants 22. The height d ₁ of the side rib 18 and the large rib 20 is approximately 20 mm, and the width d ₂ at the base of the side rib 18 is approximately 38 mm.
mm, and the width d ₃ at the base of the large rib 20 is approximately 30 mm.

A pair of small ribs 24 (FIG. 3) are provided within each quadrant 22, respectively. This pair of small ribs 24
are parallel to each other and the small ribs 2 in other quadrants
4 are parallel. This small rib 24 is the large rib 20
It is extremely small compared to , measuring 3 mm in height and approximately 12 mm in width.

The panel 10 further includes a corner portion 26 (FIG. 3), which protrudes from the large rib 20 by, for example, about 5 mm. As will be described later in detail with reference to FIG. 4, when the panels 10 are laid together to form a floor, the panels 10 are laid so that the corner portions 26 are in contact with a support such as a pedestal.

Panel 10 includes six steel reinforcing rods 28 as shown in FIGS. 4 of them
A book extends along each side within each of the side ribs 18, and the remaining two extend within the large ribs 20, intersecting at the center of the panel 10. In FIG. 1, the reinforcing rods passing through the side ribs 18 are designated at 32, and the reinforcing rods passing through the large ribs 20 are designated at 34. Usually rod 32 has a diameter of about 10
mm, and the rod 34 has a diameter of 7.8 mm. Rods 32 and 34 are slightly raised from the bottom of panel 10. For example, the side rib 18 and the large rib 20
It is floating about 5mm from the base of. This rod 3
The spacing between 2, 34 and the bottom of panel 10 is obtained as follows. A mold (not shown) for forming panel 10 includes two molds for each rod 32, 34.
There are raised supports (one at each end). Once placed on the rods 32, 34 and their supports, concrete is poured into the mold. When demolded, the raised supports form a small pocket 36 (FIG. 3) in the panel 10 within which the rods 32, 34 are inserted.
are exposed (although in reality, the exposed portions of the rods 32 and 34 may be covered with a thin layer of concrete). After installing panel 10, pocket 3
6 is hidden and the effect of pocket 36 on the strength of panel 10 is negligible. One pocket 36 is formed at each end of the side rib 18 and the large rib 20. Therefore, the pockets 36 at both ends of the side rib 18 form boundaries with the corner portion 26, and the pockets 36 at both ends of the large rib 20 form boundaries with the large rib 2.
0 and the side rib 18.

Panel 1, as clearly shown in FIG.
The reinforcing rods 32 extending along each side of the reinforcing rod 32 extend into the corner portion 26, and both ends of each reinforcing rod 34, which intersect with each other in the center, are left above the reinforcing rod 32. Thus, forces applied to the top surface of panel 10 are transmitted from rod 34 to rod 32 and from rod 32 to corner 26. Moreover, the central rods 34 intersect with each other approximately at the center,
They meet at that intersection. The two rods 3
4 may be tied with wire. Lower rod 34
is straight, but the upper rod 34 is slightly bent at the center where it intersects the lower rod 34, so that both ends of both rods 34 are all located on approximately the same plane.

Panel 10 further includes a square expanded metal type steel mesh 40 (FIG. 2). The overall dimensions of the mesh 40 are 1.2 cm smaller than the length and width of the panel 10, and the mesh 40 is 1.2 cm smaller than the length and width of the panel 10.
It is located slightly below 2. The mesh 40 prevents the surface of the panel 10 from cracking, for example, when a heavy object is dropped onto the panel 10. The mesh 40 also resists shrinkage stress due to hardening of the concrete during manufacture of the panel 10.

In manufacturing panel 10, rods 28 (rods 32, 34) are placed on the raised supports in a mold and a fiber reinforced concrete mix is poured into the mold. After pouring concrete to a level close to the surface height finally required for the product, a mesh 40 is placed on top of the concrete, and concrete is poured to the final height to finish the surface.

The panel 10 as described above weighs only about 18 kg.
and still at least about 680Kg
can support loads without cracking.

The panels 10 are assembled to form a raised floor as shown in FIG. Each panel 10 includes a step 42 on the top surface at each corner 26. Each step 42 has a flat surface 44 and an edge wall 46 rising perpendicularly from the flat surface 44. Edge wall 46
are on both sides of the corner 26 of the panel 10.
It extends at an angle of 45°. 4 panels 10
If you combine them into a square, the four panels 1
A square recess 48 (FIG. 4) is formed by the step portions 42 of the corner portions 26 adjacent to each other.
A square push plate 50 for fixing the four panels 10 to the lower pedestal 51 is located in the recess 48.
It is now housed inside. The push plate 50
is fixed by screws 52 to a lower support plate 54 having threaded holes 56. Each corner portion 54a of the lower support plate 54 is bent upward and hooked onto the back side of the corner portion 26 of each panel 10. This facilitates positioning of the panel 10 during installation. The lower support plate 54 is welded to the tubular member 60. The tubular member 60 includes a base plate 64
A post 62 with a thread welded to the post is inserted from below. A leveling nut 66 screwed into the pillar 62
The height of the lower support plate 54 is adjusted by.

A recess 70 is formed below each step 42 on the lower surface 14 of the panel 10 . This recess 70 forms a push line on which a jack for raising and lowering the panel 10 is applied while the panel 10 is being installed. Furthermore, a notch 72 for applying a jack or the like is formed at the tip of the corner of the panel 10 above the recess 70.

Although one embodiment of the present invention has been described in detail above, it goes without saying that the present invention is not limited to the above embodiment. For example, in the above embodiment, only one set of reinforcing rods (four rods 32 and two rods 34) is used, but another set of reinforcing rods is arranged above the aforementioned reinforcing rods 32 and 34. It's okay to do that. Additionally, narrow reinforcing mesh may be inserted along each side of the panel 10 and perpendicular to the top surface 12. Further, in the above embodiment, expanded metal was used as the mesh 40, but the type of mesh 40 is not very important, and a mesh made by welding wire or a plastic mesh may be used instead of expanded metal. Good too.

Further, in the above embodiment, the shape of the panel is square, but it may of course be rectangular.

[Brief explanation of the drawing]

FIG. 1 is a perspective view of a panel according to an embodiment of the present invention as seen from the front side, FIG. 2 is a sectional view taken along the line -- in FIG.
Figure 3 is a perspective view from the back of the panel in Figure 1.
FIG. 4 is a perspective view of a raised floor using the panel of FIG. 18...Side rib, 20...Large rib, 24...Small rib, 26...Corner part, 32, 34...Reinforcement rod, 40...Mesh.

Claims (1)

Claims: 1. A thin, rectangular body of cementitious material with an essentially flat upper surface and a lower surface with a plurality of ribs, a reinforcing bar disposed within the material body approximately parallel to said upper surface. A concrete floor panel comprising an assembly and a reinforcing mesh extending within the body generally parallel to the upper surface, the body having four corners, the body being adapted to be supported at the corners during use of the panel. , the reinforcing bar assembly includes four side reinforcing bars extending between corners along each side of the panel within the material body, each extending at right angles to two opposing sides and intersecting each other approximately at the center; two central reinforcing bars, both ends of which are located on the side edge reinforcing bars, so that the load applied on the top surface is transmitted to the corner portions via each reinforcing bar. The concrete floor panel is characterized in that the reinforcing mesh covers substantially the entire inner part of at least the four side edge reinforcing bars. 2. The concrete floor panel of claim 1, wherein the central reinforcing bars contact each other at substantially midpoints. 3. One of the central reinforcing bars is straight, and the other is bent approximately at its midpoint to form two straight sections, and the degree of bending is such that the four ends of both central reinforcing bars are approximately on the same plane. 3. Concrete floor panel according to claim 2, characterized in that it is such that it is located above. 4 The ribs on the lower surface of the material body are composed of side ribs extending along each side and two cross ribs that intersect each other at right angles, and the lower surface is divided into four quadrants by the side ribs and the cross ribs. The concrete floor panel according to claim 1, characterized in that the concrete floor panel is divided into two parts. 5. The concrete floor panel according to claim 4, wherein the side edge reinforcing bars are disposed within the side ribs, and the center reinforcing bar is disposed within the cross ribs. 6. Two pockets are provided within each of the side ribs and cross ribs, and each of the reinforcing bars is exposed through the pockets, and each of the pockets allows each of the reinforcing bars to be inserted during molding of the panel. The concrete floor panel according to claim 4 or 5, characterized in that it is formed by supporting members that support the concrete floor panel. 7. The concrete floor panel according to claim 1, wherein the reinforcing mesh is arranged slightly below the upper surface. 8. The concrete floor panel according to claim 1, wherein the reinforcing mesh is an expanded metal. 9. The concrete floor panel according to claim 1, 4, or 5, wherein the upper surface has a recessed portion at each corner portion for accommodating a push plate. 10. A recess is provided at each corner of the upper surface, each recess having a flat surface and edge walls forming a 45° angle on both sides forming the corner,
Claim No. 1, characterized in that when four panels are combined, a square recess for accommodating a square push plate is formed in the portion where the corner portions of each panel abut against each other. 1
The concrete floor panel according to paragraph 4 or paragraph 5. 11. The upper surface has a recess for accommodating a push plate at each corner, and the lower surface has a recess formed below the recess for applying the panel up and down means. A concrete floor panel according to claim 1, 4, or 5. 12. The concrete floor panel according to claim 1, 4 or 5, wherein the cementitious material body is made of fiber-reinforced concrete. 13. A concrete floor panel according to claim 1, 4 or 5, characterized in that the cementitious material body is made of fiber-reinforced concrete containing lightweight aggregate. 14. A floor system comprising a plurality of floor panels and a plurality of pedestals that lift and support the fiber panels from a base surface, wherein the floor panels have an essentially flat upper surface and a lower surface having a plurality of ribs. 2. A concrete floor panel comprising a thin square cementitious material body, a reinforcing bar assembly disposed within the material body substantially parallel to the top surface, and a reinforcing mesh extending within the material body substantially parallel to the top surface; The body of material has four corners and the panel is supported at the corners, and the reinforcing bar assembly includes four corners extending between the corners along each side of the panel within the body of material. It consists of two central reinforcing bars that extend perpendicularly to the two sides facing the side edge reinforcing bars and intersect with each other approximately at the center, and both ends of the central bar are located on the side edge reinforcing bars, respectively, and on the top surface. The applied load is transmitted to the corner portion through each reinforcing bar, and the reinforcing mesh covers substantially the entire inner part of at least the four side edge reinforcing bars,
A recess is provided at each corner of the top surface, each recess having a flat surface and a 45° edge wall on both sides forming the corner, and the panels are arranged in a set of four. A square recess is formed in the area where the corners of each panel are butted together, each of the pedestals is positioned under the square recess, and a push plate is further placed in the square recess. A system, wherein the system is seated and coupled to the pedestal.