JPH0724491Y2 - Prestressed concrete material - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION <Industrial Application Field> The present invention relates to an improvement of a prestressed concrete material using a fiber reinforced plastic material for a tension rod.

<Prior art> As a prestressed concrete material, concrete is molded around a tensioned tension material, the hardening of the concrete is stopped, the tension material is released from tension, and the concrete material is pulled by the tension stress of the tension material in the concrete material. It is known to apply a compressive stress to. <Problems to be solved> By the way, if a fiber reinforced plastic (hereinafter referred to as FRP) rod is used as a tension material for such a prestressed concrete material, it is difficult to increase the adhesive strength between the concrete and the rod. At the time of release, slippage occurs during this period, which makes it difficult to apply stress to the concrete material, and thus it is difficult to obtain a prestressed material.

An object of the present invention is to provide a prestressed concrete material capable of easily and reliably fixing the FRP tension rod and the concrete material.

<Technical Means for Solving Problems> The prestressed concrete material according to the present invention comprises a plurality of metal sleeve-like anchors crimped at intervals between FRP tension rods and the tension rods are made of concrete. The structure is characterized by being embedded in a material.

<Embodiment> Hereinafter, the present invention will be described with reference to the drawings.

In FIG. 1, reference numeral 1 is a tension rod made of FRP. 2, ...
.. is a metal sleeve anchor, and is crimped to the middle and both ends of the tension rod. FIG. 2 shows a crimped state, in which both end portions 21 and 21 are not crimped (uncompressed) and are convex. 3 is a concrete material, and a tension rod is embedded in this concrete material.

This concrete material is molded by a mold, and when the cement in this casting is uncured, the FRP rod is maintained in a tensioned state, and after the cement is hardened, the rod is released from the tensioned state. In this case, in the FRP rod in the concrete material of hardened cement, the shrinkage is restrained due to the locking connection between the concrete material and the anchor, and as a result,
Compressive stress acts on the concrete material.

In this case, the compressive stress of the concrete material is δc and the cross-sectional area is
If Sc and the cross-sectional area of the FRP rod are Sf, the tensile stress δf of the FRP rod is δf = δc · Sc / Sf ……, the shearing force acting between the FRP rod and the concrete material. Y is Y = δc · Sc.

Therefore, the fixing force to the FRP rod per unit length of the metal sleeve-shaped anchor is a, and
If the length of the circle is l, the number of anchors is n, and the safety factor is k, alnk = Y ...... holds, and the compressive stress δc of the concrete material is δc = n (alk) / Sc ...... Given in.

As is clear from this equation, the cross-sectional area of the concrete material Sc
Even if the value changes, the compression stress δc of the concrete material is kept constant by adjusting the number of metal sleeve anchors,
It can guarantee a certain prestressed state.

It is preferable to use a rod made by continuous drawing for the FRP rod. As the reinforcing fiber of the rod, glass, carbon, aramid fiber or the like can be used, and as the resin, epoxy, unsaturated polyester, epoxy acrylic, phenol resin or the like can be used. Iron, stainless steel, aluminum, or the like can be used for the sleeve anchor.

<Effect of the device> The prestressed concrete material according to the present invention has the above-described configuration, and a plurality of metal anchors are provided in the middle of the FRP tension rod by crimping without boring holes for the rod. Since the rod is firmly fixed, the tensile strength of the rod can be maintained well, and a good pre-stress state of the concrete material can be guaranteed by locking the metal anchor and the concrete material. Also, by setting the number of metal sleeve anchors according to the cross-sectional area of the concrete material, even if the cross-sectional area of the concrete material is different, the compressive stress of the concrete material is kept constant and a constant pre-stress state is maintained. Can be guaranteed.

[Brief description of drawings]

FIG. 1 is an explanatory view showing a prestressed concrete material according to the present invention, and FIG. 2 is an explanatory view showing a crimped state of a metal anchor used in the present invention. In the figure, 1 is an FRP tension rod, 2, ... Metal anchors, 3 is a concrete material.

Claims (1)

[Scope of utility model registration request] 1. A prestressed concrete material, characterized in that a plurality of metal sleeve-like anchors are crimped at intervals in the middle of a fiber-reinforced plastic tension rod, and the tension rods are embedded in a concrete material.