JPH084285A - Anchor form, and anchor construction method using the same - Google Patents

Abstract

PURPOSE:To facilitate the installation of an equipment by forming an anchor form having a circumferential wall part, a bottom part and an opening part, and burying this anchor form in a foundation to form an anchor hole in the foundation concrete. CONSTITUTION:An anchor form 10 is formed of a circumferential part 12, a bottom part 11, and an opening part 13, and the circumferential part 12 and the bottom part 11 are formed from an easily breaking plate such as foamed polystyrene plate or foamed polyethylene plate. This anchor form 10 is arranged in a prescribed position, foundation concrete 1 is placed therein, and after the hardening of the foundation concrete 1, the anchor form 10 is broken to form an anchor hole 20. An anchor bolt 3 is arranged in the anchor hole 20, and a grout material 4 is poured into the circumference to fix the anchor bolt 3 to the anchor hole 20. Thus, the connecting force between the grout material and the foundation concrete can be significantly enhanced.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an anchor form for forming anchor holes in basic concrete, and an anchor construction method using the same.

[0002]

2. Description of the Related Art An anchor construction method is usually adopted to install equipment such as transformers and circuit breakers in a power substation or the like on a foundation concrete serving as a foundation. FIG. 5 is an explanatory view of a conventional anchor construction method, (a) is a sectional view and (b) is a plan view thereof. In this construction method, first, a wooden concrete form is used to cast the basic concrete 1, and after the basic concrete 1 hardens, the form is removed to form a rectangular anchor hole 2 and then the anchor hole 2 Anchor bolt 3 is placed inside and grout material 4 such as cement mortar is placed around it.
Then, the anchor bolt 3 is fixed. In this way, a plurality of anchor bolts 3 are embedded at predetermined positions in the foundation concrete 1, and a mounting substrate (not shown) is fixed by the anchor bolts 3.

[0003]

However, in the conventional anchoring method, the bond strength between the anchor bolt 3 and the grout material 4 can be sufficiently secured, but the bond strength between the basic concrete 1 and the grout material 4 is sufficient. In addition, there is a problem that it is difficult to apply to large-scale equipment or equipment with vibration. Then, this invention makes it a subject to solve the problem in such a conventional anchor construction method.

[0004]

That is, the first invention of the present invention is an anchor form having a peripheral wall portion, a bottom portion and an opening portion, which is used for forming an anchor hole in a foundation concrete. The peripheral wall and the bottom are formed of a destructible plate material, and the outer side of the peripheral wall is formed as an inclined surface so that the cross-sectional area of the bottom of the anchor hole formed by the anchor form is larger than the opening. It is characterized by being. In a preferred embodiment of the anchor form, the destructible plate material forming the peripheral wall portion and the bottom portion is a foamed resin plate. In another preferred embodiment, the outer shape of the anchor form is a shape obtained by cutting the upper part of the pyramid. A second invention of the present invention is an anchor construction method using the above anchor form. And this construction method first arranges the anchor formwork at a predetermined position and pour foundation concrete, after the foundation concrete hardens, destroys and removes the anchor formwork, and then in the formed anchor hole. Anchor bolts are arranged and fixed with grout material.

[0005]

By anchoring the anchor formwork of the present invention in the base concrete and then destroying and removing the anchor form, anchor holes having a bottom having a larger cross-sectional area than the opening are formed in the base concrete. When the anchor bolt is fixed in the anchor hole with a grout material, an inclined surface is formed at the boundary between the grout material and the foundation concrete so as to reduce its cross-sectional area from the bottom of the anchor hole toward the opening. When pull-out stress occurs in the anchor bolt, the grout material receives a component force that is pressed against the concrete surface. Therefore, the bonding force between the grout material and the foundation concrete is greatly increased as compared with the conventional case where the boundary surface parallel to the axis extending from the bottom to the opening is used.

[0006]

Embodiments of the present invention will now be described with reference to the drawings.
FIG. 1 is a perspective view showing an example of the anchor formwork of the present invention. The anchor formwork 10 has a peripheral wall portion 12, a bottom portion 11 and an opening portion 13. The peripheral wall portion 12 is composed of four trapezoidal side plates 12a, and has a rectangular cross section and an outer shape of a pyramid shape with an upper part cut off. The peripheral wall portion 12 is inclined toward the opening portion 13 so that the cross-sectional area of the anchor formwork 10 decreases. Also, the bottom 11 is a flat bottom plate 1.
1a. In addition to the above-described shape, the outer shape of the anchor form 10 may be a conical shape with the upper part cut or a shape similar to it, but it is preferable to have the shape as shown in the drawings from the viewpoint of ease of making. Further, the inclined surface of the peripheral wall portion 12 may be an arcuate surface that is convex outside or inward in addition to a flat surface, and by further inclining at least a part of the peripheral wall portion 12, the cross-sectional area of the bottom portion 11 is larger than that of the opening portion 13. You may form so that it may become large.

When the outer shape of the anchor form 10 is a pyramid with the upper part cut off as described above, the peripheral wall portion 12 has at least only two opposing surfaces inclined, and the remaining two surfaces are vertical as in the conventional case. It may be formed on the surface. Further, since it suffices that the cross-sectional area of the bottom of the anchor hole formed by the anchor mold 10 is larger than the opening, it is sufficient that at least the outer side of the peripheral wall 12 of the anchor mold 10 is an inclined surface. Therefore, the peripheral wall portion 12 extends from the bottom portion 11 to the opening portion 1
The thickness may decrease toward 3, and the inside may be vertical and the outside may be inclined. The above peripheral wall portion 12 and bottom portion 1
1 is formed of a plate material having a destructive property. Here, the destructible property means that the shape can be easily broken with a hand or a simple tool. Examples of such a plate material include a foamed resin plate such as a foamed polystyrene plate or a foamed polyethylene plate. Then, the foamed resin plate is cut into a predetermined shape and connected by, for example, an adhesive or welding, so that the anchor form 10 as shown in FIG. 1 can be easily manufactured. In order to make the anchor mold, a method of using a foamable resin and pressurizing and heating it with a mold to foam-mold it into a predetermined shape may be used. The inclination angle for forming the inclined surface on the peripheral wall portion 12 can be set by calculation or experiment.

Next, an anchor construction method using the above anchor form 10 will be described with reference to FIGS. In these figures, (a) is a sectional view and (b) is a plan view thereof. First, as shown in FIG. 2, the bottom portion 11 and the peripheral wall portion 1
2, the anchor form 10 having the opening 13 is arranged at a predetermined position, and is temporarily fixed by a fixing means (not shown) to pour the foundation concrete 1. At that time, anchor formwork 1
The opening 13 of 0 is made to agree with the surface of the foundation concrete 1 to be cast. It is preferable to apply a release agent such as oil to the outside of the bottom portion 11 and the peripheral wall portion 12. Next, after the foundation concrete 1 is hardened, the anchor formwork 10 is peeled off while breaking it with a hand or a peeling tool having a sharp tip, and is removed from the foundation concrete 1 as a small piece.
By removing the anchor form 10 in this manner, anchor holes 20 as shown in FIG. 3 are formed. The cross-sectional area of the bottom portion 20b of the anchor hole 20 formed according to the outer surface shape of the peripheral wall portion 12 of the anchor form 10 is larger than that of the opening portion 20a.

Next, as shown in FIG. 4, the anchor bolts 3 are arranged in the anchor holes 20, and a grout agent 4 such as cement mortar is poured around the anchor bolts 3 to fix the anchor bolts 3 in the anchor holes 20. In this way, a plurality of anchor bolts 3 are embedded in predetermined positions of the foundation concrete 1, and the anchor bolts 3 fix the installation substrate (not shown). Then, after further injecting a grout agent into the lower side of the installation substrate to solidify it, the device is fixed on the installation substrate.

[0010]

As described above, by using the anchor formwork of the present invention, it is possible to easily form an anchor hole having a bottom whose cross-sectional area is larger than the opening in the concrete foundation. When anchor bolts are fixed with grout material in the anchor holes thus formed, the boundary surface between the grout material and the foundation concrete becomes an inclined surface that decreases its cross-sectional area toward the opening of the anchor hole. Therefore, when pull-out stress occurs in the anchor bolt, a component force is exerted on the grout material, which is pressed against the concrete surface. Therefore, the bonding force between the grout material and the foundation concrete is greatly increased as compared with the conventional case where the boundary surface is parallel to the axis extending from the bottom to the opening.

[Brief description of drawings]

FIG. 1 is a perspective view showing an example of an anchor form of the present invention.

2 is an explanatory view of a procedure of an anchor construction method using the anchor form of FIG. 1. FIG.

FIG. 3 is an explanatory view of a procedure of an anchor construction method using the anchor form of FIG.

FIG. 4 is an explanatory view of a procedure of an anchor construction method using the anchor form of FIG.

FIG. 5 is an explanatory view showing a conventional anchor construction method.

[Explanation of symbols]

 1 Foundation Concrete 2 Anchor Hole 3 Anchor Bolt 4 Grout Material 10 Anchor Form 11 Bottom 11a Bottom Plate 12 Peripheral Wall 12a Side Plate 13 Opening 20 Anchor Hole 20a Opening 20b Bottom

Claims (4)

[Claims] 1. An anchor formwork 10 having a peripheral wall portion 12, a bottom portion 11 and an opening portion 13, which is used for forming an anchor hole 20 in a foundation concrete 1, wherein the peripheral wall portion 12 and the bottom portion 11 are formed. An outer side of the peripheral wall portion 12 is formed into an inclined surface so that the bottom portion 20b of the anchor hole 20 formed by the anchor form 10 has a larger cross-sectional area than the opening portion 20a. Anchor formwork that is characterized by. 2. The anchor formwork according to claim 1, wherein the destructible plate material forming the peripheral wall portion 12 and the bottom portion 11 is a foamed resin plate. 3. The anchor formwork according to claim 1, which has an outer shape in which the upper portion of the pyramid is cut. 4. The anchor formwork 10 according to claim 1 is placed at a predetermined position to pour the foundation concrete 1, and after the foundation concrete 1 is hardened, the anchor formwork 10 is destroyed and removed, thereby forming An anchor construction method in which the anchor bolt 3 is placed in the anchor hole 20 and is fixed with the grout material 4.