JPH047415A - Structure of anchor plate and method for constructing anchor supporting beam - Google Patents

Abstract

PURPOSE:To make anchor plate carrying work easier so as to improve the working efficiency of the title method by fixing an anchor plate with a raised bottom and buried reinforcing steel bars passed through through-holes and inserting holes from the side face to a slope and placing a solidifying agent. CONSTITUTION:For an anchor plate 1, an anchor hole 11 is formed and, at the same time, reinforcing steel bars are arranged inside the plate 1 so as to form buried reinforcing bars 3 with exposed section of a prescribed length. In addition, a through-hole 14 for the reinforcing bar 4 is bored between two joining faces 13 on opposite sides of the hole 11. The bottom of the plate 1 is raised. The anchor plate 1 thus formed is installed to a slope, with the plate 1 being put on the exposed section of an anchor body 2 which is inserted into and fixed to the slope. Then supporting beams are constructed by filling the through-hole 14 with mortar 15 and placing a solidifying agent around the reinforcing steel bard 3 and 4.

Description

[Detailed Description of the Invention] <Industrial Application Field> The present invention relates to the structure of a concrete block-shaped anchor plate for fixing the free end of an anchor body, and an anchor that uses this anchor plate to stabilize a slope. This relates to a method of constructing support beams.

<Conventional Technology> The anchor method is known as one of the methods for stabilizing slopes.

In this construction method, the tip of the anchor body is anchored in the ground, and if tension is to be applied, it is tightened with jacks, etc., and then the free end of the anchor body is anchored to an anchor plate installed on a slope. .

As the structure of the anchor plate used in this case, there has conventionally been a concrete block-like structure as shown in FIG.

That is, the anchor plate a shown in FIG. 5 has an anchor hole opened in the vertical direction, and the anchor body C
The free end of the anchor body C is fixed to the upper surface of the anchor plate a by passing through the anchor body C.

Further, the conventional anchor plate a has a large number of embedded reinforcing bars d exposed from its side surface.

This embedded reinforcing bar d is used for internal reinforcement when constructing the support beam of the anchor body C.

That is, a plurality of anchor plates a are placed at predetermined positions on the slope.
is fixed, and a solidifying material such as concrete or mortar is cast along the periphery of the embedded reinforcing bars d between these anchor plates 8 to construct a continuous support beam.

<Problems to be Solved by the Present Invention> The conventional anchor plate a described above has a structure in which embedded reinforcing bars d are exposed from all joint surfaces e of the support beam.

Therefore, when supporting beams are spliced in the cross direction as shown in FIG. 5 or in multiple directions beyond that, the embedded reinforcing bars d are exposed in multiple directions.

Therefore, when transporting anchor plate a, embedded reinforcing bars d
This gets in the way and makes transport work extremely difficult.

Therefore, in the case of construction on a steep slope, etc., it is difficult for a worker to hold it, which may lead to a decrease in construction efficiency.

Furthermore, when loading the product onto the platform of a truck or the like, the embedded reinforcing bars d get in the way, creating a lot of wasted space and making it impossible to load efficiently.

<Objective of the present invention> The present invention was made to solve the above-mentioned problems, and it is possible to facilitate transportation work, improve construction efficiency, and moreover, it can be loaded efficiently. The purpose of this invention is to provide a structure of an anchor plate and a method of constructing an anchor support beam.

<Means for Solving the Problems> That is, the present invention provides a block-shaped anchor plate made of concrete, in which reinforcing bars are buried in a state exposed from one side, and a through hole for embedding the reinforcing bars is made to penetrate through another side. , and the structure of the anchor plate is characterized in that the insertion hole of the anchor body passes through the upper and lower surfaces.

Further, the anchor plate is characterized in that the bottom surface is formed into a raised bottom shape.

Furthermore, the present invention provides a method for constructing an anchor support beam using the above-mentioned anchor plates, in which a plurality of anchor plates are fixed at predetermined positions on a slope by penetrating the anchor bodies into the anchor body insertion holes of the anchor plates. After burying the reinforcing bars with some parts exposed in the through-holes of these anchor plates for burying the reinforcing bars, a solidifying material is cast along the periphery of the exposed reinforcing bars between the anchor plates to construct a reinforced concrete structure. This is a construction method for an anchor support beam, characterized in that the anchor support beam is used as a support beam for an anchor body.

<Description of the present invention> The present invention will be explained below.

<A> Structure of the anchor plate (Fig. 1.2) The anchor plate 1 is a block made of concrete.

A cross shape as shown in FIG. 1, a cube shape, a flat plate shape, a disk shape, a polygonal column shape, etc. can also be adopted.

An anchor hole 11 is vertically formed in the center of the anchor plate 1 to allow the anchor body 2 to pass therethrough.

In addition, the amount of reinforcing bars required for the design is arranged inside the anchor plate 1, and some of the reinforcing bars are placed inside the anchor plate 1.
from the side of the specified number of pieces (Figure 1 shows the case of two pieces)
is exposed for a predetermined length to form the embedded reinforcing bar 3.

This embedded reinforcing bar 3 is exposed only in the - straight upward direction.

For example, in the case of the cross-shaped anchor plate 1 shown in FIG. .

A predetermined number of through holes 14 of the reinforcing bars 4 are passed through the other two joint surfaces 13 in the horizontal direction (FIG. 1 shows a case where two are penetrated).

The through-hole 14 is opened in a straight line, vertically shifted from the buried position of the embedded reinforcing bar 3, and is configured such that a part of the reinforcing bar 4 is exposed from the through-hole 14.

Note that the bottom surface of the anchor plate 1 is formed into a raised bottom shape,
It is also conceivable that it is composed of a raised bottom surface 15 and a grounding portion 16.

<Opening> Installation of the anchor plate (Fig. 1.2) A hole for installing the anchor body 2 is excavated on the slope, the anchor body 2 is inserted, and the tip is fixed in the ground.

Next, the above-ground part of the anchor body 2 that has been fixed is passed through the anchor hole 11 of the anchor plate 1, and the anchor plate 1 is installed on the slope.

At this time, as shown in FIG. 2, if the bottom surface of the anchor plate 1 is formed into a raised bottom shape, the anchor plate 1 is installed on the ground in line contact with the grounding part 16, so the unevenness of the slope will affect the anchor plate 1. I don't have to receive much.

Next, the free end portion of the installed anchor body 2 is fixed to the upper surface of the anchor plate 1 by a fixing device 21, as shown in FIG.

Then, reinforcing bars 4 are inserted into each through hole 14 of the anchor plate l.
After arranging and exposing both ends, the through hole 14 is filled with mortar 5.

In addition, if necessary for construction reasons, do not penetrate the reinforcing bars 4,
In some cases, reinforcement is placed with only one end exposed.

Thereby, the reinforcing bar 4 can be embedded in the anchor plate 1 with a part thereof exposed.

In addition, in the case of the anchor body 2 that requires tension, it can be tightened and fixed using a jack or the like using the anchor plate 1 as a support.

<C> Construction of support beams (Fig. 3.4) As shown in Fig. 3, a plurality of anchor plates 1 are placed on the slope at predetermined intervals and facing the same direction in the same manner as above. and attach the reinforcing bars 4 to each.

Then, as shown in FIG. 4, a solidifying material is cast along the periphery of the embedded reinforcing bars 3 and 4 between each anchor plate 1, and the supporting beam 6 is constructed.

FIG. 4 shows the case where the support beams 6 are constructed in a lattice shape.
In addition, various shapes such as a rhombus, a circle, an ellipse, and a polygon are possible.

Note that the embedded reinforcing bars 3 and 4 of adjacent anchor plates 1 may be overlapped and connected by being wrapped with wire or the like, or may be left separated.

Furthermore, the solidifying material can be placed by a spraying method or a normal pouring method.

<Effects of the Present Invention> Since the present invention has been described above, the following effects can be expected.

<B> Since the conventional anchor plate has a structure in which the embedded reinforcing bars are exposed from all joint surfaces of the support beam, the embedded reinforcing bars are exposed in multiple directions.

Therefore, when transporting the anchor plate, the embedded reinforcing bars get in the way, making transport work extremely difficult, and when construction is carried out on steep slopes, it is difficult for workers to hold the anchor plate, which may lead to a decrease in construction efficiency. .

In contrast, in the case of the present invention, the reinforcing bars embedded in the anchor plate in advance are exposed only in the -linear upward direction, and the other reinforcing bars can be attached after the anchor plate is installed on the slope.

Therefore, unlike in the past, reinforcing bars do not get in the way and hinder transportation work, and even when working on steep slopes, workers can easily carry the work, which improves work efficiency.

〈口〉Furthermore, when conventional anchor plates are loaded onto the platform of a truck or the like, the embedded reinforcing bars get in the way, creating a lot of wasted space and making it impossible to load efficiently.

However, the anchor plate of the present invention has a small number of pre-embedded reinforcing bars and can be attached only in a straight upward direction, so it can be loaded in an orderly and efficient manner.

<C> When the bottom surface of the anchor plate is formed into a raised bottom shape, the anchor plate is installed on the ground in line contact with the grounding part, so it is less affected by unevenness of the slope.

Therefore, an accurate installation position can be ensured.

Figure 1: Perspective view of the anchor plate of the present invention. Figure 2. Cross-sectional view of the anchor plate of the present invention. Figure 3.4: Explanatory diagram of the construction method. Figure 5: Explanatory diagram of the prior art.

[Brief explanation of the drawing]

Procedural amendment dated December 2, 1990, Toshi Uematsu, Commissioner of the Patent Office1, Indication of the case, Patent Application No. 2-107355, Title of the invention: Structure of anchor plate and construction method of anchor support beam, 3, amended. Relationship with the patent case Patent applicant address 1-6-12 Motoasakusa, Taito-ku, Tokyo Name
Free Kogyo Co., Ltd. Representative: Nobume Nagaoka 4, Agent: 105 Address: 9F7 Marufuji Building, 3-1-10 Shinbashi, Minato-ku, Tokyo Contents (A) The scope of the claims is amended as follows. (1) An anchor plate structure made of concrete in the form of a block, characterized by having reinforcing bars exposed from one side and through-holes for inserting reinforcing bars extending through the other side.Structure. 6. Target of correction The statement on page 4, line 7 of the description of the connection between the exposed reinforcing bars of each adjacent anchor plate will be corrected as follows. d) The text from page 5, line 11 to page 6, line 9 of the specification will be corrected as follows. ``In other words, the present invention is a block-shaped anchor plate made of concrete, characterized in that the reinforcing bars are exposed from one side, and the through holes for installing the reinforcing bars are made to penetrate through the other side. The above-mentioned anchor plate may have reinforcing bars exposed in multiple directions from the sides of the anchor plate.Also, the bottom surface may be formed into a raised bottom shape.Furthermore, the present invention provides an anchor support beam using the above-mentioned anchor plate. In the construction method, multiple anchor plates are fixed at predetermined positions on the slope, reinforcing bars are installed in the through holes of these anchor plates with some parts exposed, and then each adjacent anchor An anchor characterized in that the exposed reinforcing bars of the plate are connected by connecting reinforcing bars, and a solidifying material is supplied to surround the exposed reinforcing bars and the connecting reinforcing bars to construct a reinforced concrete structure and serve as a support beam for the anchor body. This is a construction method for support beams.'' Page 7, lines 6 and 7 of the specification are amended as follows. This embedded reinforcing bar 3 is exposed only in the - straight upward direction. In addition, when the anchor plate 1 is in the shape of a polygonal column, etc., the number of sides of the anchor plate 1 is large, so it is difficult to install the reinforcing bar 4 on a slope. Therefore, in such a case, the embedded reinforcing bars 3 may be exposed in advance in multiple directions to the extent that they do not interfere with the transportation work.However, unlike the conventional method, all of the embedded reinforcing bars 3 It is clear that the transportation work will be easier than before because the reinforcing bars 4 are not exposed in advance and are inserted later." (E) Lines 17 and 18 of page 8 of the specification. Insert the following statement between the eyes. "The number of reinforcing bars 4 to be installed is determined by taking into consideration whether the embedded reinforcing bars 3 will only serve as an auxiliary role, or if they will provide more strength to the frame than the window."<To> Page 9 of the specification. 14th
The description in line 1 should be corrected as follows. "Supply the solidifying material and construct the support beam 6."<G> The 19th and 20th lines of page 9 of the specification are amended as follows. "Between reinforcing bars 3 and 4 are connected by overlapping connecting reinforcing bars (not shown) and wrapping them with wire, etc."<H> Part 1 of the specification.
Correct the first and second lines of page 0 as follows. ``In addition, the solidifying material can be supplied using a spraying method or a normal pouring method.In the case of the pouring method, formwork is installed around the embedded reinforcing bars 3 and 4, and the solidifying material is The statement on page 10, line 8 of the specification is amended as follows. ``It is a structure in which all of the embedded reinforcing bars are exposed from the joint surface of the joint surface.'' The statement on page 10, lines 17 to 20 of the <N> specification is amended as follows. ``It is better to use a combination of reinforcing bars embedded in the plate and reinforcing bars installed after the anchor plate is installed on the slope.

Claims (3)

[Claims] (1) In a block-shaped concrete anchor plate, the reinforcing bars are buried with them exposed from one side, and the through holes for embedding the reinforcing bars are passed through the other side, and the insertion holes for the anchor body are penetrated through the top and bottom faces. The structure of the anchor plate is characterized by: (2) The structure of the anchor plate according to claim 1, wherein the bottom surface is formed into a raised bottom shape. (3) In the method for constructing an anchor support beam using anchor plates according to claims 1 and 2, the anchor bodies are passed through the anchor body insertion holes of the anchor plates, and the plurality of anchor plates are placed at predetermined positions on the slope. After burying the reinforcing bars with some parts exposed in the through-holes of these anchor plates, solidifying material is cast along the periphery of the exposed reinforcing bars between the anchor plates to form reinforced concrete. An anchor support beam construction method characterized by constructing a structure and using it as a support beam for the anchor body.