KR100895875B1 - Load test method in multi-layered soils and rocks - Google Patents

Abstract

The present invention relates to a multi-layer ground drawing test method capable of measuring the draw loads of various layers by inserting a predetermined test body into one drilling hole.

The present invention comprises the steps of (a) drilling a hole in the ground to penetrate the various layers; (b) A rubber packer is connected between the plurality of anchors and a tensioner is connected to each other to transfer the tensile force to each of the plurality of anchors. Inserting a test member configured to expand the rubber packer into the drilling hole so that the anchor body is positioned in each strata; (c) grouting the hole (1); (d) expanding the rubber packer (13) and curing the grout material (2); (e) pulling out the tension member 12 connected to the anchor body 11 located in each strata and testing the tensile stress for each strata; It provides a multi-layer pullout test method characterized in that it comprises a.

Ground Anchor, Pullout, Rubber Packer, Anchor Body

Description

Load test method in multi-layered soils and rocks}

The present invention relates to a multi-layered drawing test method capable of measuring the draw loads of various layers by inserting a predetermined test body into one drilling hole.

To determine the ultimate pull-off force of the ground anchor in the strata (ground), a field pull test is performed. In the conventional field drawing test, as shown in FIGS. 1A and 1B, a pull-out test was performed by drilling a hole in each layer and constructing an anchor. FIG. 1A illustrates a conventional method of performing a test by assuming a large load. Figure 1b shows a conventional method of performing a test assuming a small load.)

As described above, the conventional field drawing test required a considerable test cost since a separate boring hole was inserted into each strata requiring the drawing test, an anchor body was inserted into each boring hole, and a grouting operation was performed.

The present invention uses a rubber packer to segment one drilling hole into several layers, thereby making it possible to pull out multiple layers with only one drilling hole, thereby greatly reducing the test construction cost for measuring the ground load. The purpose.

The present invention is to measure the support force of the ground anchor by measuring the ground pull force of the ground anchor after the test construction of the ground anchor, without having to drill a hole as many as the number of layers to measure the ultimate pull force of each strata. The core technical idea of the present invention is to establish a situation in which the ultimate pullout force can be tested for each strata in the hall, and this technical concept can be realized by the method of segmenting each strata with the rubber packer provided by the present invention. have.

According to the present invention as described above, it is possible to greatly reduce the test construction cost because it is possible to test the pull-out loads of several layers even through one drilling hole.

The present invention comprises the steps of (a) drilling a hole in the ground to penetrate the various layers; (b) A rubber packer is connected between the plurality of anchors and a tensioner is connected to each other to transfer the tensile force to each of the plurality of anchors, and the injection tube is connected to the rubber packer so that gas or liquid Inserting a test member configured to expand the rubber packer into the drilling hole so that the anchor body is positioned in each strata; (c) grouting in the drill hole; (d) expanding the rubber packer and curing the grout material; (e) pulling out the tension member connected to the anchor body located in each strata and testing the tensile stress for each strata; It provides a multi-layer pullout test method characterized in that it comprises a.

Figures 2a to 2e shows step by step multi-layer pull test method according to the present invention. Hereinafter, the present invention will be described with reference to the accompanying drawings.

 1.step (a)

This step is a step of drilling a hole (1) through the various layers in the ground (see Fig. 2a). When applying the conventional drawing test method was to drill a separate hole for each layer, but the present invention is one perforated Since it is possible to check the anchor extreme pull force of the various layers through the hole, it is only necessary to form a single drilling hole penetrating the various layers.

2. (b) step

This step is a step of inserting the test body 10 into the drilling hole (1). (See FIG. 2b) Since the test object of the present invention is to be confirmed by the extreme pull force of the ground anchor, the test body 10 is immediately ground It can be called a device corresponding to an anchor.

The test body 10 should be provided with an anchor body 11 and a tension member 12 capable of pulling the anchor body (11). However, in the present invention, the anchor body 11 should be inserted into each strata, and the tension member 12 also has a separate tension member for each anchor body so as to transmit a separate tensile force to each anchor body infiltrated into each strata. It must be connected.

Therefore, in this step, a rubber packer 13 through which the tension member 12 is connected and the tension member 12 penetrates between the plurality of anchor bodies 11 so as to transmit a tensile force to each of the plurality of anchor bodies 11. Is disposed, the rubber packer 13 is connected to the injection tube 14 is a test body 10 configured to expand the rubber packer 13 by the gas or liquid is inserted into the drilling hole (1) to the anchor body (11) is installed so as to be located in each strata.

Figure 3 shows an embodiment of the test body 10, Figure 4 shows an embodiment of the anchor body 11, Figure 5 shows an embodiment of the rubber packer 13, Figure 6 Shows a cross section of the rubber pack in an expanded state.

The test body 10 may be configured in various forms in addition to the illustrated example, but must be able to transmit a separate tensile force for each anchor body 11, each rubber pack 13 is injected with gas or liquid to expand It should be configured so that it does not interfere.

3. (c) step

This step is a grouting step in the drilling hole 1 (see Fig. 2c).

4. (d) step

This step is to inflate the rubber packer 13 and to cure the grout material 2. In this step, each layer is segmented by expanding all the rubber packers 13 installed in the test specimen before the grout material 2 injected into the drilling hole in step (c) is hardened.

On the other hand, in this step, after the grout material (2) is cured, the step of removing the gas or liquid from the rubber packer 13 to form a pupil in the grout, so that the load is applied to different layers so as not to be mutually affected. can do.

5. (e) step

This step is to pull the tension member 12 connected to the anchor body 11 located in each layer to test the tensile stress for each layer. Anchors located on the first, second, and third ground layers G1, G2, and G3 are defined as first, second, and third anchor bodies, respectively, and tension members connected to the first, second, and third anchor bodies, respectively; As the first, second, and third tensile material, if the test method for drawing loads of each strata is attached, the speech is as follows.

The pull load of the first layer G1 may be measured by pulling the first tensile member connected to the first anchor body, and the pull load of the second layer G2 may be measured by pulling the second tensile member connected to the second anchor body. The pulling load of the third layer G3 may be measured by pulling the third tensile material connected to the third anchor body. Since each strata are segmented by the rubber packer 13, the influence of the other strata can be excluded in the process of measuring the draw load of one strata, and a single perforation hole is not required for each strata. Structural pull load tests are possible.

1a and 1b schematically show a conventional field drawing test method.

2a to 2e show step by step a method for measuring the ultimate pull force of the ground according to the present invention.

Figure 3 shows one embodiment of a test body.

Figure 4 shows an embodiment of an anchor body.

Figure 5 illustrates one embodiment of a rubber packer.

Figure 6 shows a cross section of the rubber packer in an expanded state.

<Explanation of symbols for the main parts of the drawings>

1: drill hole 2: grout material

10: test body 11: anchor body

12: tension member 13: rubber packer

14: injection tube

Claims (2)

In the method of measuring the ultimate pull force of several grounds in one drilling hole, (a) drilling a hole (1) through the various layers in the ground; (b) A rubber packer 13 through which the tension member 12 is connected and the tension member 12 penetrates between the plurality of anchor bodies 11 so as to transmit a tensile force to each of the plurality of anchor bodies 11. An injection tube 14 is connected to the rubber packer 13 to insert the test body 10 configured to expand the rubber packer 13 by a gas or a liquid into the drilling hole 1 so that the anchor body ( 11) installed in each strata; (c) grouting the hole (1); (d) expanding the rubber packer (13) and curing the grout material (2) by gas or liquid; (e) pulling out the tension member 12 connected to the anchor body 11 located in each strata and testing the tensile stress for each strata; Multilayer ground drawing test method characterized in that it comprises a. In claim 1, Step (e) is a multi-layer ground pull test method characterized in that it further comprises the step of removing the gas or liquid from the rubber packer 13 after the grout material (2) is cured to form a pupil in the grout.

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