JP4378244B2 - Loading test method for piled raft foundation - Google Patents

Description

  The present invention belongs to the technical field of a piled raft foundation loading test method (hereinafter sometimes simply referred to as a loading test method) using a pile foundation (pile) and a direct foundation (raft) in combination. The present invention relates to a loading test method for piled raft foundation, which is carried out when a new building of piled raft foundation is constructed or when an existing building is rebuilt.

  Pile foundation structures with foundation slabs formed between piles are used in many buildings. However, the pile foundation is designed only with the support performance of the pile, and the support performance of the foundation slab is not considered at all. Therefore, in order to economically design the foundation structure of a building, a piled raft foundation has been developed in which not only the support performance of the pile but also the support performance of the foundation slab (direct foundation) is considered.

  This piled raft foundation can be supported only by the supporting capacity of the foundation directly, but because of its large settlement, it is reinforced by piles. This pile is designed by analyzing the support performance of the pile and the support performance of the direct foundation from experience values, etc., and determining the number of piles to be placed within the preset settlement, but the above design method is Since the performance varies depending on the original ground, the obtained experience values are the know-how of each company and are not disclosed.

  Piled raft foundations have so-called interactions, for example, when the pile sinks, the surrounding ground is dragged and the ground contact pressure with the foundation is lowered, and the support performance of the foundation is reduced. Therefore, the support performance can be evaluated higher than actual. Therefore, it is understood that the design of the above-mentioned piled raft foundation is generally designed by adopting the support performance of the low limit pile analyzed directly from the experience value etc. and the support performance of the direct foundation. If constructed, it will often be overdesigned, such as securing more piles than necessary. In other words, there is a problem that the advantages of the piled raft foundation are not fully utilized.

Such a problem is because the design of the piled raft foundation is left to the desktop calculation, and it can be solved if the support performance can be measured by performing a loading test.
However, the loading test method for piled raft foundations cannot be observed.

  Therefore, the purpose of the present invention is adopted in buildings by carrying out a loading test on a piled raft specimen that structurally integrates a test pile (or existing pile) and a direct foundation test panel that is regarded as a direct foundation. It is to provide a loading test method for a piled raft foundation that can actually measure the support performance of the piled raft foundation.

As a means for solving the problems of the prior art, a loading test method for a piled raft foundation according to the invention described in claim 1 is:
It is a loading test method that is performed when building a new piled raft foundation,
The process of building test piles on the ground,
The pile head of the test pile protruding from the ground, a direct foundation test board of a certain size in contact with the surrounding ground is structurally integrated with the test pile to form a piled raft specimen,
Measuring the support performance by applying a test load to the pile head of the piled raft specimen,
It is characterized by comprising.

A loading test method for a piled raft foundation according to the invention described in claim 2 is:
When rebuilding an existing building, using the foundation frame of the existing building, a load test of the piled raft foundation is carried out,
A process for constructing a piled raft test body using the foundation frame of an existing building;
Measuring the support performance by applying a test load to the pile head of the piled raft specimen,
It is characterized by comprising.

The invention described in claim 3 is a loading test method for piled raft foundation according to claim 2,
When the foundation frame is a piled raft foundation, the pile foundation around the pile head of the existing pile is cut into a fixed area of the pile foundation, and the pile and raft test is directly formed. It is characterized by constituting the body.

The invention according to claim 4 is the load testing method for piled raft foundation according to claim 2,
When the foundation frame is a direct foundation, the test pile is built by directly passing through the foundation, and the pile head of the test pile is structurally integrated with the direct foundation. Is cut into a flat area of a certain size to directly form a basic test board to constitute a piled raft specimen.

The invention according to claim 5 is the loading test method for piled raft foundation according to claim 2,
When the foundation frame is a pile foundation in which foundation beams are formed between the piles, the foundation head of the existing pile is cut into a fixed area by cutting the area around the pile head of the existing piles directly, It is characterized by constituting a raft specimen.

The invention described in claim 6 is the loading test method for piled raft foundation according to claim 2,
If the foundation frame is a pile foundation with a foundation slab between the piles, the foundation test panel is formed by cutting the area around the pile head of the foundation slab into a flat area with a certain size. It is characterized by constituting a raft specimen.

The invention according to claim 7 is the loading test method for piled raft foundation according to claim 2,
If the foundation frame is a pile foundation with a footing formed on the pile head, the footing is cut from the foundation slab to form a direct foundation test panel of a certain size on the pile head of the existing pile. A test body is formed.

The invention according to claim 8 is the loading test method for piled raft foundation according to any one of claims 2 to 7,
A jack is installed at the pile head of the piled raft test piece, the test reaction force is applied to the existing building frame nearby, and the support performance is measured by applying a test load to the piled raft test piece with the jack. To do.

The invention according to claim 9 is the loading test method for piled raft foundation according to claim 8,
The jack installed on the pile head of the piled raft test piece is connected to the jig that takes the test reaction force on the pillar or beam of the existing building located immediately above it, and the test load is applied to the piled raft test piece by the jack. And the support performance is measured.

The invention according to claim 10 is the loading test method of the piled raft foundation according to any one of claims 2, 3, or 5 to 7,
Cut the foundation frame and the pillar of the existing building located immediately above it, cut out a part of it, install a jack in the excised part, and use the jack that took the test reaction force on the pillar of the existing building. The support performance is measured by applying a test load to.

The invention according to claim 11 is the loading test method for piled raft foundation according to claim 7,
If the footing is formed only directly above the existing pile, a direct foundation test board of a certain size in contact with the surrounding ground is formed on the outer periphery of the footing, and the pile is structurally integrated with the footing of the existing pile. -It is characterized by constituting a raft specimen.

The invention according to claim 12 is the loading test method for piled raft foundation according to any one of claims 1 to 7 or claim 11,
The planar shape of the direct basic test panel is characterized in that one side is formed to be equal to or smaller than a rectangular region having a length that is ½ of the pile pitch of a new building.

The invention according to claim 13 is the loading test method for piled raft foundation according to any one of claims 1 to 11,
After measuring the support performance of the piled raft test piece, directly cut the foundation test panel from the test pile or the existing pile and measure the support performance only for the test pile or the existing pile, or the test pile or the existing pile and the direct It is characterized by measuring the supporting performance of the basic test panel individually.

  The loading test method for piled raft foundation according to the present invention is a loading test performed on a piled raft test body in which a test pile (or existing pile) and a direct foundation test panel regarded as a direct foundation are structurally integrated. As a result, the support performance of the piled raft foundation used in the building can be measured in situ. Therefore, it is possible to accurately grasp the so-called interaction that has been difficult in the desktop calculation, and designing a piled raft foundation based on the actual measurement data makes it possible to design economically without waste.

  Build a test pile on the ground. A pile foundation of a piled raft is formed by structurally integrating a direct foundation test board of a certain size in contact with the surrounding ground on the pile head of the test pile protruding from the ground. A test load is applied to the pile head of the piled raft specimen to measure the support performance.

  An embodiment of a piled raft foundation loading test method according to the invention described in claims 1 and 12 will be described with reference to FIGS. The loading test method of the present embodiment is carried out when building a new piled raft foundation building.

  First, the test pile 1 is constructed on the ground 2, and the length of one side of the pile pitch of the new building is ½ the length so that the pile head of the test pile 1 protruding from the ground 2 touches the surrounding ground 2 A direct foundation test panel 3 having a flat area equivalent to a rectangular region having L is formed integrally with the test pile 1 to form a piled raft specimen 4 (invention of claim 12).

  After that, applying a load to the pile head of the piled raft specimen 4 by applying a force applying means (in this embodiment, a jack method using the indentation test device 5) of the usual loading test method, Measure. Since the loading test is carried out on the piled raft test body 4 in which the test pile 1 and the direct foundation test panel 3 regarded as a direct foundation are structurally integrated, the support performance of the piled raft foundation adopted in the new building It can be measured in situ. Therefore, it is possible to accurately grasp the so-called interaction that has been difficult in the desktop calculation, and designing the piled raft foundation based on the actual measurement data enables a cost-effective and economical design.

  In the present embodiment, the planar shape of the direct basic test panel 3 is formed in the same manner as a rectangular region having a length L that is ½ of the pile pitch of a new building on one side. That is, the size is not particularly limited as long as one side is formed smaller than a rectangular region having a length L that is ½ of the pile pitch of the new building so that the support performance is not greatly evaluated.

  In the present embodiment, jack-type force applying means is employed, but it can be similarly implemented by employing force-applying means such as a reaction force inertial force method and a soft cushion weight dropping method.

  Next, an embodiment of a loading test method for piled raft foundations according to the invention described in claims 2, 3 and 10 and claim 12 will be described with reference to FIG. The loading test method of the present embodiment is carried out using the piled raft foundation 7 that forms the foundation frame 6a of the existing building 6 when the existing building 6 is rebuilt.

  Specifically, first, the area around the pile head of the existing pile 9 of the direct foundation 8 of the piled raft foundation 7 is smaller than a rectangular area having one side having a length that is ½ of the pile pitch of a new building. Disconnect. Further, the lower end portion of the existing column 10 located immediately above the existing pile 9 is cut to a predetermined height (the height at which the jack 11 can be installed later), and the foundation test board 12 is formed directly on the pile head of the existing pile 9. The piled raft specimen 13 is constructed (the invention according to claim 12).

  The jack 11 is installed in the cut portion between the pile head of the piled raft test body 13 (direct foundation 8) and the lower end of the existing column 10, and it is against the existing column 10 (that is, the existing building 6). The support performance is measured by applying a test load to the piled raft specimen 13 with the jack 11 that takes force (the inventions of claims 2, 3 and 10 above). Since the loading test is carried out with the reaction force applied to the existing building 6, for example, it is possible to omit the installation of the reaction force pile that is necessary when adopting the jack method using the indentation test device. Good sex.

  In addition, as shown in FIG. 4, even when the piled raft test body 13 has a plurality (two in FIG. 4) of existing piles 9. In this case (that is, in the case of a pile group composed of a plurality of existing piles 9), the length of the pile pitch of the new building referred to in the present invention is 1 of the distance between the centers of adjacent pile groups. A length of / 2 is referred to (claim 12).

  Although the loading test method of the said Example 2 has implemented the loading test by taking reaction force to the existing pillar 10 located just above the existing pile 9, it is not this limitation. This can be carried out by applying the loading means of the loading test method described in the specification and drawings of Japanese Patent Application No. 2003-32850, which is the applicant's patent application.

  For example, as shown in FIG. 5, a reaction force jig 15 is installed on the existing beam 14 directly above the piled raft test body 13, and the existing columns 10 and 10 on the left and right sides are connected above the existing beam 14. The reaction force girder 16 is installed via the reaction force block 17. And the jack 11 is installed in the pile head of the piled raft test body 13, the jack 11 and the reaction force jig 15 are connected, and the jack 11 that takes the reaction force on the existing beam 14 and the existing columns 10, 10. Measure the support performance by applying a test load. By installing the reaction force girder 16, a large test load can be applied to the piled raft specimen 13.

  Of course, although illustration is omitted, as shown in FIGS. 1 and 3 of Japanese Patent Application No. 2003-32850, a reaction force jig is installed on an existing beam or an existing column, and the reaction force is taken from the reaction force jig and loaded. A test may be performed (the inventions according to claims 8 and 9).

  It can also be carried out by employing the loading means of the loading test method described in the specification and drawings of Japanese Patent Application No. 2004-233771 which is a patent application of the present applicant.

  For example, as shown in FIG. 6, a reaction force wall 18 connecting between the existing columns 10 and 10 of the column / beam frame is continuously provided above the piled / raft test body 13 in a single layer or a plurality of layers in the vertical direction. By constructing, a concrete reaction force body 19 capable of taking the reaction force of the test load from the existing building 6 is formed. And the jack 11 is installed in the pile head of the piled raft test body 13, the jack 11 and the concrete reaction body 19 are connected, and the test load is applied by the jack 11 that takes the reaction force on the concrete reaction body 19. In addition, support performance is measured.

  Although the piled raft test body 13 of Examples 2-4 was configured using the piled raft foundation 7 of the existing building 6, this is not restrictive. As shown in FIG. 7, when the foundation frame 6 a of the existing building 6 is the direct foundation 20, the test pile 21 is constructed by cutting through the direct foundation 20 with a predetermined size. Is directly structurally integrated with the foundation 20. Then, the periphery of the pile head of the test pile 21 in the direct foundation 20 is cut into a flat area smaller than a rectangular area with one side having a length that is 1/2 of the pile pitch of the new building. A basic test board 22 is directly formed on the head to form a piled raft test body 23 (invention of claim 4).

  In addition, as shown in FIG. 8, when the foundation frame 6 a of the existing building 6 is a pile foundation 25 in which a foundation beam 24 is formed between the existing piles 9 and 9, The periphery of the pile head is cut into a flat area smaller than a rectangular area having a length that is ½ of the pile pitch of the new building, and the foundation test panel 26 is formed directly on the pile head of the existing pile 9. The piled raft specimen 27 is constituted (the invention according to claim 5).

  By the way, when the foundation frame 6a of the existing building 6 is a pile foundation in which a foundation slab is formed between the piles, the area around the pile head of the existing pile in the foundation slab is cut into a flat area of a certain size. A raft specimen is formed (illustration is omitted, invention of claim 6).

  Furthermore, as shown in FIG. 9, when the foundation frame 6 a of the existing building 6 is a pile foundation 29 in which the footing 28 is formed on the pile head of the existing pile 9, the footing 28 is cut from the foundation slab 30. In addition, a direct foundation test panel 31 having a flat area smaller than a rectangular region having a length of ½ of the pile pitch of the new building is formed on the pile head of the existing pile 9 to constitute a piled raft specimen 32. To do.

  By the way, when the footing 28 is formed only directly above the existing pile 9, a rectangle whose one side has a length of ½ of the pile pitch of the new building so that the outer periphery of the footing 28 is in contact with the surrounding ground. A direct foundation test board having a flat area smaller than the area is formed to constitute a piled raft test body structurally integrated with the footing 28 of the existing pile 9 (invention of claim 11).

  In the loading test methods of Examples 1 to 7, the support performance of the piled raft test body was measured, but the support performance was measured only for the test pile or the existing pile, or the test pile or the existing pile and the direct foundation test. When measuring the support performance of the body, as shown in FIG. 10, for example, the direct basic test board 3 of the piled raft test body 4 is cut along the outer peripheral edge of the test pile 1 and the edge is cut. The support performance of 1 and the support performance of the direct basic test board 3 may be measured individually (the invention according to claim 13).

  Although illustration is omitted, an axial force meter is installed at a position below the direct foundation test panel of the test pile or existing pile, and the support performance of the test pile or existing pile is measured, and the support performance of the piled raft specimen is measured. The support performance of the basic test panel may be directly measured by subtracting the support performance of the test pile or the existing pile from the above.

  In the loading test methods of Examples 2 to 8, the loading test is carried out by taking the reaction force from the existing building, but after all the piled raft foundation 7 etc. to be used are dismantled, the indentation test device is used. The loading test may be carried out by adopting usual force applying means such as a jack method or a reaction force inertial force method.

  In addition, although the Example of this invention was described above, this invention is not limited to such an Example at all, In the range which does not deviate from the summary of this invention, it can implement with a various form.

It is the elevation which showed the state just before implementing the loading test method of the piled raft foundation of Example 1. FIG. FIG. 3 is a plan view of FIG. 2. It is the elevation which showed the state just before implementing the loading test method of the piled raft foundation of Example 2. FIG. It is the elevation which showed the different form of FIG. It is the elevation which showed the state just before implementing the loading test method of the piled raft foundation of Example 3. FIG. It is the elevation which showed the state just before implementing the loading test method of the piled raft foundation of Example 4. FIG. It is the elevation which showed the state just before implementing the loading test method of the piled raft foundation of Example 5. FIG. It is the elevation which showed the state just before implementing the loading test method of the piled raft foundation of Example 6. FIG. It is the elevation which showed the state just before implementing the loading test method of the piled raft foundation of Example 7. FIG. It is the elevation which showed the upper end part of the piled raft test piece in the case of measuring individually the support performance of a test pile, and the support performance of a direct foundation test piece.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Test pile 2 Ground 3 Direct foundation test board 4 Piled raft test body 6 Existing building 6a Foundation frame 7 Piled raft foundation 8 Direct foundation 9 Existing pile 11 Jack 12 Direct foundation test board 13 Piled raft test body 20 Direct foundation 21 Test pile 22 Direct foundation test board 23 Piled raft specimen 24 Foundation beam 25 Pile foundation 26 Direct foundation test board 27 Piled raft specimen 28 Footing 29 Pile foundation 30 Foundation slab 31 Direct foundation test board 32 Piled raft specimen

Claims (13)

It is a loading test method that is performed when building a new piled raft foundation,
The process of building test piles on the ground,
The pile head of the test pile protruding from the ground, a direct foundation test board of a certain size in contact with the surrounding ground is structurally integrated with the test pile to form a piled raft specimen,
Measuring the support performance by applying a test load to the pile head of the piled raft specimen,
A loading test method for piled raft foundation characterized by comprising: When rebuilding an existing building, using the foundation frame of the existing building, a load test of the piled raft foundation is carried out,
A process for constructing a piled raft test body using the foundation frame of an existing building;
Measuring the support performance by applying a test load to the pile head of the piled raft specimen,
A loading test method for piled raft foundation characterized by comprising:   When the foundation frame is a piled raft foundation, the pile foundation around the pile head of the existing pile is cut into a fixed area of the pile foundation, and the pile and raft test is directly formed. The loading test method for piled raft foundation according to claim 2, comprising a body.   When the foundation frame is a direct foundation, the test pile is built by directly passing through the foundation, and the pile head of the test pile is structurally integrated with the direct foundation. The piled raft foundation loading test method according to claim 2, wherein a piled raft test body is formed by directly cutting a slab into a plane area of a certain size to directly form a foundation test board.   When the foundation frame is a pile foundation in which foundation beams are formed between the piles, the foundation head of the existing pile is cut into a fixed area by cutting the area around the pile head of the existing piles directly, 3. A loading test method for piled raft foundation according to claim 2, comprising a raft specimen.   If the foundation frame is a pile foundation with a foundation slab between the piles, the foundation test panel is formed by cutting the area around the pile head of the foundation slab into a flat area with a certain size. 3. A loading test method for piled raft foundation according to claim 2, comprising a raft specimen.   If the foundation frame is a pile foundation with a footing formed on the pile head, the footing is cut from the foundation slab to form a direct foundation test panel of a certain size on the pile head of the existing pile. 3. The loading test method for piled raft foundation according to claim 2, wherein the test body is constituted.   A jack is installed at the pile head of the piled raft test piece, the test reaction force is applied to the existing building frame nearby, and the support performance is measured by applying a test load to the piled raft test piece with the jack. A loading test method for piled raft foundation according to any one of claims 2 to 7.   The jack installed on the pile head of the piled raft test piece is connected to the jig that takes the test reaction force on the pillar or beam of the existing building located immediately above it, and the test load is applied to the piled raft test piece by the jack. The loading test method for piled raft foundation according to claim 8, wherein the supporting performance is measured by adding   Cut the foundation frame and the pillar of the existing building located immediately above it, cut out a part of it, install a jack in the excised part, and use the jack that took the test reaction force on the pillar of the existing building. The load test method for a piled raft foundation according to any one of claims 2 to 3, or 5 to 7, wherein a test load is applied to the support performance.   If the footing is formed only directly above the existing pile, a direct foundation test board of a certain size in contact with the surrounding ground is formed on the outer periphery of the footing, and the pile is structurally integrated with the footing of the existing pile. The load test method for piled raft foundation according to claim 7, wherein the load test method constitutes a raft specimen.   The planar shape of the direct basic test panel is formed to be equal to or smaller than a rectangular region having one side having a length that is 1/2 of a pile pitch of a new building. Loading test method for piled raft foundation described in any one of the above.   After measuring the support performance of the piled raft test piece, directly cut the foundation test panel from the test pile or the existing pile and measure the support performance only for the test pile or the existing pile, or the test pile or the existing pile and the direct The loading test method for piled raft foundation according to any one of claims 1 to 11, wherein the support performance of the foundation test panel is individually measured.

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