KR20060037224A - The cost of construction cut down expenses process - Google Patents

Abstract

The present invention relates to a method of designing building foundation foundation piles for reducing the construction cost of building foundation piles. More specifically, the ground investigation (A) step to find out the properties of the foundation ground, the ground survey prior to the actual foundation pile construction Based on the data designed in the preliminary design (B) stage and the preliminary design (B) stage, which are designed to partially install the test pile on the ground to be constructed based on the data, In the test pile construction (C) step, the test pile construction (C) step, the verification test (D) step to prove the actual load carrying capacity of the test pile constructed in the step, the preliminary design (B) step, the test pile construction (C Based on the data collected in step (d) and verification test (D), based on the redesigned (E) and redesigned data to efficiently adjust the number of piles to be finally constructed. It is characterized by including the pile foundation construction (F) step to the pile foundation construction, can grasp construction problems in advance to secure construction stability, can reduce the construction cost through the economic design of the pile foundation, The present invention relates to a method for designing foundation piles for building structures to reduce the construction cost of foundation piles that can secure the stability of the supporting capacity by grasping the accurate support capacity of piles.

 Construction, foundation pile, construction cost, support capacity

Description

   Design method of foundation pile for reducing construction cost of foundation pile

      1 is a basic pile construction method flow chart for reducing the construction cost of the foundation pile of the present invention

     The present invention relates to a method of designing building foundation foundation piles for reducing the construction cost of building foundation piles. More specifically, the ground investigation (A) step to find out the properties of the foundation ground, the ground survey prior to the actual foundation pile construction Based on the data designed in the preliminary design (B) stage and the preliminary design (B) stage, which are designed to partially install the test pile on the ground to be constructed based on the data, In the test pile construction (C) step, the test pile construction (C) step, the verification test (D) step to prove the actual load carrying capacity of the test pile constructed in the step, the preliminary design (B) step, the test pile construction (C Based on the data collected in step (d) and verification test (D), based on the redesigned (E) and redesigned data to efficiently adjust the number of piles to be finally constructed. It is characterized in that it includes a pile foundation construction (F) step to the pile foundation construction, to grasp construction problems in advance to ensure construction stability, and to reduce the construction cost through the economic design of the pile foundation, The present invention relates to a method of designing foundation piles for building structures to reduce the construction cost of foundation piles, which can secure the stability of the support capacity by grasping the exact support capacity of foundation piles.

       In general, the pile foundation design method for the construction of apartments and building structures is to determine the construction site, perform ground survey and indoor and field tests on the confirmed site, determine the characteristics of the ground, and then use the support formula and empirical formula. The number of foundation piles is determined by determining the allowable bearing capacity by obtaining the principal surface friction and the tip bearing capacity of the foundation pile. This design method has the following problems.

       First, there is a limit in the ground survey. In fact, the substratum distribution in the lower ground is irregularly distributed. In other words, the geographic distribution and the thickness of each strata differ for each location. Many geologic surveys have to be carried out to understand the distribution of these geometries with irregularities. However, due to cost and time problems, it is realistic to understand the geological distribution status by performing a limited number of geotechnical surveys. It would not be accurate to determine the support capacity of the foundation piles using these limited ground survey data.

         Second, there is a problem of determining the characteristics of the ground. Ground strength characteristics derived from indoor and field tests were obtained from a limited number of locations. Based on these results, the number of foundation piles is estimated by estimating the support capacity of foundation piles. However, these strength characteristics do not include the strength characteristics of the entire site and the ground characteristics of the foundation piles to be constructed, since only the characteristics of the location where the ground survey and test were performed are known. Therefore, there is a problem in estimating the support capacity of the whole foundation piles based on these strength characteristics alone, which may lower the reliability of the foundation piles and increase the construction cost due to overdesign. In the field and field tests to obtain the strength constant, the test is carried out in the state of sampling or drilling of the ground, so the test is conducted in the same state as the actual lower ground due to the disturbance of the sample and ground. To evaluate the small will give a cause to evaluate the support capacity of the foundation piles small.

         Third, there is an overdesign problem due to conservative design support formula and empirical formula. The design support formulas and empirical formulas of the foundation piles presented in the specifications currently used in Korea are conservatively evaluating the foundation pile support capacity, which may lead to waste of construction costs due to overdesign. This has been confirmed by many field loading test results and studies. The design bearing capacity and empirical formula evaluate the supporting capacity of foundation piles based on the ground survey and the results of indoor and field tests. Soil surveys and indoor and field tests do not accurately simulate soil conditions and therefore do not adequately evaluate actual soil performance.

       Therefore, an object of the present invention is to devise to improve the various problems of the prior art as described above, prior to the general construction method and the actual foundation pile construction, based on the data to investigate the ground part of the test pile to be constructed Based on the data designed in the preliminary design (B) stage and the preliminary design (B) stage to design for the pre-construction, the test pile construction (C) stage and the test pile construction (actually) The data collected in the verification test (D) stage, the preliminary design (B) stage, the test pile construction (C) stage, and the verification test (D) stage to verify the actual load carrying capacity of the test pile constructed in the step C) It includes the redesign (E) step of efficiently adjusting the quantity of piles to be finally constructed based on the existing problems. In order to grasp the problem of determination of characteristic value, overdesign problem due to conservative design support formula and empirical formula, construct the foundation pile on the ground to be constructed and pre-install any installation with pressure corresponding to the design support formula and empirical formula. By constructing, it is possible to secure construction stability by grasping problems that may occur during actual construction in advance, and to reduce construction costs through economic design of pile foundations, and to ensure the stability of supporting ability by grasping the exact support capacity of foundation piles. The purpose is to provide a design method for building foundation foundation piles to reduce construction cost of foundation piles.

      The present invention relates to a method of designing building foundation foundation piles for reducing the construction cost of building foundation piles. More specifically, the ground investigation (A) step to find out the properties of the foundation ground, the ground survey prior to the actual foundation pile construction Based on the data designed in the preliminary design (B) stage and the preliminary design (B) stage, which are designed to partially install the test pile on the ground to be constructed based on the data, In the test pile construction (C) step, the test pile construction (C) step, the verification test (D) step to prove the actual load carrying capacity of the test pile constructed in the step, the preliminary design (B) step, the test pile construction (C Based on the data collected in step (d) and verification test (D), based on the redesigned (E) and redesigned data to efficiently adjust the number of piles to be finally constructed. It is characterized by including the pile foundation construction (F) step to the pile foundation construction, can grasp construction problems in advance to secure construction stability, can reduce the construction cost through the economic design of the pile foundation, The present invention relates to a method for designing foundation piles for building structures to reduce the construction cost of foundation piles that can secure the stability of the supporting capacity by grasping the accurate support capacity of piles.

        If more detailed description of the configuration of the present invention through the accompanying drawings as follows.

        1 is a flow chart of the foundation pile construction method for reducing the construction cost of the foundation pile of the present invention,

       The ground investigation (A) stage is to find out the properties of the foundation in advance in order to determine the most suitable foundation structure for the foundation pile structure to be constructed. There are methods such as underground exploration, boring, soil test, and bearing test. Investigations, preliminary investigations, main investigations, and further investigations are conducted in this order. In the preliminary survey, the preliminary survey of the preliminary and post-purchase literature surveys, field trips, and surveys of existing structures is used to estimate the general condition of the design building. Roughly determine the format of the study and determine the method and size of the main survey. In this survey, the necessary surveys are established in full scale, and the survey method is determined and selected. Further investigations include re-investigations and supplementary surveys, where re-investigations are conducted to reinforce the findings of the main survey and to compensate for deficiencies when they are inadequate with the estimated support structure or infrastructure.

       At this stage, the geotechnical status of the soft grounds, roads, tunnels, and other grounds is provided to provide the basic ground engineering data for various designs and constructions.

       The preliminary design (B) stage is designed to pre-install the test piles on the ground to be constructed on the basis of the surveyed ground prior to the actual foundation pile construction. More practical and accurate data can be obtained than the data that have been previously drilled on the ground arbitrarily.

       The test pile construction (C) stage is based on the data designed in the preliminary design stage (B), and is actually installed on the ground to be constructed, and any pressure having a design bearing formula and empirical formula on it. As a step of constructing the installation in advance, it is possible to grasp in advance the physical problems that may occur in actual construction, and to make up for the problems in advance so as to secure construction stability.

       The verification test (D) step is to verify the actual load bearing capacity of the test piles constructed in the test pile construction (C) step, and to determine the supporting capacity by measuring the principal surface friction and the tip bearing capacity of the foundation pile for each strata. In addition, it is possible to know the exact support capacity of foundation piles and to accurately grasp the required quantity of foundation piles, thus preventing the support capacity instability due to low design and preventing the waste of cost due to overdesign. It ensures stability.

       The redesign phase (E) is based on the data collected in the preliminary design (B), test pile construction (C) and verification test (D) step to efficiently determine the number of piles to be finally constructed. As a step to adjust to, it is possible to perform a more efficient and economical design than the pile foundation design performed in the existing construction.

       Pile foundation construction (F) stage, based on the redesigned data through the preliminary design (B) stage, test pile construction (C) stage, verification test (D) stage, redesign (E) stage as described above In the step of foundation construction, it is possible to save about 30% ~ 80% of the existing pile construction cost, the design method for the construction pile foundation pile to reduce the existing pile construction cost and construction cost of the foundation pile of the present invention Comparing the construction cost according to the following.

Existing construction method Invention  Comparison of construction costs according to construction method

division Existing construction procedure Construction procedure of the present invention cut down the money Method Pile of Water Method Pile of Water Case 1 Steel Pipe Pile (Φ609, t = 12mm, Drive) 144 No change of construction method 96 33% Case 2 Cast-In-Place Pile (Φ1500) 66 Steel Pipe Pile (Φ609, t = 12mm, Drive) 161 83% Case 3 Cast-In-Place Pile (Φ1500) 116 No change of construction method 116 none Case 4 Cast-In-Place Pile (Φ1500) 20 No change of construction method 16 73%

        As can be seen from the construction costs according to the existing construction method and the construction method of the present invention, the construction cost according to the construction method of the present invention has been shown to have a reduction effect of about 30% to 80% compared to the existing construction cost.

        As described above, although the present invention has been described with reference to the above embodiments, it is not necessarily limited thereto, and various modifications may be made without departing from the scope and spirit of the present invention.

       Referring to the effects of the above-described configuration and operation in detail as follows.

      The construction method for the construction pile foundation pile for reducing the construction cost of the foundation pile of the present invention, by pre-installing the test pile can grasp the problems in the construction in advance to secure construction stability, construction cost through economic design of pile foundation It is possible to secure the stability of the support capacity by reducing the weight loss and by measuring the principal friction and the tip bearing capacity of the foundation pile.

Claims (1)

        In the step of design method for building pile foundation pile for reducing construction cost of foundation pile,         Soil investigation (A) stage to find out the properties of foundation soil,         In the preliminary design (B) stage, which is designed to pre-install the test piles partially on the ground to be constructed, based on the surveyed data,        Based on the data designed in the preliminary design (B) stage, the test pile construction (C) stage, which is actually pre-installed on the ground to be constructed        Verification test (D) step to verify the actual pressure applied to the test pile constructed in the test pile construction (C) step,       On the basis of the data collected in the preliminary design (B) stage, test pile construction (C) stage, verification test (D) stage, redesign stage (E) to efficiently adjust the number of piles to be actually constructed,       Design method of building foundation foundation piles for reducing the construction cost of building foundation foundation piles, characterized in that it comprises a pile foundation construction (F) step of the pile foundation construction based on the redesigned data.

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