JP2020159034A - Foundation pile support layer depth estimation device and method therefor - Google Patents

Abstract

To provide a foundation pile support layer depth estimation device capable of improving the reliability of estimated depth of a support layer.SOLUTION: A foundation pile support layer depth estimation device 1 comprises: pile core position acquisition means 11 for estimating depth of a foundation pile support layer, which is the depth of a support layer of a foundation pile, from the depth of the support layer at a reference position of measured ground data and acquiring pile core position information indicating the position of the pile core of the foundation pile; selection means 14 for selecting a plurality of reference positions based on the pile core position information; ground data acquisition means 12 for acquiring reference position support layer depth information indicating reference position support layer depth, which is the depth of the support layer at the selected reference position, for each of a plurality of reference positions; and estimation means 15 for estimating the foundation pile support layer depth based on the plurality of reference positions and the reference position support layer depth information thereof.SELECTED DRAWING: Figure 1

Description

The present invention relates to a foundation pile support layer depth estimation device and a method thereof. Specifically, the foundation pile support layer depth, which is the depth of the foundation pile support layer, is estimated from the depth of the support layer at the reference position of the measured ground data. The foundation pile support layer depth estimation device and the method thereof.

Conventionally, when calculating the construction cost of a foundation pile, the construction cost is calculated based on the ground data of the construction site.

For example, in Patent Document 1, ground information such as the result of a ground survey at a construction site is input to a computer, and based on the ground information input to the computer, pile specifications and the like are selected and an estimate is made. It is proposed to calculate.

JP-A-2002-97632

By the way, at the stage of calculating the estimate of the foundation pile at a certain construction site, the ground survey of the construction site has not been conducted, and the ground data of the construction site generally does not exist. In such a case, the depth of the support layer at the construction site is estimated and the pile length is set with reference to the ground data around the construction site.

However, the support layer existing in the ground cannot be visually recognized, and even if the ground surface is relatively flat, it may be inclined. In such a case, the estimated depth of the support layer and the actual depth of the support layer will be significantly different.

An object of the present invention is to provide a foundation pile support layer depth estimation device and a method thereof, which can improve the reliability of the estimated depth of the support layer.

(1) A foundation pile support layer depth estimation device that estimates the foundation pile support layer depth, which is the depth of the foundation pile support layer, from the depth of the support layer at the reference position of the measured ground data.
A pile core position acquisition means for acquiring pile core position information indicating the position of the pile core of the foundation pile, and
Selection means for selecting a plurality of the reference positions based on the pile core position information, and
A ground data acquisition means for acquiring reference position support layer depth information indicating the reference position support layer depth, which is the depth of the support layer at the selected reference position, for each of the plurality of reference positions.
A foundation pile support layer depth estimation device comprising a plurality of the reference positions and an estimation means for estimating the foundation pile support layer depth based on the reference position support layer depth information.

According to the invention of (1), the foundation pile support layer depth estimation device estimates the foundation pile support layer depth, which is the depth of the support layer of the foundation pile, from the depth of the support layer at the reference position of the measured ground data. , A pile core position acquisition means, a selection means, a ground data acquisition means, and an estimation means.
The pile core position acquisition means acquires pile core position information indicating the position of the pile core of the foundation pile.
As the selection means, a plurality of reference positions are selected based on the pile core position information.
The ground data acquisition means acquires reference position support layer depth information indicating the reference position support layer depth, which is the depth of the support layer at the selected reference position, for each of a plurality of reference positions.
The estimation means estimates the foundation pile support layer depth based on a plurality of reference positions and information on these reference position support layer depths.

As a result, the reference positions of multiple measured ground data are selected, and the foundation pile support, which is the depth of the support layer of the foundation pile, is based on the reference position support layer depth, which is the depth of the support layer of these selected reference positions. Since the layer depth can be estimated, it is possible to improve the reliability of the estimated depth of the support layer. Further, although the present invention is an invention of a foundation pile support layer depth estimation device, the same action and effect can be obtained even with a foundation pile support layer depth estimation method.

(2) Further provided with a distance calculation means for calculating the reference position distance, which is the distance from the position of the pile core to the reference position.
The foundation pile support layer depth estimation device according to (1), wherein the selection means selects the reference position within which the reference position distance is within a predetermined distance.

As a result, reference positions whose reference position distance, which is the distance from the pile core position to the reference position, is within a predetermined distance are selected, and based on the reference position support layer depth, which is the depth of the support layer of these selected reference positions. Since the depth of the foundation pile support layer, which is the depth of the support layer of the foundation pile, can be estimated, the reliability of the estimated depth of the support layer can be further improved.

(3) The selection means selects three reference positions surrounding the position of the pile core.
The estimation means
With respect to the three reference positions selected by the selection means, the reference point, which is the position where the reference plane at the reference position reaches the depth of the reference position support layer, is the X coordinate and the Y coordinate included in the reference position. The depth of the reference position support layer of the reference position is specified as the Z coordinate, and each is specified.
A virtual plane of a triangle formed by these three reference points is calculated.
Described in (1) or (2), wherein the Z coordinate of the position specified by the X coordinate and the Y coordinate included in the pile core position information in the virtual plane is estimated as the foundation pile support layer depth. Foundation pile support layer depth estimation device.

According to the invention of (3), with respect to the three reference positions surrounding the position of the pile core, the reference position includes the reference point which is the position where the reference position support layer depth is reached from the reference plane at these reference positions. The X coordinate and the Y coordinate, and the reference position support layer depth of the reference position are specified as the Z coordinate. Then, the Z coordinate at the position of the pile core of the foundation pile in the virtual plane of the triangle formed by these three reference points is estimated as the depth of the foundation pile support layer.

As a result, the virtual plane of the support layer including the position of the pile core is assumed from the measured ground data, and the foundation pile support layer depth can be estimated based on this assumed virtual plane. Therefore, the estimated depth of the support layer can be estimated. It is possible to further improve the reliability.

(4) The estimation means estimates the foundation pile support layer depth based on a correction value obtained by multiplying the reference position support layer depth by a coefficient corresponding to the reference position distance of the reference position. The foundation pile support layer depth estimation device according to (2).

As a result, the foundation pile support layer depth is estimated based on the correction value obtained by multiplying the reference position support layer depth of the reference position by the coefficient corresponding to the reference position distance of the reference position, so that the foundation pile support layer depth is relatively far from the pile core position. It is also possible to properly use the reference position support layer depth of the reference position, and even if there is no data on the reference position relatively close to the position of the pile core, the reliability of the estimated support layer depth can be improved. Is possible.

(5) The estimation means is characterized in that the depth of the foundation pile support layer is estimated based on the correction value in which the reciprocal of the reference position distance of the reference position is used as the coefficient of the reference position (4). ). The foundation pile support layer depth estimation device.

As a result, the depth of the foundation pile support layer is estimated based on the correction value using the reciprocal of the reference position distance of the reference position as the coefficient of the reference position. Therefore, the reference position support of the reference position relatively far from the position of the pile core The layer depth can also be used more appropriately, and even if there is no data on the reference position relatively close to the position of the pile core, the reliability of the estimated depth of the support layer can be further improved.

According to the present invention, it is possible to provide a foundation pile support layer depth estimation device and a method thereof, which can improve the reliability of the estimated depth of the support layer.

It is a block diagram which shows the functional structure of the foundation pile support layer depth estimation apparatus which concerns on embodiment of this invention. It is a figure which shows typically the ground data of a reference position. It is a figure explaining the 1st method of estimating the foundation pile support layer depth executed by the foundation pile support layer depth estimation apparatus. It is a figure explaining the estimation example of the estimation means in the 1st method. It is a figure explaining the estimation example of the estimation means in the 2nd method. It is a figure which shows the foundation pile support layer depth estimation processing flow executed by the foundation pile support layer depth estimation apparatus which concerns on embodiment of this invention.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following description, the same components will be designated by the same reference numerals, and the description thereof will be omitted or simplified.

FIG. 1 is a block diagram showing a functional configuration of a foundation pile support layer depth estimation device according to an embodiment of the present invention. The foundation pile support layer depth estimation device 1 estimates the foundation pile support layer depth, which is the depth of the support layer of the foundation pile, from the depth of the support layer at the reference position of the measured ground data. The foundation pile support layer depth estimation device 1 includes a control means 10 and a storage means 100.

The control means 10 includes a pile core position acquisition means 11, a ground data acquisition means 12, a distance calculation means 13, a selection means 14, and an estimation means 15.

The pile core position acquisition means 11 acquires pile core position information indicating the position of the pile core of the foundation pile. Specifically, for example, the pile core position acquisition means 11 acquires the pile core position information input from the input / output device based on the user's operation and stores it in the storage means 100. The pile core position information is, for example, information indicating latitude / longitude and information indicating a location.

The ground data acquisition means 12 acquires the measured ground data 110 around the position indicated by the pile core position information acquired by the pile core position acquisition means 11, and stores it in the storage means 100. The measured ground data includes information indicating the measured position indicating the position where the depth of the support layer was measured (for example, information indicating latitude / longitude and information indicating the location) and the support layer at the measured position. Contains information indicating the depth of (reference position support layer depth). The ground data acquisition means 12 may acquire the measured ground data 110 from an external device (for example, a server of a site that publishes the ground data on the Internet), or the user inputs by the input means. May be obtained by. The information indicating the depth of the support layer at the measured position (reference position support layer depth) is, for example, the depth of the stratum having an N value of a predetermined value (for example, 50) or more.

Further, the ground data acquisition means 12 acquires the reference position support layer depths of the plurality of reference positions selected by the selection means 14 described later from the measured ground data 110 for each of the plurality of reference positions, and the ground at the reference position. It is stored in the storage means 100 as the data 120.

FIG. 2 is a diagram schematically showing the ground data at the reference position.
In the ground data 120 of the reference position, the latitude / longitude of each reference position (in the example shown in FIG. 2, the latitude / longitude is shown in decimal notation) in the reference position No. as the identification information for identifying the reference position. ) And the depth of the supporting ground at each reference position (depth (m) from the reference plane (ground plane, so-called above sea level, etc.)) are stored in the storage means 100 in association with each other.

The distance calculating means 13 calculates the reference position distance, which is the distance from the position of the pile core to the reference position. Specifically, the distance calculating means 13 indicates the measured position of the measured ground data 110 stored in the storage means 100 from the position of the pile core indicated by the pile core position information acquired by the pile core position acquiring means 11. Calculate the distance to the position indicated by the information. The reference position is selected from the measured positions of the ground data 110 by the selection means 14 described later. That is, the measured position of the ground data 110 includes the reference position. Therefore, the distance calculating means 13 is an example of the distance calculating means for calculating the reference position distance, which is the distance from the position of the pile core to the reference position.

The selection means 14 selects a plurality of reference positions from the measured ground data 110 acquired by the ground data acquisition means 12 based on the pile core position information acquired by the pile core position acquisition means 11. Specifically, the selection means 14 selects a reference position within which the reference position distance is within a predetermined distance (for example, 1500 m). The selection means 14 may set the range for selecting the reference position within a predetermined distance set in advance, or set the number of measured positions to be selected as the reference position (for example, 3 points, 20 points, etc.) in advance. A preset number of measured positions may be selected as reference positions in order of increasing distance from the position of the pile core.

The estimation means 15 estimates the foundation pile support layer depth based on the plurality of reference positions and the reference position support layer depth information. Specifically, the estimation means 15 reads the reference position support layer depth information of the plurality of reference positions selected by the selection means 14 from the ground data 120 of the reference position of the storage means 100, and uses a predetermined method (for example, a method described later). The depth of the foundation pile support layer at the position of the pile core of the foundation pile acquired by the pile core position acquisition means 11 is estimated by the method 1 or the second method).

A first method for estimating the depth of the foundation pile support layer executed by the foundation pile support layer depth estimation device 1 will be described.
FIG. 3 is a diagram illustrating a first method of estimating the foundation pile support layer depth executed by the foundation pile support layer depth estimation device.
In the first method, the selection means 14 selects three reference positions (No. 8, No. 13, and No. 16 in the example shown in FIG. 3) surrounding the position P of the pile core. For example, the selection means 14 has a reference position No. closest to the position P of the pile core. 13 was selected, and then the position P of the pile core and the reference position No. closest to the position P of the selected pile core. Whether the position P of the pile core exists in the triangle formed by the one point with the higher latitude and the one with the lower latitude than 13 and the one point selected and the two points temporarily selected. Judge whether or not. Then, when the position P of the pile core does not exist, the selection means 14 sets the reference position No. closest to the position P of the pile core. The selection of 13 is fixed, and the reference position No. closest to the position P of the pile core and the position P of the selected pile core. From 13, the two points tentatively selected for those with a higher latitude and those with a lower latitude are changed, for example, in the order closer to the position P of the pile core, and the reference position No. closest to the position P of the pile core where the selection is fixed. When it is determined that the position P of the pile core exists in the triangle formed by 13 and the two provisionally selected points, the two provisionally selected points (No. 8 and No. 8 in the example shown in FIG. 3). By selecting 16), a total of three reference positions are selected.

The estimation means 15 sets the reference point, which is the position where the reference position support layer depth is reached from the reference plane at the reference position, to the three reference positions selected by the selection means 14, and the X coordinate (longitude) included in the reference position. The Y coordinate (latitude) and the reference position support layer depth of the reference position are specified as the Z coordinate. The estimation means 15 calculates a virtual plane of a triangle formed by these three reference points. Then, the estimation means 15 estimates the Z coordinate of the position specified by the X coordinate and the Y coordinate included in the pile core position information of the pile core position P in the virtual plane as the foundation pile support layer depth.

FIG. 4 is a diagram illustrating an estimation example of the estimation means in the first method.
In the first method, the estimation means 15 obtains, for example, the value of Z in the equation of the plane of the triangle formed by the three reference positions selected by the selection means 14 by using the outer product of the vectors and the normal vector.
The estimation means 15 uses the Z of the equation shown in FIG. 4 as the depth of the foundation pile support layer at the position P of the pile core to be estimated, and this Z is stored in the ground data 120 (see FIG. 2) at the reference position. The X coordinate (longitude) and Y coordinate (latitude) of the position P and the reference position No. selected by the selection means 14. Obtained using the X coordinate (longitude), Y coordinate (latitude), and supporting ground depth of 8, 13 and 16.

Next, a second method for estimating the depth of the foundation pile support layer executed by the foundation pile support layer depth estimation device 1 will be described.
In the second method, the selection means 14 selects a reference position within which the reference position distance is within a predetermined distance (for example, 1500 m) (Nos. 1 to 20 in the example shown in FIG. 5).

The estimation means 15 estimates the foundation pile support layer depth based on a correction value obtained by multiplying the reference position support layer depth of the reference position by a coefficient corresponding to the reference position distance of the reference position calculated by the distance calculation means 13.
FIG. 5 is a diagram illustrating an estimation example of the estimation means in the second method.
Specifically, the estimation means 15 sets the reciprocal of the reference position distance of the reference position as the coefficient B of the reference position, and multiplies this coefficient (B) by the reference position support layer depth (A) to obtain a correction value (A ×). The depth of the foundation pile support layer is estimated based on B). Specifically, the estimation means 15 calculates the reciprocal of the reference position distance with respect to the reference position (Nos. 1 to 20 in the example shown in FIG. 5) selected by the selection means 14 (for example, the reference position). If it is No. 1, 1/1, 204 = 0.0008308), the reciprocal of this is used as the coefficient (B), and the correction value (A × B) obtained by multiplying this coefficient (B) by the reference position support layer depth (A). ) Is calculated. Then, the estimation means 15 adds up the coefficients (B) calculated for each of the reference positions selected by the selection means 14 to calculate the total coefficient (Σ (B)) (0.0456810 in the example shown in FIG. 5). Further, the estimation means 15 adds up the correction values (A × B) calculated for each reference position selected by the selection means 14 to calculate the total correction value (Σ (A × B)) (example shown in FIG. 5). Then 0.5604268).
Then, the estimation means 15 sets the total correction value (Σ (A × B)) (0.5604268 in the example shown in FIG. 5) and the total coefficient (Σ (B)) (0.0456810 in the example shown in FIG. 5). The value calculated by dividing by (12.3 in the example shown in FIG. 5) is estimated as the depth of the foundation pile support layer.

The functional configuration of the foundation pile support layer depth estimation device 1 described above is merely an example, and one functional block (database and functional processing unit) may be divided, or a plurality of functional blocks may be collectively configured as one functional block. You may do it. Each function processing means is a computer program in which a CPU (Central Processing Unit) built in the device is stored in a storage means 100 such as a ROM (Read Only Memory), a flash memory, an SSD (Solid State Drive), and a hard disk (a computer program). For example, it is realized by a computer program that reads out the core software) and executes it by the CPU. That is, each function processing unit reads and writes necessary data such as a table from a database (DB; Data Base) or a storage area on the memory stored in the storage means 100 by this computer program, and in some cases, it is related. It is realized by controlling the hardware (for example, an input / output device such as a keyboard and a mouse, a display device such as a display, and a communication interface device).

Next, the foundation pile support layer depth estimation process executed by the foundation pile support layer depth estimation device 1 will be described.
FIG. 6 is a diagram showing a foundation pile support layer depth estimation processing flow executed by the foundation pile support layer depth estimation device according to the embodiment of the present invention.

In step S1, the pile core position acquisition means 11 acquires the pile core position information input from the input / output device based on the user's operation, and stores it in the storage means 100.

In step S2, the ground data acquisition means 12 acquires the measured ground data 110 around the position indicated by the pile core position information acquired by the pile core position acquisition means 11 in step S1 and stores it in the storage means 100.

In step S3, the distance calculation means 13 is stored in the storage means 100 by the ground data acquisition means 12 in step S2 from the position of the pile core indicated by the pile core position information acquired by the pile core position acquisition means 11 in step S1. The distance to the position indicated by the information indicating the measured position of the measured ground data 110 is calculated.

In step S4, the selection means 14 refers to the reference position distance from the measured ground data 110 acquired by the ground data acquisition means 12 in step S2 based on the pile core position information acquired by the pile core position acquisition means 11 in step S1. Selects a plurality of reference positions within a predetermined distance (for example, 150 m in the case of the above-mentioned first method and 1500 m in the case of the second method).

In step S5, the estimation means 15 reads the reference position support layer depth information of the plurality of reference positions selected by the selection means 14 in step S4 from the ground data 120 of the reference position of the storage means 100, and determines a predetermined method (for example, Estimate the depth of the foundation pile support layer at the position of the pile core of the foundation pile acquired by the pile core position acquisition means 11 in step S1 by the first method (see FIGS. 3 and 4) and the second method (see FIG. 5). To do.

As described above, according to the foundation pile support layer depth estimation device 1 of the present embodiment, the following actions and effects are obtained.
According to the foundation pile support layer depth estimation device 1, reference positions of a plurality of measured ground data are selected, and the foundation pile is based on the reference position support layer depth which is the depth of the support layer of these selected reference positions. Since the depth of the foundation pile support layer, which is the depth of the support layer, can be estimated, it is possible to improve the reliability of the estimated depth of the support layer.

Further, according to the foundation pile support layer depth estimation device 1, reference positions within which the reference position distance, which is the distance from the pile core position to the reference position, is within a predetermined distance are selected, and the support layers at these reference positions are selected. Since the foundation pile support layer depth, which is the depth of the foundation pile support layer, can be estimated based on the reference position support layer depth, which is the depth of, the reliability of the estimated support layer depth can be further improved.

Further, according to the foundation pile support layer depth estimation device 1, these are the three reference positions (No. 8, No. 13, and No. 16 in the example shown in FIG. 3) surrounding the position of the pile core. The reference point, which is the position where the reference position support layer depth is reached from the reference plane at the reference position, is specified as the X coordinate and the Y coordinate included in the reference position, and the reference position support layer depth of the reference position is specified as the Z coordinate. Then, the Z coordinate at the position of the pile core of the foundation pile in the virtual plane of the triangle formed by these three reference points is estimated as the depth of the foundation pile support layer.

As a result, the virtual plane of the support layer including the position of the pile core is assumed from the measured ground data, and the foundation pile support layer depth can be estimated based on this assumed virtual plane. Therefore, the estimated depth of the support layer can be estimated. It is possible to further improve the reliability.

Further, according to the foundation pile support layer depth estimation device 1, a correction value (A × B) obtained by multiplying the reference position support layer depth of the reference position by a coefficient (B) corresponding to the reference position distance of the reference position is used. Since the depth of the foundation pile support layer is estimated, it is possible to properly use the reference position support layer depth at the reference position relatively far from the position of the pile core, and it is assumed that the reference position is relatively close to the position of the pile core. Even in the absence of data, it is possible to improve the reliability of the estimated depth of the support layer.

Further, according to the foundation pile support layer depth estimation device 1, the foundation pile support layer depth is determined based on the correction value (A × B) in which the inverse of the reference position distance of the reference position is the coefficient (B) of the reference position. Since it is estimated, it is possible to use the reference position support layer depth of the reference position relatively far from the position of the pile core more appropriately, and even if there is no data on the reference position relatively close to the position of the pile core. It is possible to further improve the reliability of the estimated depth of the support layer.

The present invention is not limited to the above-described embodiment, and modifications, improvements, and the like within the range in which the object of the present invention can be achieved are included in the present invention.

1 Foundation pile support layer depth estimation device 10 Control means 11 Pile core position acquisition means 12 Ground data acquisition means 13 Distance calculation means 14 Selection means 15 Estimating means 100 Storage means 110 Measured ground data 120 Ground data at reference position

Claims (6)

A foundation pile support layer depth estimation device that estimates the foundation pile support layer depth, which is the depth of the foundation pile support layer, from the depth of the support layer at the reference position of the measured ground data.
A pile core position acquisition means for acquiring pile core position information indicating the position of the pile core of the foundation pile, and
Selection means for selecting a plurality of the reference positions based on the pile core position information, and
A ground data acquisition means for acquiring reference position support layer depth information indicating the reference position support layer depth, which is the depth of the support layer at the selected reference position, for each of the plurality of reference positions.
A foundation pile support layer depth estimation device comprising a plurality of the reference positions and an estimation means for estimating the foundation pile support layer depth based on the reference position support layer depth information. A distance calculation means for calculating a reference position distance, which is a distance from the position of the pile core to the reference position, is further provided.
The foundation pile support layer depth estimation device according to claim 1, wherein the selection means selects the reference position within which the reference position distance is within a predetermined distance. The selection means selects the three reference positions surrounding the position of the pile core, and selects the three reference positions.
The estimation means
With respect to the three reference positions selected by the selection means, the reference point, which is the position where the reference plane at the reference position reaches the depth of the reference position support layer, is the X coordinate and the Y coordinate included in the reference position. The depth of the reference position support layer of the reference position is specified as the Z coordinate, and each is specified.
A virtual plane of a triangle formed by these three reference points is calculated.
The foundation according to claim 1 or 2, wherein the Z coordinate of the position specified by the X coordinate and the Y coordinate included in the pile core position information in the virtual plane is estimated as the foundation pile support layer depth. Pile support layer depth estimation device. The estimation means is characterized in that the foundation pile support layer depth is estimated based on a correction value obtained by multiplying the reference position support layer depth of the reference position by a coefficient corresponding to the reference position distance of the reference position. The foundation pile support layer depth estimation device according to claim 2. The fourth aspect of the present invention is characterized in that the estimation means estimates the depth of the foundation pile support layer based on the correction value in which the reciprocal of the reference position distance of the reference position is used as the coefficient of the reference position. Foundation pile support layer depth estimation device. This is a method executed by a foundation pile support layer depth estimation device that estimates the foundation pile support layer depth, which is the depth of the foundation pile support layer, from the depth of the support layer at the reference position of the measured ground data.
A step of acquiring pile core position information indicating the position of the pile core of the foundation pile, and
A step of selecting a plurality of the reference positions based on the pile core position information, and
A step of acquiring reference position support layer depth information indicating the reference position support layer depth, which is the depth of the support layer of the selected reference position, for each of the plurality of reference positions.
A method for estimating the depth of a foundation pile support layer, which comprises a step of estimating the depth of the foundation pile support layer based on a plurality of the reference positions and the depth information of the reference position support layer.