JP6063765B2 - Foundation pile evaluation system - Google Patents

Description

  The present invention relates to a foundation pile evaluation system that non-destructively inspects foundation piles made of reinforced concrete piles and the like to evaluate the soundness.

  In the construction of structures mainly on soft ground, when it is difficult to support a structure with a shallow foundation, a foundation pile that supports a structure by driving a pile deeply is known. Construction methods for these foundation piles include dropping piles into the ground where the reinforcing bar is drilled and casting the concrete, etc. to form the piles (cast-in-place piles), and wooden piles, steel pipe piles, A construction method in which a ready-made pile such as a concrete pile is inserted and buried is known.

By the way, in a foundation pile, an abnormality such as a crack or a break may occur in the foundation pile due to aged deterioration or an earthquake.
Conventional methods for evaluating the soundness of foundation piles include non-destructive inspection methods using ultrasonic waves, or damage detection devices that detect damage to structures and send the results to the outside using wireless tags. Has been.

  As a conventional damage detection device, for example, a detection device that detects distortion of an embedded pile is fixed to a reinforcing bar in advance, and a wireless tag connected to the detection device by a signal line is fixed, and in this state, the reinforcing bar is placed in concrete. Some have been proposed to embed and generate foundation piles. In this damage detection device, the wireless tag is arranged at a position where communication with the outside is possible, so that the detection information of the detection device embedded in the concrete is transmitted to the outside by the wireless tag (for example, , See Patent Document 1).

JP 2012-112982 A

  However, as described in Patent Document 1, when a detection device and a wireless tag embedded in concrete are used, it is necessary to supply power to the detection device and the wireless tag. That is, a power cable for supplying power to these is required. In addition, it is necessary to provide a signal cable that connects the detection device and the wireless tag. Thus, routing the power cable and the signal cable in the foundation pile, for example, improves workability when embedding a reinforcing bar in concrete. Leading to a decline.

Further, if a battery is provided in the detection device, there is no need to lay a power cable. However, the detection device cannot operate when the remaining capacity of the battery runs out.
Therefore, the present invention has been made paying attention to the above-mentioned unsolved problems, and a foundation pile evaluation system capable of extracting the state information of the foundation pile without requiring a power cable or a signal cable. The purpose is to provide.

One aspect of the present invention is a detection device (for example, the detection device 10 shown in FIG. 1) provided with a sensor that is provided inside a foundation pile including a reinforcing bar (for example, the reinforcing bar 2 shown in FIG. 1) and detects the state of the foundation pile. ) And an evaluation device (e.g., the evaluation device 20 shown in FIG. 1) that is provided outside the foundation pile and evaluates the abnormality of the foundation pile based on the detection information of the sensor, the detection device and the the evaluation unit is electrically connected through the reinforcing bar, wherein the evaluation device is a foundation pile evaluation system characterized that you extracted detection information of the sensor through the rebar.

Another aspect of the present invention is a detection device (for example, the detection device shown in FIG. 1) provided with a sensor that is provided inside a foundation pile including a reinforcing bar (for example, the reinforcing bar 2 shown in FIG. 1) and detects the state of the foundation pile. 10) and an evaluation device (e.g., the evaluation device 20 shown in FIG. 1) that is provided outside the foundation pile and evaluates the abnormality of the foundation pile based on detection information of the sensor, and the detection device the said evaluation device are electrically connected through the reinforcing bar, wherein the evaluation device have line power supply to the detection device via the rebar, the detection information of the sensor through the rebar It is a foundation pile evaluation system characterized by extracting.
Another aspect of the present invention is a detection device (for example, the detection device shown in FIG. 1) provided with a sensor that is provided inside a foundation pile including a reinforcing bar (for example, the reinforcing bar 2 shown in FIG. 1) and detects the state of the foundation pile. 10) and an evaluation device (e.g., the evaluation device 20 shown in FIG. 1) that is provided outside the foundation pile and evaluates the abnormality of the foundation pile based on detection information of the sensor, and the detection device The evaluation device is electrically connected via the reinforcing bar, the detection device includes a battery, and the battery is charged with electric power supplied via the reinforcing bar, and the evaluation device includes the reinforcing bar. It is a foundation pile evaluation system which supplies electric power to the above-mentioned detection device via, and extracts detection information of the above-mentioned sensor via the above-mentioned reinforcing bar.
Another aspect of the present invention is a detection device (for example, the detection device shown in FIG. 1) provided with a sensor that is provided inside a foundation pile including a reinforcing bar (for example, the reinforcing bar 2 shown in FIG. 1) and detects the state of the foundation pile. 10) and an evaluation device (e.g., the evaluation device 20 shown in FIG. 1) that is provided outside the foundation pile and evaluates the abnormality of the foundation pile based on detection information of the sensor, and the detection device The evaluation device is electrically connected via the rebar, the detection device includes a battery, charges the battery with the power supplied via the rebar, and supplies power via the rebar. Is operated using supply power, and is operated using the battery only when the power supply is not performed, and the evaluation device uses power to the detection device via the reinforcing bar. Supply, said Muscle is a foundation pile evaluation system and extracts the detection information of the sensor through.

A plurality of the detection devices, wherein the evaluation device transmits address information for specifying a detection device from which the detection information is extracted via the reinforcing bar, and the detection device receives address information designating itself , have good they become the detection information of the self the sensor to be transmitted via the reinforcing bars.

  According to the present invention, power can be supplied and signals can be transmitted and received using a reinforcing bar, and therefore, it can be realized without separately providing a power cable and a signal cable. Therefore, it is not necessary to consider the handling of the cable when burying the cable in the foundation pile, so that the work efficiency can be improved.

It is a schematic block diagram which shows an example of the foundation pile evaluation system of this invention. It is a schematic block diagram which shows an example of a detection apparatus. It is explanatory drawing which shows an example of a dummy vertical stripe.

Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 is a schematic configuration diagram showing an example of a foundation pile evaluation system 100 of the present invention.
A foundation pile evaluation system 100 shown in FIG. 1 includes a detection device 10 arranged in a foundation pile 1 buried in the ground, and an evaluation device 20 arranged on the ground and operable by an operator. In FIG. 1, reference numeral 2 denotes a reinforcing bar rod arranged in the foundation pile 1, and is composed of a plurality of vertical bars 3 and a plurality of hoop bars 4 surrounding each vertical bar 3. Among the plurality of vertical bars 3, one vertical bar set in advance is set as the ground vertical bar 3gnd.

  The vertical bars 3 and the hoop bars 4 are made of, for example, epoxy resin-coated reinforcing bars, and the vertical bars 3 and the hoop bars 4 are insulated from each other. Note that the reinforcing bars are not limited to epoxy resin-coated reinforcing bars, and it is only necessary that the vertical bars 3 and the hoop bars 4 can be insulated from each other. For example, reinforcing bars coated with other insulating resin may be used. Further, it is not necessary that all the vertical bars 3 and the hoop bars 4 are made of epoxy resin-coated reinforcing bars, and at least the grounding vertical bars 3gnd only need to be made of epoxy resin-coated reinforcing bars. Moreover, it is not necessary to coat the entire length of the ground vertical stripe 3gnd with an epoxy resin, and the epoxy resin may be coated only on the portion of the ground vertical stripe 3gnd that is in contact with the hoop line 4.

FIG. 2 is a schematic configuration diagram showing an example of the detection apparatus 10 and shows details of the main part A of FIG.
As shown in FIG. 1, one or more detection devices 10 are arranged on any one of the plurality of vertical bars 3 constituting the reinforcing bar 2. In addition, the detection apparatus 10 is arrange | positioned in the vertical stripe 3 different from the vertical stripe 3gnd for grounding. Specifically, the detection device 10 is connected to the vertical stripe 3 at a position where the ground terminal GND of the detection device 10 is easily connected to the ground vertical stripe 3gnd, such as the vertical stripe 3 located in the vicinity of the vertical stripe 3gnd. Be placed.

When the foundation pile 1 is buried in the ground, the detection device 10 is predicted to be likely to cause an abnormality in the foundation pile 1 such as a liquefied layer or the like where the abnormality is relatively likely to occur in the foundation pile 1 or every different formation. It is arranged at the place to be. In addition, you may arrange | position the detection apparatus 10 to the vertical stripe 3 with the space | interval set beforehand.
As shown in FIG. 2, the detection apparatus 10 includes a sensor 11, an interface unit 12, a battery 13, and a control unit 14, which are in a durable box even when embedded in concrete. It is stored in.

The sensor 11 includes a sensor that detects a change in the state of the foundation pile 1 such as an inclinometer.
Detection information of the sensor 11 is input to a sensor information input terminal of the control unit 14.
The interface unit 12 is electrically connected to the vertical stripe 3 through the signal line 12a. The interface unit 12 includes a capacitor C and an inductance L, and the signal line 12a is connected to the signal input terminal of the control unit 14 via the capacitor C. Further, the signal line 12 a is connected to the power supply voltage input terminal of the control unit 14 via the inductance L and also connected to the battery 13.

The battery 13 includes a charge control unit (not shown) that performs charge / discharge control, and the DC power supplied from the signal line 12a via the inductance L is charged to the battery 13. Further, when power is not supplied from the signal line 12 a via the inductance L, power is supplied from the battery 13 to the control unit 14.
The control unit 14 is operated by DC power supplied from the signal line 12 a via the inductance L or supplied power from the battery 13.

Further, the control unit 14 inputs address information to which a command for requesting transmission of detection information is added from the evaluation device 20 via the signal line 12a, and when the address information is addressed to itself, The detection information is transmitted to the evaluation device 20 via the signal line 12a.
The address information and the detection information exchanged between the control unit 14 of the detection device 10 and the evaluation device 20 via the vertical stripe 3 may be performed by any communication procedure.
As shown in FIG. 1, the ground terminal GND of the battery 13 and the control unit 14 is connected to the common vertical vertical line 3gnd at each battery 13 of each detection device 10 and the ground terminal GND of the control unit 14. The ground vertical bars 3gnd are connected at the tip of the foundation pile 1 to the iron plate shoe 1a for protecting the tip of the foundation pile 1.

  That is, the foundation pile 1 is made of a ready-made pile in which, for example, a reinforcing bar 2 is embedded in concrete. In the manufacturing process of the ready-made pile, one or a plurality of detection devices 10 are fixed to the reinforcing bar 2, and the battery 13 of each detection device 10 and the ground terminal GND of each control unit 14 are common to each detection device 10. Connect to the vertical ground wire 3gnd. In this state, the reinforcing bar 2 is embedded in the concrete, and the ground vertical bars 3gnd are connected to the iron plate shoe 1a.

By inserting and burying the foundation pile 1 thus formed in the excavated ground, the ground vertical bars 3gnd are grounded via the iron plate shoe 1a. As described above, since the ground vertical bars 3gnd are insulated from the hoop bars 4, the ground vertical bars 3gnd serve as ground wires, and each detection device 10 can be grounded.
Next, as shown in FIG. 1, the evaluation device 20 includes a control unit 21, an interface unit 22, and a battery 23, and the interface unit 22 is electrically connected to the signal line 12 a of each detection device 10. It is electrically connected to the vertical bars 3 that are provided.

  The control unit 21 is configured to include an input device and a display device (not shown), and when an operator performs an initial information extraction instruction operation for acquiring detection information from each detection device 10 as initial information, or When a soundness evaluation instruction operation for evaluating the soundness of the foundation pile 1 is performed, signals are exchanged with the detection device 10 using the vertical bars 3 as a transmission path, and detection information is received from each detection device 10. To get. For example, address information specifying each detection device 10 is transmitted from the control unit 21, and the detection device 10 corresponding to the address information transmits the detection information of the own sensor 11 to the control unit 21 as a response, thereby exchanging signals. I do. When this signal exchange is performed, a transmission / reception signal is superimposed on the power supplied to the detection device 10 and transmitted to perform signal exchange with the detection device 10 and power supply to the detection device 10. The detection information is extracted from each detection device 10 by repeating this process by sequentially switching the address information.

And the control part 21 extracts detection information from all the detection apparatuses 10 connected to the foundation pile 1, when the extraction instruction | indication operation of initial information is performed by the operator, This is made into the memory | storage part 21a as initial information. Is stored in association with the address information.
In addition, when a soundness evaluation instruction operation is performed by the operator, the control unit 21 performs soundness based on the extracted detection information and the initial information of each detection device 10 stored in the storage unit 21a. Evaluate.

  For example, the extracted detection information and the corresponding initial information stored in the storage unit 21a are compared to determine whether the difference is within an allowable range, and the extracted detection information and the corresponding initial information and the comparison result are associated with each other. Processes such as attaching and displaying. Note that the soundness evaluation method is not limited to this. For example, the detection information of the sensor 11 of each detection device 10 may be collected periodically, and the transition of detection information may be displayed for each detection device 10.

Next, the operation of this embodiment will be described.
First, as shown in FIG. 1, a ready-made pile in which a plurality of detection devices 10 are arranged at appropriate positions of the reinforcing bar 2 and the ground terminals GND of the detection devices 10 are connected to a common ground vertical bar 3gnd is used as the foundation pile 1. Drive into the ground. Thereby, the front-end | tip of the foundation pile 1, ie, the iron plate shoe 1a, contacts the ground, and each detection device 10 in the foundation pile 1 is grounded.

In this state, when the detection information of each sensor 11 is extracted from each detection device 10 as initial information, the evaluation device 20 performs an operation for instructing extraction of the initial information.
Thus, the address information is transmitted to the interface unit 12 of each detection device 10 through the interface unit 22 using the vertical line 3 as a transmission path, and is input to the signal input terminal of the control unit 14 through the signal line 12a and the capacitor C. Is done. Further, the power supplied to the detection device 10 supplied together with the address information is supplied to the power supply voltage terminal of the control unit 14 via the inductance L, and the control unit 14 becomes operable. The surplus is charged in the battery 13.

For this reason, the control unit 14 that has received its own address information reads the detection information of the sensor 11 and transmits the detection information from the interface unit 12 to the vertical stripe 3 via the signal line 12a.
The control unit 21 of the evaluation device 20 acquires the detection information via the interface unit 22 and stores it in the storage unit 21a in association with the address information.

The initial information extraction process is not limited to this. For example, the operator sequentially designates the address information of each detection device 10 and stores the received detection information in the storage unit 21 a for each detection device 10. By performing, you may comprise so that initial information may be acquired from each detection apparatus 10. FIG.
When performing the soundness evaluation of the foundation pile 1 from this state, the operator operates the evaluation device 20 and performs soundness evaluation instruction operation.

  Thereby, the address information of each detection device 10 is sequentially superimposed from the power supplied to the detection device 10 and transmitted from the evaluation device 20, and the detection information of each detection device 10 is transmitted to the evaluation device 20 as a response. Furthermore, in the evaluation device 20, the initial information of the detection information of each detection device 10 is read from the storage unit 21a based on the address information, and the initial information stored in the storage unit 21a, the detection information extracted this time, Based on the above, soundness assessment is conducted.

The operator can evaluate the soundness of the foundation pile 1 by referring to the evaluation result displayed on the display device and the actual detection information.
For example, if the difference between the initial information and the detection information is larger than the allowable range, the operator can easily recognize the presence / absence of an abnormality by, for example, performing an alarm display.

At this time, each detection device 10 can be specified from the address information. Therefore, for example, in the control unit 21, by displaying on the display device the detection information from the detection device 10 installed in which part of the foundation pile 1, the operator has made an abnormality at which position of the foundation pile 1. Can be easily recognized.
At this time, in the case where the detection information is not notified to the control unit 21 as a response despite the transmission of the address information from the control unit 21 to the detection device 10, the control unit 21 There is a possibility that the vertical stripe 3 to which the detection device 10 is connected is cut from the position where the evaluation device 20 is connected to the connection position of the detection device 10 specified by the address information, or It can be determined that an abnormality may have occurred in the detection device 10 specified by the address information.

  As described above, in the foundation pile evaluation system 100 shown in FIG. 1, the detection device 10 and the evaluation device 20 are electrically connected via the vertical bars 3, and power is supplied from the evaluation device 20 side via the vertical bars 3. I did it. Therefore, a power cable for supplying power for driving the detection device 10 can be realized without being routed inside the foundation pile 1. Further, the vertical stripe 3 is less susceptible to deterioration and the like than a power cable or the like. For this reason, it is possible to prevent the detection device 10 from being inoperable due to power being not supplied to the detection device 10 due to deterioration over time.

  Further, the detection device 10 is provided with a battery 13. Therefore, an abnormality occurs in the power system for supplying power to the detection device 10 via the vertical stripe 3 due to something such as a failure on the evaluation device 20 side, and power to the detection device 10 via the vertical stripe 3 is generated. Even when the supply cannot be performed, power can be supplied from the battery 13 to the detection device 10. Therefore, since the detection device 10 can operate, the detection device 10 can be more reliably prevented from operating due to power being not supplied to the detection device 10 due to an abnormality on the evaluation device 20 side. can do.

  Further, since the vertical streak 3 is less susceptible to deterioration with time than a power cable or the like and supplies power via the vertical streak 3 that is less susceptible to deterioration with time, the detection device 10 and The probability that power supply to the detection device 10 is not possible due to an abnormality in the power system with the evaluation device 20 is relatively small. When an abnormality occurs in the power system on the evaluation device 20 side, the evaluation device 20 can be repaired because it is disposed on the ground. Therefore, although the detection apparatus 10 includes the battery 13, the battery 13 requires a relatively small capacity. Therefore, it is possible to prevent the detection device 10 from becoming inoperable when the power supply via the vertical stripes 3 cannot be performed while downsizing the detection device 10.

  Further, not only power supply to the detection device 10 but also signal exchange between the detection device 10 and the evaluation device 20 is performed via the vertical bars 3. Therefore, it is not necessary to route a signal cable for performing signal exchange between the detection device 10 and the evaluation device 20 inside the foundation pile 1, and one of the vertical bars 3 is used as a ground vertical bar 3gnd. Because it is used, there is no need to route the ground wire. Therefore, the workability associated with the laying of the foundation pile 1 can be improved as much as it is not necessary to route the power cable, the signal cable, etc. in the foundation pile 1.

Moreover, when a power cable, a signal cable, etc. are routed inside the foundation pile 1, it may become a factor of the rigidity fall of the foundation pile 1. FIG. However, in the present embodiment, as described above, it can be realized without routing a power cable, a signal cable, or the like in the foundation pile 1, and the signal line 12a that connects the vertical line 3 and the detection device 10 is compared. Therefore, a decrease in the rigidity of the foundation pile 1 can be suppressed.
In the case of the above embodiment, the case where one of the plurality of vertical bars 3 constituting the reinforcing bar 2 is used as the ground vertical bar 3gnd is described, but the present invention is not limited to this.

  For example, as shown in FIG. 3, apart from the vertical bars 3 constituting the reinforcing bar 2, a dummy vertical bar (hereinafter referred to as “dummy vertical bar”) 5 is incorporated in the reinforcing bar 2 to form a part of the reinforcing bar 2. The dummy vertical bars 5 may be used as the ground vertical bars, and the dummy vertical bars 5 may be connected to the ground terminals GND of the detection devices 10. In this case as well, epoxy resin or the like may be applied to at least a portion of the dummy vertical bar 5 that is in contact with the hoop bar 4 so that the dummy vertical bar 5 and the hoop bar 4 are insulated. Then, the dummy vertical bars 5 and the iron plate shoes 1a may be electrically connected, and the detection devices 10 may be grounded via the dummy vertical bars 5 and the iron plate shoes 1a.

Alternatively, the dummy vertical bars 5 may be fixed to the reinforcing bar 2 in a state where the vertical bars 5 and the dummy vertical bars 5 are insulated, instead of incorporating the dummy vertical bars 5 into the reinforcing bar 2.
Further, in the case of the above embodiment, each detection device 10 is grounded at the iron plate shoe 1a portion via the grounding vertical bar 3gnd. However, the present invention is not limited to this, and any detection device 10 can be grounded. You may ground by such a method.

  For example, instead of using a ready-made pile as the foundation pile 1, when using a construction method in which the foundation pile 1 is formed by dropping the reinforcing bar 2 into the drilled ground and pouring concrete or the like, the reinforcing bar 2 The actuator 10 is fixed to the same vertical streak 3 that constitutes, and is driven into a wall made of ground where a ground wire connected to the ground terminal of the detector 10 is drilled. This actuator is configured to drive a conductive wedge into a ground wall using the reaction force of the spring, for example, and a ground wire is connected to the conductive wedge, and the spring is operated by a switch, for example. This can be realized. For example, the switch may be operated before pouring concrete or the like to ground the ground wire. In this case, it is necessary to provide an actuator for driving a ground wire for each detection device 10, but this actuator can be realized with a simple configuration as described above, and the ground leading to the tip of the foundation pile 1. There is no need to route the wire within the foundation pile 1.

  In particular, in the case of a construction method in which the foundation pile 1 is formed by dropping the rebar rod 2 into the ground ground and pouring concrete, etc., if there are power cables, signal cables, ground wires, etc., when pouring the concrete The cable may be damaged or workability may be reduced due to the need to pay attention to the handling of the cable. However, since it can be realized without routing a power cable, a signal cable, and a ground wire, it can be realized while suppressing a decrease in workability.

  In addition, in the said embodiment, although the battery 13 is provided in the detection apparatus 10 side, the battery 13 does not necessarily need to be provided. That is, as described above, power is supplied to the detection device 10 via the vertical stripe 3. Therefore, when the detection information of the detection device 10 is extracted on the evaluation device 20 side, the detection device 10 can be put into an operable state by transmitting the address information superimposed on the power supplied to the detection device 10. . Therefore, the detection device 10 can be further downsized because the battery 13 is not provided.

Although the battery 13 is provided, the battery 13 may not be charged via the vertical stripe 3 and only the power supply to the detection device 10 may be performed via the vertical stripe 3.
Moreover, in the said embodiment, although the case where an inclinometer was used as the sensor 11 was demonstrated, it is not restricted to this, The information for evaluating the soundness, such as a crack of the foundation pile 1, and a fold, is detected. For example, a strain gauge, a pressure gauge, an accelerometer, or the like may be used. In that case, the sensor 11 may be provided outside the box, and also when an inclinometer is used as the sensor 11, the sensor 11 may be provided outside the box.

Moreover, in the said embodiment, although the case where it was set as the structure which performs electric power supply and signal transmission / reception via the vertical stripe 3, it does not restrict to this.
For example, the detection device 10 may be configured to receive power supply only from the battery 13 and perform only signal transmission / reception via the vertical bars 3.
In addition, for example, a wireless communication unit that performs wireless communication between the detection device 10 and the evaluation device 20 is provided in each of the detection device 10 and the evaluation device 20, and power supply to the detection device 10 is performed via the vertical bars 3. You may comprise so that signal transmission / reception may be performed by radio | wireless communication. In this case, if the battery 13 is provided, signal exchange between the detection device 10 and the evaluation device 20 is continued even when power cannot be supplied through the vertical stripe 3 due to cutting of the vertical stripe 3 or the like. Can be done.

Moreover, in the said embodiment, although the case where the several detection apparatus 10 was provided in the same vertical stripe 3 was demonstrated, it does not restrict to this.
For example, a plurality of detection devices 10 may be provided on different vertical stripes 3. In this case, the detection device 10 and the evaluation device 20 may be paired, and the detection device 10 and the evaluation device 20 may be provided for each vertical stripe 3 or each of the vertical stripes 3 to which the detection device 10 is connected. A single evaluation device 20 may be electrically connected.

  Moreover, although the said embodiment demonstrated the case where the reinforcing bar 2 was used as a reinforcing bar and the vertical bar 3 was used as a transmission path between the detection apparatus 10 and the evaluation apparatus 20, it is not restricted to this, The foundation Reinforcing bars that can be electrically connected to the evaluation device 20 arranged on the ground, such as reinforcing bars arranged along the longitudinal direction of the pile 1, and the detection device 10 arranged at an appropriate position in the foundation pile 1, and Any reinforcing bar that is insulated from other reinforcing bars arranged in the same foundation pile 1 can be used.

Moreover, although the said embodiment demonstrated the case where the whole evaluation apparatus 20 was provided in the vertical stripe 3, it does not restrict to this. For example, each of the control unit 21 and the interface unit 22 of the evaluation apparatus 20 is provided with a wireless communication processing unit for performing wireless communication therebetween, and is based on a circuit including the interface unit 22, the battery 23, and the wireless communication unit. Provided near the pile 1. Then, when performing an instruction operation such as extraction of initial information or evaluation of soundness, the operator uses a circuit including the control unit 21, the storage unit 21 a, and the wireless communication unit, for example, at a location away from the foundation pile 1. The detection information of each detection device 10 may be extracted by performing communication with the detection device 10 disposed on the foundation pile 1 via wireless communication from this circuit.
Moreover, although the said embodiment demonstrated the case where address information was superimposed and transmitted to the power supplied to the detection apparatus 10, it is not restricted to this, It is comprised so that power supply and transmission of address information may be performed separately. May be.

DESCRIPTION OF SYMBOLS 1 Foundation pile 1a Steel plate shoe 2 Reinforcing bar 3 Vertical bar 3gnd Ground vertical bar 4 Hoop bar 5 Dummy vertical bar 10 Detection device 11 Sensor 12 Interface unit 12a Signal line 13 Battery 14 Control unit 20 Evaluation device 21 Control unit 21a Storage unit 22 Interface unit 23 Battery 100 Foundation pile evaluation system

Claims (5)

A detection device provided with a sensor provided inside a foundation pile including a reinforcing bar and detecting the state of the foundation pile;
An evaluation device that is provided outside the foundation pile and evaluates the abnormality of the foundation pile based on detection information of the sensor,
The detection device and the evaluation device are electrically connected via the reinforcing bar ,
The evaluation device, the foundation pile evaluation system characterized that you extracted detection information of the sensor through the rebar. A detection device provided with a sensor provided inside a foundation pile including a reinforcing bar and detecting the state of the foundation pile;
An evaluation device that is provided outside the foundation pile and evaluates the abnormality of the foundation pile based on detection information of the sensor,
The detection device and the evaluation device are electrically connected via the reinforcing bar,
The evaluation device, the detection have line power supply to the apparatus, extraction to group Ishizuekui evaluation systems that wherein Rukoto the detection information of the sensor through the rebar through the rebar. A detection device provided with a sensor provided inside a foundation pile including a reinforcing bar and detecting the state of the foundation pile;
An evaluation device that is provided outside the foundation pile and evaluates the abnormality of the foundation pile based on detection information of the sensor,
The detection device and the evaluation device are electrically connected via the reinforcing bar,
The detection device includes a battery, and charges the battery with power supplied via the reinforcing bar,
The evaluation device, the detection carried out power supply to the apparatus, extraction to group Ishizuekui evaluation systems that wherein Rukoto the detection information of the sensor through the rebar through the rebar. A detection device provided with a sensor provided inside a foundation pile including a reinforcing bar and detecting the state of the foundation pile;
An evaluation device that is provided outside the foundation pile and evaluates the abnormality of the foundation pile based on detection information of the sensor, and
The detection device and the evaluation device are electrically connected via the reinforcing bar,
The detection device includes a battery, charges the battery with power supplied via the reinforcing bar, operates using the supplied power when power is supplied via the reinforcing bar, and supplies the power Operates only when the battery is not used,
The evaluation device, the detection carried out power supply to the apparatus, extraction to group Ishizuekui evaluation systems that wherein Rukoto the detection information of the sensor through the rebar through the rebar. A plurality of the detection devices;
The evaluation device transmits address information for specifying a detection device from which the detection information is extracted via the reinforcing bar,
The detection device, when receiving the address information specifying the self, according to detection information of the self the sensor in any one of claims 1 to 4, characterized in that transmission over the rebar Foundation pile evaluation system.

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