JP2019090263A - Drilling data management system for inserting reinforcement member - Google Patents

Abstract

To provide a drilling data management system for inserting a reinforcement member which improves working efficiency and can acquire accurate management data.SOLUTION: A drilling data management system includes: construction place information acquisition means 11 which acquires drilling construction place information; drilling specification information acquisition means 12 which acquires drilling specification information on drilling; determination means 21 which determines a drilling state and outputs determination information; date and time information acquisition means 13 which acquires input date and time information of drilling data; worker information acquisition means 14 which acquires information on a worker involved in information collection of the drilling data; and collection data output means 22 which collects the data on the basis of the respective pieces of the acquired information, and outputs collection data usable as document data.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a drilling data management system for inserting a reinforcing member, and, for example, a drilling for inserting a reinforcing member used when performing a construction work of a reinforced concrete structure or an existing concrete structure. It relates to a system for managing data on holes.

  In recent years, while there is concern about the occurrence of large-scale earthquakes, the need for seismic reinforcement for existing reinforced concrete structures is increasing. If the shear capacity of the existing reinforced concrete structure is insufficient, it is necessary to increase the shear capacity of the structure by adding reinforcing steel materials in the direction intersecting with the main rebar. In such reinforcement work, it is necessary to ensure that the reinforcing member is fixed, and to minimize damage to the existing structure and to be able to be installed easily. In addition, also in the construction work of a new reinforced concrete structure, it is desirable to firmly fix the reinforcing member by easy construction.

  For such reinforcement work, it is necessary to carry out drilling for embedding a reinforcing member. At this time, in order to carry out the planned drilling at a predetermined proper position, it is necessary to manage data on the drilling such as the bore diameter, the coarse diameter, and the drilling depth. Then, if the planned drilling is not performed at the proper position, the shear load capacity of the structure can not be increased as designed, and the management of drilling data becomes an important task. .

  Although it is not drilling data for inserting a reinforcing member, a drilling management program and a drilling management device for grasping the deviation of the actual drilling position relative to the planned drilling position when drilling in the ground It is proposed (refer patent document 1).

  In the technology described in Patent Document 1, a drilling member position input step of inputting position information of a drilling member in the ground using an information processing apparatus provided with a display device, and planned drilling position information The display step displays the perspective projection display area facing the planned drilling position ahead of the current actual drilling position on the display device, and at least the current actual drilling position in the perspective projection display area And a display step of performing perspective projection display of the planned drilling position ahead of this position.

JP 2003-85594 A

  As described above, in the case of drilling for reinforcement members, it is necessary to manage drilling data appropriately, but in the present situation, a series of operations such as measurement, registration, and counting of drilling data rely on human hands. is there. For example, for a plurality of drillings, measure the construction date, location, direction, hole diameter and other specifications, core machine used, eccentricity from design value, difference between design value and actual value, etc. Fill in the field notes, etc., and have created a management data table at the site office etc.

  Such manual work is not only time consuming, but may cause various problems such as measurement errors, entry errors, transcription errors, missing or overlapping measurement points, etc., thus improving work efficiency and accuracy. Development of technology for acquiring management data has been desired.

  The technique described in Patent Document 1 is a technique for managing drilling data when drilling in the ground, and this is used as it is for managing drilling data for inserting a reinforcing member. It can not be used.

  The present invention has been proposed in view of the above-described circumstances, and it is an object of the present invention to provide a drilling data management system for inserting a reinforcing member capable of acquiring accurate management data while improving work efficiency. To aim.

  The drilling data management system for inserting a reinforcing member according to the present invention has the following features in order to achieve the above-mentioned purpose. That is, the drilling data management system for inserting a reinforcing member according to the present invention is characterized by including a construction place information acquiring unit, a drilling specification information acquiring unit, and a judging unit. In addition, a reinforcement member is a post-construction reinforcement member for shear reinforcement, for example.

  The construction site information acquisition means is a means for acquiring construction site information of the drilling. The drilling specification information acquisition means is a means for acquiring drilling specification information related to drilling. The determination means is a means for determining the state of drilling and outputting the determination information.

  Further, in addition to the configuration described above, it is possible to include date and time information acquisition means and worker information acquisition means. The date and time information acquisition means is a means for acquiring the input date and time information of the drilling data. The worker information acquisition means is a means for acquiring the worker information involved in the information collection of the drilling data.

  The drill specification information to be acquired preferably includes at least the drill length and the eccentric amount of drill (difference between measured drill center and design value) with respect to drilling, and with respect to grout, at least the funnel It is preferable to include a test value and a mini slump test value.

  Further, in addition to the above-described configuration, it is possible to provide a tabulation data output unit that tabulates based on each acquired information and outputs form data.

  Further, in addition to the above-described configuration, a portable information terminal carried by an operator for acquiring each information, and a server connected so as to be capable of data communication with the portable information terminal and centrally managing each acquired information Can be used to construct each means.

  According to the drilling data management system for inserting the reinforcing member according to the present invention, when the drilling data for inserting the reinforcing member is managed, the work efficiency can be increased by causing each means to function comprehensively. While improving, it becomes possible to acquire accurate management data.

  Further, by performing tabulation based on each acquired information, it is possible to output tabulated data usable as form data.

  Furthermore, data management can be made more efficient by acquiring each information by the portable information terminal carried by the worker and transmitting each acquired information to the server for centralized management.

The block diagram which shows the structure of the drilling data management system for inserting the reinforcement member which concerns on embodiment of this invention. The schematic diagram which shows the display screen (volume management of drilling) of a portable information terminal. The schematic diagram which shows the display screen (pouring control of grout) of a portable information terminal.

  Hereinafter, a drilling data management system (hereinafter referred to as a drilling data management system) for inserting a reinforcing member according to an embodiment of the present invention will be described with reference to the drawings. 1 to 3 illustrate a drilling data management system according to an embodiment of the present invention. FIG. 1 is a block diagram showing a configuration of the drilling data management system, and FIG. 2 is a display screen of a portable information terminal FIG. 3 is a schematic view showing the hole quality management), and FIG. 3 is a schematic view showing a display screen (grout injection control) of the portable information terminal.

<Overview of drilling data management system>
The drilling data management system according to the embodiment of the present invention is connected so as to be capable of data communication with the portable information terminal 10 (for example, a tablet terminal) carried by the operator and the portable information terminal 10 via the data communication line 30. The system is constructed using the server 20 described above, and includes, as basic components, a construction location information acquisition unit 11, a drilling specification information acquisition unit 12, and a determination unit 21, and further, date and time information acquisition The means 13, the worker information acquisition means 14, and the total data output means 22 may be provided.

  Each means is constituted by the functional means of the portable information terminal 10 or the server 20 or various instruments. In addition, in the portable information terminal 10 and the server 20, the programs installed therein operate in cooperation with hardware resources such as a CPU to exhibit functions as respective means. The program includes a logic circuit that exhibits the same function as this.

  In the present embodiment, the construction location information acquisition unit 11, the drilling specification information acquisition unit 12, the date and time information acquisition unit 13, and the worker information acquisition unit 14 are realized as the function of the portable information terminal 10, and the determination unit 21 and total data output Although the means 22 is realized as a function of the server 20, all means may be realized as a function of the portable information terminal 10, or even if a plurality of servers 20 are cooperated to disperse the function of the server 20. Good.

  In addition, the information acquired by each means is read from a database stored in the server 20, entered by an operator using an input means such as a touch pad, and data conversion by recognizing speech read by the operator Alternatively, data can be received directly from the measuring device by performing data communication between the measuring device and each means.

<Mobile information terminal>
The portable information terminal 10 is preferably a tablet terminal in that it is easy to input and output information, but a smaller smart phone, a commonly used mobile PC, etc. can function as the portable information terminal 10. May be The portable information terminal 10 has, as basic functions, a communication function (for example, wired network, Wi-Fi, near field data communication, telephone), a data input / output function (for example, touch pad), a data display function (for example, A liquid crystal display device), an arithmetic function (for example, a CPU, a temporary storage device), a data storage function (for example, a storage device such as an HDD or an SDD), and the like are provided.

<Server>
The portable information terminal 10 is connected so as to be capable of data communication with the server 20, and can mutually transmit and receive data. To be able to transmit and receive data means to transmit and receive data mutually by using a data communication line 30 such as a network line, a public telephone line, a dedicated communication line, or a wireless communication line singly or in combination.

  The server 20 is installed at a management office or the like of a construction site, and transmits various information acquired by the portable information terminal 10 to the server 20 to perform determination processing and tabulation processing. Although not shown, the server 20 is a server 20 including an arithmetic means including a CPU and the like, a storage means such as an HDD, an input means such as a keyboard, a mouse and a touch panel, an output means such as a transmitting and receiving means, a liquid crystal display device and a printer. Are provided with various means for performing the function of The server 20 may be constructed as a virtual server 20 on the cloud.

<Construction place information acquisition means>
The construction site information acquiring means 11 is a means for acquiring construction site information of drilling, and, for example, in the case of a wall construction site reinforced construction site of a building, “○ earthquake resistant reinforcement construction”, “Δ floor” The construction site to be managed can be specified by acquiring various information related to the construction site, such as “×× work area”, “side wall” and the like. The drilling is, for example, a hole for inserting a post-construction reinforcement member for shear reinforcement.

<Pore specification information acquisition means>
The drilling specification information acquisition means 12 is a means for acquiring specification information (drilling specification information) related to drilling. The drilling specification information is various information related to drilling to be managed. For example, in the case of managing the drilling height, the hole number, the direction of the drilling, the type of reinforcing member to be inserted, the drilling diameter, the coarse diameter and the like become drilling specification information, and the management of grout injection is performed. The hole number, the direction of drilling, the injection method of grout, the hole diameter and coarse diameter of the hole, the type and amount of grout used, etc. become drilling specification information. Further, the drilling specification information may include information on the core machine used for drilling. The information on the core machine is, for example, an identification ID for specifying the core machine, an identification ID of a coarse bit, a gross coarse length, and the like. In addition, you may acquire the photograph of a construction site or a drilling as drilling specification information.

<Measurement equipment>
A measuring instrument for acquiring the drilling specification information may be a caliper or a measure which is generally used, but in order to acquire the measured value without human hands, the measured value data is close It is preferable to use a measuring device that can be transmitted to the portable information terminal 10 by wireless communication, or a barcode reader that can read information stored as a barcode and input it to the portable information terminal 10. Alternatively, the measurement value may be input by speech recognition of the measurement value read by the worker. As a result, acquisition of measurement values is facilitated, and human errors such as transcription errors can be prevented.

<Date and time information acquisition means>
The date and time information acquisition means 13 is a means for acquiring the input date and time information of the drilling data, and acquires date information and time information when various information is input. Although it is preferable to acquire date information and time information using the date and time management function of the portable information terminal 10 in order to secure accuracy, it may be acquired by data input by a worker. In this case, the worker confirms the date and time, inputs date and time information using an input unit such as a touch pad and voice recognition unit, and the date and time information acquisition unit acquires the input date and time information. Further, when the portable information terminal 10 can connect to a time server (NTP server) via the Internet, it is possible to obtain more accurate date and time information.

<Worker information acquisition means>
The worker information acquisition means 14 is a means for acquiring the worker information involved in the information collection of the drilling data, and acquires the ID of the worker involved in the information collection of the drilling data. In order to obtain the worker's ID, in order to save labor, it is preferable to obtain the ID from the ID card possessed by the worker by close proximity wireless communication etc. However, even if the worker obtains the ID by ID input Good. The ID of the worker is managed as worker data in the server 20 or the like, and by acquiring the ID of the worker, it is possible to acquire various information related to the worker, such as the worker's name and job function. Further, by acquiring the worker information, it is possible to confirm whether the worker is a worker who is qualified to collect management data.

<Judgment means>
The determination means 21 is a means for determining the state of drilling and outputting the determination information. The state of the drilling to be determined is, for example, the eccentricity and design value of the drilling center, the design value and actual value of the drilling length, etc. in the case of managing the finished height of the drilling, and grout injection When performing management, it is the value of a funnel test (design value and actual measurement value), the value of a mini slump test (design value and actual measurement value), and the like. The determination means 21 compares the design value with the actual measurement value, and determines the state of drilling based on whether the difference is within the range of the allowable value. The design value is acquired from, for example, a design value database stored in the server 20, and the actual measurement value is acquired by the drilling specification information acquiring unit 12.

<Total data output means>
The aggregation data output unit 22 is a unit for performing aggregation on the basis of each acquired information and outputting aggregation data usable as form data, and is realized as a function of the server 20. That is, the data tabulation program and the form data creation program are installed in the server 20, and each information acquired from the portable information terminal 10 is comprehensively managed to perform tabulation of each acquired information and output of the form data. be able to. The tabulated results and the form data can be displayed on the display screen of a display device attached to the server 20, printed by a printer, or stored in a storage unit.

<Porehole data management procedure / volume management>
Hereinafter, a management procedure of drilling data using the drilling data management system according to the embodiment of the present invention will be described. FIG. 2 shows an example of an image displayed on the operation screen (display screen) of the portable information terminal 10 when managing the quality of drilling data.

  In order to manage drilling data, a foreman or the like performs an input operation using a portable information terminal 10 (a tablet terminal or the like) at a construction site that acquires the drilling data. For example, when a start icon (not shown) is tapped on the drilling data management screen (input items and the like are displayed) of the portable information terminal 10, acquisition of each drilling data starts. At this time, data communication with the server 20 is performed to acquire various data related to drilling stored in advance, and recording of date and time data is started. In addition, the worker information is acquired, and the worker involved in acquiring the drilling data is specified. In addition, there may be a plurality of workers.

  In the example shown in FIG. 2, there are items displayed based on the management data stored in the server 20 and items to be confirmed or measured by the operator and input. When the data acquisition necessary for the volume management of drilling data is completed, the determination result is displayed for each drilling. If the determination result is "OK", the process shifts to acquisition of the next drilling data, and when data acquisition for all drillings is completed, the drilling data acquisition operation is ended. On the other hand, if the determination result is "NG", appropriate processing such as re-drilling is performed.

  In volume management, various management can be performed based on the aggregated data. At this time, various operation icons (not shown) are displayed on the drilling data management screen of the portable information terminal 10. Stepping etc. can be calculated based on the timing (time) etc. which operated these operation icons.

  For example, a warning message is displayed when the gross coarse length exceeds a predetermined length (for example, 40 m). In addition, regarding the gross coarse length, when the coarse bit is replaced, the current length of the coarse bit becomes the value of the gross coarse length. Further, by associating the core machine number with the total drilling length, the timing of maintenance of the core machine can be acquired.

  Further, in the present embodiment, by sequentially operating various operation icons displayed on the drilling data management screen of the portable information terminal 10, the operation of the next process can be performed. For example, it is possible to obtain a walking preparation for drilling from the time difference from the start time of the volume management to the time when the management item can be input. In addition, it is possible to obtain a rough walking from the time difference between the detection of the end of drilling and the detection of the end of roughing.

  Moreover, the core machine operation rate can be acquired by correlating the core machine number, the drilling time, and the coarse time. In addition, the worker's walking can be acquired by correlating the worker ID (worker number), the drilling length, and the construction date and time. Furthermore, the number of re-drilling can be counted to obtain the re-drilling ratio.

<Porehole data control procedure / grout injection control>
FIG. 3 shows an example of an image displayed on the operation screen (display screen) of the portable information terminal 10 when performing grout injection management.

  To perform grout injection management, a foreman or the like performs an input operation using a portable information terminal 10 (tablet terminal or the like) at the grout injection site. For example, when the start icon (not shown) is tapped on the grout injection data management screen (the input item is displayed) of the portable information terminal 10, acquisition of grouting injection data is started. At this time, data communication is performed with the server 20 to acquire various data related to grout injection stored in advance, and recording of date and time data is started. Also, the worker information is acquired to identify the worker who is involved in the acquisition of the grout injection data. In addition, there may be a plurality of workers.

  In the example shown in FIG. 3, there are items displayed based on the management data stored in the server 20 and items to be confirmed or measured by the operator and input. When data acquisition necessary for grout injection management of drilling data is completed, the determination result is displayed for each drilling. If the determination result is "OK", the process shifts to acquisition of the next drilling data, and when data acquisition for all drillings is completed, the drilling data acquisition operation is ended. On the other hand, if the determination result is "NG", appropriate processing such as re-drilling and re-injection of grout is performed.

  In grout injection management, various management can be performed based on the aggregated data. At this time, various operation icons (not shown) are displayed on the drilling data management screen of the portable information terminal 10. Stepping etc. can be calculated based on the timing (time) etc. which operated these operation icons.

  For example, the loss rate of grout can be acquired by correlating the usage amount (bag) of grout with the hole diameter x the hole diameter. In addition, it is possible to acquire a walk in preparation for grout injection from a time difference from the management start time of the grout injection until the management item can be input. In addition, it is possible to obtain the step of the grout test from the time difference between the grout injection preparation completion time and the end time of the grout test. In addition, it is possible to obtain the step of grout injection from the time difference between the end time of the grout test and the injection completion time of the grout. Furthermore, the worker's step can be acquired by correlating the worker ID (worker number), the number of injection holes, and the construction date and time.

DESCRIPTION OF SYMBOLS 10 Personal digital assistant 11 Construction place information acquisition means 12 Drilling specification information acquisition means 13 Date-and-time information acquisition means 14 Worker information acquisition means 20 Server 21 Determination means 22 Total data output means 30 Data communication line

Claims (6)

A system for managing drilling data for inserting a reinforcing member, comprising:
Construction place information acquisition means for acquiring construction place information of drilling,
Drilling specification information acquisition means for acquiring drilling specification information related to drilling;
A determination unit that determines the state of drilling and outputs determination information;
A drilling data management system for inserting a reinforcing member, comprising:   The drilling data management system for inserting a reinforcing member according to claim 1, wherein the drill specification information to be acquired includes at least a drilling length and an eccentricity of drilling with respect to drilling.   The drilling data management system for inserting a reinforcing member according to claim 1 or 2, wherein the drill specification information to be acquired includes at least a funnel test value and a mini slump test value regarding the grout. Date and time information acquisition means for acquiring input date and time information of drilling data;
Worker information acquisition means for acquiring worker information involved in information collection of drilling data;
The drilling data management system for inserting the reinforcing member according to any one of claims 1 to 3, comprising:   The reinforcement member according to any one of claims 1 to 4, further comprising: tabulated data output means for tabulating on the basis of each acquired information and outputting tabulated data usable as form data. Drilling data management system for inserting. A portable information terminal that an operator carries and acquires each information;
A server connected in data communication with the portable information terminal to centrally manage each acquired information;
The drilling data management system for inserting the reinforcing member according to any one of claims 1 to 5, wherein each of the means is configured by using.

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