KR20200136674A - Member Tracking, Scheduling System And Tracking, Scheduling Method Using Thereof - Google Patents

Abstract

The present invention relates to a system for determining material installation using an IoT sensor and a method for determining material installation using the same and, more specifically, to a system for determining material installation using an IoT sensor and a method for determining material installation using the same, capable of deriving a material installation/completion point based on an altitude change and an acceleration value change using an altitude sensor and an acceleration sensor of an IoT sensor attached to an iron frame or PC materials, considering a point at which the altitude change is detected by a sensor attached to materials as a starting point, determining a point at which an acceleration value transmitted to materials by preliminary fastening becomes zero after the altitude change as a material installation completion point, and wirelessly collecting data of a tag in real time from a remote reader to determine whether materials are installed. According to a preferred embodiment of the present invention, the system for determining material installation using an IoT sensor comprises: an IoT sensor consisting of an altitude sensor and an acceleration sensor; an IoT server for remotely receiving a value measured in the IoT sensor and storing the same; and a user terminal connected to the IoT server in a wired or wireless manner to monitor the value measured in the IoT sensor in real time.

Description

Material installation judgment system using IoT sensor and material installation judgment method using it{Member Tracking, Scheduling System And Tracking, Scheduling Method Using Thereof}

The present invention relates to a material installation determination system using an IoT sensor and a material installation determination method using the same, and more particularly, an altitude change amount and acceleration value using an altitude sensor and an acceleration sensor in an IoT sensor attached to a steel frame or PC material. The point of installation/completion of the material is derived based on the amount of change, and the point at which the altitude change is detected by the sensor attached to the material is regarded as the starting point, and the point at which the acceleration value transmitted to the material by provisional fastening after the altitude change becomes 0 The present invention relates to a material installation determination system using an IoT sensor and a material installation determination method using the IoT sensor, which enables the determination of the completion time of the installation of the material, and wirelessly collects the tag data from a remote reader in real time to determine whether it is installed.

In the existing steel frame and PC construction, in order to grasp the situation such as the start and end of the installation of materials, there is no separate material installation determination system, so the construction person in charge had no choice but to check directly with the naked eye at the site.

In order to overcome this, material management was attempted by attaching RFID, barcode, etc. to the material, but even in such a similar material management method, since direct tagging is required at the time of installation completion, there is a problem in that it is inevitable to input manpower and the efficiency decreases.

As a background technology of the present invention, there is Patent Registration No. 1927640 "a construction material and process management system and method using IoT tags" (Patent Document 1). In the background technology, in the construction material and process management method performed by the material and process management system, the steps of: updating material information related to the material based on identification information of an IoT tag attached to the material; Managing process information related to the material based on the construction quantity information input from the site terminal; And analyzing material status information and process status information by linking material information related to the material and process information related to the material, and based on the identification information of the IoT tag attached to the material, the material related to the material In the updating of information, the updated 3D design information is stored by mapping the material information related to the material including the specification information of the material, the quantity information of the material, and the construction information of the material to a 3D design model. Including the step of, and managing the process information related to the material based on the construction quantity information input from the on-site terminal, the work schedule information on which the material is constructed from the on-site terminal, and the quantity of material that has been completed in the field And managing process information related to the material by comparing a preset process plan and actual process status by linking construction quantity information including information to the 3D design model, and managing process information related to the material, and the material information related to the material and the In the step of analyzing material status information and process status information by linking process information related to materials, the material status information related to the material is analyzed by comparing the construction quantity information of the material with the construction quantity information planned for the material, and the Provides the analysis result for the analyzed material status information, analyzes the process status information related to the material by combining the material status information related to the material with the construction quantity information of the material and the schedule information at which the material is installed, Including the step of providing an analysis result for the analyzed process status information, and in the material and process management system, the construction quantity information used at the site is compared with the planned construction quantity information to predict the construction quantity information to be consumed, and the site It includes predicting the actual process status by comparing the process information being constructed at and the planned process information, and at the site terminal, compares the construction quantity information used at the site with the planned construction quantity information to identify the loss information of the material. Thus, a material management plan is established and A material and process management method that compares information on the amount of construction currently completed compared to the plan to check whether construction and material consumption is as planned, and compares the preset process plan with the actual process status to understand the progress of the process' Suggest.

However, the background technology also requires direct tagging at the time of completion of the installation of the material, and thus there is a problem in that the efficiency is deteriorated due to the inevitable input of manpower.

Patent Registration No. 1927640 "Construction material and process management system and method using IoT tags"

The present invention is to solve the above problems, by attaching an altitude sensor and an acceleration sensor to the material to enable real-time update and information accumulation of material information through wireless communication, such as determining the installation start and completion of the material, It is possible to collect on-site material installation information without inputting manpower, and it has an effect that can be used for on-site process management by converting it into BIM process data, and the time required for installation of each material automatically collected is based on data based on productivity calculations for each company/process. Its purpose is to provide a material installation determination system using an IoT sensor for reference and a material installation determination method using the same.

The present invention includes an IoT sensor comprising an altitude sensor and an acceleration sensor; An IoT server for remotely transmitting and storing values measured by the IoT sensor; It is intended to provide a material installation determination system using an IoT sensor including a user terminal that is connected to an IoT server by wire or wirelessly to monitor the value measured by the IoT sensor in real time.

In addition, an IoT sensor comprising an altitude sensor and an acceleration sensor; An IoT server for remotely transmitting and storing values measured by the IoT sensor; A user terminal that is connected to the IoT server by wire or wirelessly to monitor the value measured by the IoT sensor in real time; by using a material installation determination system using an IoT sensor, including (a) Attaching the IoT sensor to the material; (b) lifting the material to the installation location, transmitting the altitude sensor measurement value to the IoT server when the altitude change value is detected by the altitude sensor, and determining that the material installation start in the IoT server; (c) when the altitude sensor detects that the altitude change value is maintained for a certain period of time after the altitude change, transmitting the measured altitude value to the IoT server, and checking the acceleration value of the acceleration sensor; (d) Transmit the measured value of the acceleration sensor of the IoT sensor to the IoT server, and after the user confirms it at the user terminal, if the acceleration value does not change for a certain period of time after the change in the acceleration value of the acceleration value, the information is transmitted to the IoT server. And determining that the installation is complete; It is intended to provide a material installation determination method using a material installation determination system using an IoT sensor, comprising: (e) collecting the IoT sensor after the installation of the material is finished.

In addition, in step (a), when the material is shipped from the factory, an altitude sensor and an acceleration sensor are attached to one side of the material to be shipped.After removing the altitude sensor and acceleration sensor from the material at the site, it is moved to an appropriate position and attached. It is intended to provide a material installation determination method using a material installation determination system using an IoT sensor, characterized in that the

In addition, in step (d), when it is determined that the installation is complete, a notification is transmitted to a user terminal, and a material installation determination method using a material installation determination system using an IoT sensor is provided.

The material installation determination system using the IoT sensor of the present invention and the material installation determination method using the same include an altitude sensor and an acceleration sensor attached to the material, such as determining the start and completion of installation of the material, etc. Real-time update and information accumulation of material information through wireless communication By enabling it to be possible, it is possible to collect on-site material installation information without additional additional manpower input, and it has an effect that can be used for on-site process management by converting it into BIM process data, and the time required to install each material automatically collected is by company/process. It has a very useful effect that can be referred to as basis data for the calculation of individual productivity.

The following drawings attached to the present specification illustrate preferred embodiments of the present invention, and serve to further understand the technical idea of the present invention together with the detailed description of the present invention, so the present invention is limited to the matters described in the accompanying drawings. It is limited and should not be interpreted.
1 is a diagram showing the configuration of a material installation determination system using the IoT sensor of the present invention.
2 is a diagram schematically showing a material installation determination method using the material installation determination system using the IoT sensor of the present invention.
Figure 3 is a graph showing the change in the altitude sensor measurement value during the lifting of the material in the present invention.
4 is a graph showing changes in measured values of an acceleration sensor when a material is installed in the present invention.

In the following, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the disclosed embodiments are illustrative for a clear understanding of the present invention, and the present invention is not limited thereto.

Hereinafter, the technical configuration of the present invention will be described in detail according to a preferred embodiment.

1 is a diagram showing the configuration of a material installation determination system using the IoT sensor of the present invention.

As shown in Figure 1, the material installation determination system using the IoT sensor of the present invention is attached to the material (1), the IoT sensor 10 consisting of an altitude sensor 11 and an acceleration sensor 12, IoT sensor 10 ), and a user terminal 30 that is connected to the IoT server 20 by wire or wirelessly to remotely transmit and store the measured value, and monitor the value measured by the IoT sensor 10 in real time. It is made including.

The material (1) used in the present invention can utilize all of a variety of materials such as steel or PC columns, beams, and the IoT sensor 10 is attached to the material (1).

The IoT sensor 10 is composed of an altitude sensor 11 and an acceleration sensor 12, and the altitude sensor 11 and the acceleration sensor 12 may be configured separately or may be manufactured in one configuration.

The IoT sensor 10 and the IoT server 20 may be configured with known short-range and long-distance communication modules for mutual communication.

The altitude sensor 11 in the present invention detects the altitude of the material 1, such as when the building material 1 is lifted, and transmits it to the IoT server 20. That is, the installation of the material (1) is started by lifting the weight of the material (1). At this time, the altitude sensor 11 detects the altitude change of the material 1 and transmits it to the IoT server 20, thereby starting the installation of the material 1 To be able to grasp.

The acceleration sensor 12 can grasp the horizontal movement of the material 1 at the time of installation after lifting the material 1 to a specific height. In particular, when pre-fastening the material 1 by a field worker The acceleration sensor 12 recognizes the impact transmitted to the material 1 during provisional fastening, such as steel bolting and material strike, so that the acceleration value can be transmitted to the IoT server 20.

In this way, the user terminal 30 to identify the installation and installation termination of the material 1 by the change of the altitude value and the acceleration value measured by the IoT sensor 10 and transmit it to a user such as an operator or manager in real time. ) Is configured, and the user terminal 30 is connected to the IoT server 20 by wireless or wired communication, so that the user can easily grasp the measured value of the IoT sensor 10 through the user terminal 30. .

The user terminal 30 may include all of a variety of well-known terminals such as a general PC, tablet, and smartphone, and transmits and receives to the IoT server 20 through wireless or wired communication so that the installation information of the material 1 can be identified.

Figure 2 is a diagram schematically showing a material installation determination method using the material installation determination system using the IoT sensor of the present invention, Figure 3 is a graph showing the change of the altitude sensor measurement value when lifting the material in the present invention , Figure 4 is a graph showing the change in the measurement value of the acceleration sensor when the material is installed in the present invention.

A method for determining material installation using the material installation determination system using the IoT sensor of the present invention will be described in detail with reference to the drawings.

In the material installation determination method using the material installation determination system using the IoT sensor of the present invention, first, the IoT sensor 10 is attached to the material 1 (a).

The altitude sensor 11 and the acceleration sensor 12 of the IoT sensor 10 may be configured separately or two sensors may be configured as a single product. At this time, the altitude sensor 11 and the acceleration sensor 12 are attached to the material 1 before moving the material 1 at the installation site of the material 1 to measure the altitude sensor 11 and the acceleration sensor 12 Set a standard for the value.

As described above, the altitude sensor 11 and the acceleration sensor 12 may be attached to the material 1 at the installation site of the material 1, and materials 1 such as beams and columns are shipped from the factory in advance. After attaching the altitude sensor 11 and the acceleration sensor 12 to one side of the material (1) to ship, remove the altitude sensor 11 and the acceleration sensor 12 from the material (1) at the site and place it in an appropriate position. By moving to and attaching, it is also possible to set the standard of the measured values of the altitude sensor 11 and the acceleration sensor 12.

After that, the material (1) is to be lifted to the installation position (b).

In step (a), the material 1 to which the altitude sensor 11 and the acceleration sensor 12 are attached to the installation position is to lift the material 1 using a tower crane or the like.

At this time, while the material 1 is lifted, the value of the altitude sensor 11 is changed as shown in FIG. 3, and the altitude value is kept constant when the material 1 arrives at the installation position after being lifted.

The material (1) is lifted to start installation.At this time, the altitude sensor 11 can detect the change in the altitude of the material (1), and when the material (1) moves from the second floor to the fourth floor as shown in FIG. When the altitude value changes and the installation of the material (1) starts on the fourth floor, the altitude value remains constant at the height of the fourth floor.

Thereafter, when the altitude sensor 11 detects that the altitude change value is maintained for a certain period of time after the altitude change, the measured altitude value is transmitted to the IoT server 20 and the acceleration value of the acceleration sensor 12 is checked. (c).

When the acceleration value changes under the condition that the material 1 maintains an altitude of a certain height, it is determined that the material 1 is being installed.

The acceleration sensor 12 can grasp the horizontal movement of the material 1 at the time of installation after lifting the material 1 to a specific height. In particular, when pre-fastening the material 1 by a field worker The acceleration sensor 12 recognizes the impact transmitted to the material 1 during provisional fastening, such as steel bolting and material strike, so that the acceleration value can be transmitted to the IoT server 20.

Thereafter, the measured value of the acceleration sensor 12 of the IoT sensor 10 is transmitted to the IoT server 20, and after the user confirms it at the user terminal 30, the change of the acceleration value for a certain time after the change of the acceleration value of the acceleration value is If it does not occur, the information is transmitted to the IoT server 20 and the installation is determined to be terminated (d).

As shown in Fig. 4, the point where the dead speed value is generated under the condition that the material 1 maintains an altitude of a certain height and becomes 0 for a certain period of time, preferably 10 minutes or more, is determined as installation completion, and the installation completion information is IoT To the server 20.

In particular, when it is determined that the installation is complete, the user terminal 30 may be notified by text or a notification using an app, etc., so that the user can easily grasp the installation completion of the material 1.

Finally, the IoT sensor 10 is collected after the installation of the material 1 is completed (e).

The IoT sensor 10 collected in this way may be attached to another material 1 and used again.

The material installation determination system using the IoT sensor of the present invention as described above and the material installation determination method using the same include an altitude sensor and an acceleration sensor attached to the material to update material information in real time through wireless communication, such as determining the installation start and completion of the material. By enabling the accumulation of information and information, it is possible to collect on-site material installation information without additional additional manpower input, and it has an effect that can be used for on-site process management by converting it to BIM process data, and the time required to install each material automatically collected is It has a very useful effect that can be referred to as basis data for productivity calculation by company/process.

Until now, the present invention has been described in detail with reference to the presented embodiments, but those of ordinary skill in the art can make various modifications and modifications without departing from the technical spirit of the present invention with reference to the presented embodiments. will be. The present invention is not limited by such modifications and variations of the invention, but is limited by the claims appended below.

1: material
10: IoT sensor
11: altitude sensor
12: acceleration sensor
20: IoT server
30: user terminal

Claims (4)

IoT sensor 10 consisting of an altitude sensor 11 and an acceleration sensor 12;
An IoT server 20 that receives and stores the value measured by the IoT sensor 10 remotely;
A user terminal 30 connected to the IoT server 20 by wire or wirelessly to monitor the value measured by the IoT sensor 10 in real time; a material installation determination system using an IoT sensor, including. IoT sensor 10 consisting of an altitude sensor 11 and an acceleration sensor 12; An IoT server 20 that receives and stores the value measured by the IoT sensor 10 remotely; Using a material installation determination system using an IoT sensor including a user terminal 30 that is connected to the IoT server 20 by wire or wirelessly to monitor the value measured by the IoT sensor 10 in real time, To determine the installation,
(a) attaching the IoT sensor 10 to the material 1;
(b) When the material (1) is lifted to the installation location, and the altitude change value is detected by the altitude sensor 11, the altitude sensor 11 transmits the measured value to the IoT server 20, and the material from the IoT server 20 (1) determining that the installation is started;
(c) When the altitude sensor 11 detects that the altitude change value is maintained for a certain period of time after the altitude change, the measured altitude value is transmitted to the IoT server 20 and the acceleration value of the acceleration sensor 12 is checked. step;
(d) The measurement value of the acceleration sensor 12 of the IoT sensor 10 is transmitted to the IoT server 20, and after the user confirms it at the user terminal 30, the acceleration value of the acceleration value changes and then the acceleration value changes for a certain time. In the case that does not occur, transmitting the information to the IoT server 20 and determining that the installation is complete;
(e) collecting the IoT sensor 10 after the installation of the material 1 is completed; a material installation determination method using a material installation determination system using an IoT sensor, characterized in that it comprises. The method according to claim 2,
In step (a),
When the material (1) is shipped from the factory, an altitude sensor (11) and an acceleration sensor (12) are attached to one side of the material (1) to be shipped, and then the altitude sensor (11) and an acceleration sensor are attached to the material (1) at the site. (12) A material installation determination method using a material installation determination system using an IoT sensor, characterized in that after removing it, moving it to an appropriate position and attaching it. The method according to claim 2,
In step (d),
When it is determined that the installation is finished, the material installation determination method using a material installation determination system using an IoT sensor, characterized in that transmitting a notification to the user terminal (30).

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