KR102489792B1 - Managing method of anchor bolt for appratus installation and managing system of anchor bolt for appratus installation - Google Patents

Abstract

The present invention relates to a method for managing anchor bolts for apparatus installation, which manages anchor bolts for installing apparatuses in a building, to enable a worker to manage apparatuses easily and accurately. According to the present invention, the method comprises the steps of: providing, to a management server, installation anchor bolt management items including the type, size, fastening method, installation number, installation location, presence or absence of a concrete bed, embedment depth, and edge distance of anchor bolts corresponding to an installed apparatus; providing, to the management server, apparatus management events including scheduled removal time, replacement time, inspection time, and repair time of the apparatus; storing the installation anchor bolt management items and the apparatus management events in a database of the management server; when one of the apparatus management events arrives occurs, notifying, by the management server, a user terminal of occurrence and simultaneously transmitting the installation anchor bolt management item; and providing, by the user terminal, the installation anchor bolt management items to a worker.

Description

Anchor bolt management method for device installation and anchor bolt management system for device installation

The present invention relates to a method for managing anchor bolts for device installation and an anchor bolt management system for device installation. It relates to an anchor bolt management method for equipment installation and an anchor bolt management system for equipment installation that enable maintenance work to be performed.

When installing equipment in a building such as a power plant, a fastening member such as an anchor bolt is used to fix the equipment to the building or the floor of the building (see Utility Model Registration No. 20-0301013).

After a certain period of time has elapsed since the device was installed in the building, the device can be replaced or removed, and the installation status of the device can be checked or repaired. When this event occurs, the anchor bolts used can be loosened, replaced or inspected.

However, it may be difficult to manage the device if a long time has passed since the installation of the device or if information related to the device installation has not been properly handed over from the predecessor.

In order to solve this problem, an anchor bolt management method for device installation that databases information related to anchor bolts used at the time of device installation and provides the fact of arrival and databased information when an event related to device management arrives, and The need for an anchor bolt management system for equipment installation is emerging.

The problem to be solved by the present invention is to store installation anchor bolt management items and device management events in the DB of the management server, and when any one of the device management events arrives, notify the user terminal of the arrival and simultaneously install anchor bolts. Anchor bolt management method for device installation and device installation that enable easy and accurate device management even when a long time has passed since device installation or when information related to device installation has not been properly handed over from a predecessor by sending management items. It is to provide an anchor bolt management system.

The problems to be solved by the present invention are not limited to the above-mentioned problems, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

A method for managing anchor bolts for device installation according to an embodiment of the present invention for solving the above problems is a method for managing anchor bolts for device installation that manages anchor bolts used to install devices in a building. A step of providing anchor bolt management items including the type, size, fastening method, installation number, installation location, presence of concrete bed, embedding depth and edge distance of anchor bolts corresponding to the management server, and demolition time of the scheduled device , providing device management events including replacement time, inspection time, and maintenance time, storing installation anchor bolt management items and device management events in the DB of the management server, and the management server is responsible for any one of the device management events. arrives, notifying the user terminal of the fact of arrival and simultaneously transmitting the installation anchor bolt management items, and providing the user terminal with the installation anchor bolt management items to the operator.

An anchor bolt management system for device installation according to an embodiment of the present invention for solving the above problems is an anchor bolt management system for device installation that manages anchor bolts used to install devices in a building, and is an anchor corresponding to the installed device. Anchor bolt management items including bolt type, size, fastening method, installation number, installation location, presence of concrete bed, embedment depth and edge distance, and scheduled device removal time, replacement time, inspection time, and repair time, including An input terminal that inputs a device management event, an anchor bolt management item provided by the input terminal, and a device management event are stored in the DB. It includes a management server that transmits, and a user terminal that provides anchor bolt management items to a worker after receiving the fact of arrival and anchor bolt management items transmitted by the management server.

According to the present invention, by managing anchor bolt information used to install devices in a building, an anchor bolt management method for device installation and device installation that allows a worker to easily and accurately perform demolition, replacement, inspection, and maintenance of devices Anchor bolt management system can be provided.

1 is a conceptual diagram of a basic operation of an anchor bolt management system for device installation according to an embodiment of the present invention.
2 is a conceptual diagram of an additional operation of the anchor bolt management system for device installation according to an embodiment of the present invention.
3 is a functional block diagram of a management server.
4 is a flowchart of a method for managing anchor bolts for device installation according to an embodiment of the present invention.

The present invention is not limited to the embodiments disclosed below, but will be embodied in a variety of different forms, only these embodiments make the disclosure of the present invention complete, and those skilled in the art in the art to which the present invention pertains It is provided to fully inform the person of the scope of the invention.

In this specification, singular forms also include plural forms unless specifically stated otherwise in a phrase. As used herein, “comprises” and/or “comprising” do not preclude the presence or addition of one or more other components, steps, and operations to the stated components, steps, and operations.

Referring to FIG. 1, an anchor bolt management system for device installation according to an embodiment of the present invention will be described. 1 is a conceptual diagram of a basic operation of an anchor bolt management system for device installation according to an embodiment of the present invention.

Referring to FIG. 1 , an anchor bolt management system for device installation according to an embodiment of the present invention is an anchor bolt management system for device installation that manages anchor bolts used to install devices in a building.

An anchor bolt management system for installing such a device includes an input terminal 20 , a management server 10 and a user terminal 30 .

The input terminal 20 is a terminal that provides information necessary for managing anchor bolts for device installation to the management server 10 .

The input terminal 20 is not limited as long as it is a device capable of transmitting information to the outside through communication, such as a smart phone, a desktop, or a smart watch.

Specifically, the input terminal 20 inputs anchor bolt management items including the type, size, fastening method, installation number, installation location, concrete bed presence, embedding depth and edge distance of anchor bolts corresponding to the device, Anchor vault management items may be transmitted to the management server 10 .

In order to install the equipment within the building, the equipment can be fixed within the building using anchor bolts. At this time, the type of anchor bolt used, size, fastening method, number of installations, installation location, existence of concrete bed, embedded depth and edge distance Install the anchor bolt management item.

A worker or the like may transmit these installation anchor bolt management items to the management server 10 using the input terminal 20 .

In addition, the input terminal 20 may input a device management event including a device removal time, replacement time, inspection time, and maintenance time, so that the device management event is transmitted to the management server 10 .

After a device is installed in a building, inspection and maintenance may be required for the installed device, and after a certain period of time, the installed device may be removed and replaced with a new device.

Such demolition, replacement, inspection, and repair can be viewed as events, and event management is required for continuous use of the device. can be sent to

The management server 10 is a server that stores anchor bolt management items and device management events, and when any one of the device management events arrives, notifies the arrival and simultaneously transmits the anchor bolt management items to the user terminal 30. .

Specifically, the input terminal 20 provides installation anchor bolt management items and scheduled device management events corresponding to installed devices to the management server 10, and the management server 10 provides the provided installation anchor bolt management items and device management events. Can be stored in the DB (70).

In addition, when any one of the scheduled device management events arrives, the management server 10 notifies the user terminal 30 of the arrival and simultaneously transmits an installation anchor bolt management item.

By doing this, the worker or manager can recognize that the demolition time, replacement time, inspection time, and repair time for the previously used anchor bolts have arrived, and can determine that the anchor bolts need to be managed.

In addition, the operator or manager can know information on anchor bolts used at the time of installing the device in the past through the received installation anchor bolt management items, so anchor bolt management becomes easy.

The user terminal 30 is a terminal that provides anchor bolt management items to a worker after receiving the arrival of an event transmitted by the management server 10 and anchor bolt management items.

The user terminal 30 is not limited as long as it is a device capable of receiving information from the outside 50 through communication, such as a smart phone, desktop, or smart watch.

A worker or a manager can know information on anchor bolts used in the past when installing the device through the user terminal 30, and thus anchor bolt management becomes easy.

For example, when an anchor bolt used in an installed device needs to be replaced, the operator can easily determine the type of anchor bolt used in the past through the user terminal 30, so that the replacement work can be performed easily and quickly.

Therefore, even if a maintenance period arrives after a long period of time has elapsed after the installation of the device, or even if the handover from the predecessor does not work well, the worker in charge can smoothly replace the anchor bolt.

In the above, each configuration of the anchor bolt management system for device installation according to an embodiment of the present invention has been looked at. Hereinafter, with reference to FIGS. 2 and 3, additional operations of each component of the anchor bolt management system for device installation will be described. 2 is a conceptual diagram of an additional operation of the anchor bolt management system for device installation according to an embodiment of the present invention. 3 is a functional block diagram of a management server.

Referring to FIGS. 2 and 3 , the management server 10 may be a kind of big data server and may collect big data from the outside 50 through a network. At this time, the external 50 may mean a device or system that stores information and provides information through communication, such as a cloud server, an external server, and a terminal.

In addition, the management server 10 utilizes a communication module 60 for transmitting and receiving information with the input terminal 20, the user terminal 30, and the outside 50, a DB 70 for storing received information, and big data. and a management module 80 that performs machine learning.

The management server 10 may utilize big data and perform machine learning to generate anchor bolt information required to install a new device when replacing a device, that is, a replacement anchor bolt management item.

Specifically, when the input terminal 20 inputs a replacement device, the management server 10 may collect installation requirements for the replacement device through a network.

Here, the installation requirements of the replacement device include the type of anchor bolts required when installing the device, the required number of specific anchor bolts, the need for a concrete bed, the type of ground for installation, and the shape of the installation terrain.

Next, the management server 10 may receive installation information of the replacement device from the camera 40 installed at the installation location of the replacement device.

The camera 40 may already be installed in the place where the replacement device is to be installed, and the installed camera 40 may take a picture of the installation place and then provide the captured image to the management server 10 .

Through this, the management server 10 may determine the terrain of the installation place, the surrounding environment, and the like.

This installation location may be a location where the device has already been installed, that is, a location where only the device is replaced and there is no change in location, or a new installation location other than the existing installation location.

At this time, if there is no change in the place, it is possible to grasp the change in the topography or the surrounding environment through the captured image of the camera 40, and accordingly, information on the anchor bolt required for installation may be changed.

Next, the management server 10 collects big data related to the case of installing a device through an anchor bolt from the outside 50 through the network, performs machine learning using the big data, and requests installation of a replacement device. A replacement anchor bolt management item corresponding to the replacement device may be created by applying the installation location information of the replacement device and the replacement device.

When a device is installed in a building through a network, the management server 10 determines the type of anchor bolt used according to the type of device, the place where the device is installed, the number of anchor bolts used, and the installation type/condition of the anchor bolt. Relevant big data can be collected.

The management server 10 performs machine learning using the collected big data, and applies the provided replacement device installation requirements and replacement device installation location information to determine the optimal replacement anchor bolt management items corresponding to the replacement device. can create

Next, when the replacement time arrives, the management server 10 may notify the user terminal 30 of the arrival and transmit replacement anchor bolt management items at the same time.

In this way, since the management server 10 provides the optimal replacement anchor bolt management item to the operator or manager, the operator can easily and completely replace the device.

In the above, the management server 10 has looked at the process of generating replacement anchor bolt management items. Hereinafter, a process of modifying a scheduled event timing by the management server 10 by performing machine learning using big data will be described.

The management server 10 may collect environment information of a place where the device is installed through a network.

The management server 10 may collect environmental information such as climate, weather, and surrounding conditions of a place where the device is installed through a network.

Next, the management server 10 collects big data related to the state of the device according to the environment from the outside 50 through the network, performs machine learning using the big data, and applies the environment information to the device. Demolition time, replacement time, inspection time and repair time can be predicted.

The management server 10 may collect big data related to a change in state of a device, a degree of corrosion, and a change in tightening degree of an anchor bolt according to climate, weather, and surrounding conditions through a network, and collect big data.

The management server 10 may perform machine learning using the collected big data and apply the collected environmental information to predict the optimal demolition time, replacement time, inspection time, and maintenance time corresponding to the device.

Next, the management server 10 may modify the time of the device management event stored in the DB 70 when the predicted time and the stored time are different.

In this way, instead of waiting until a formally scheduled time to manage the device and anchor bolt, management can be performed at the time when it is actually needed, so that the device can be safely managed and related safety accidents can be prevented.

So far, we have looked at the process of modifying the timing of scheduled events by performing machine learning using big data by the management server. Hereinafter, a process in which the management server notifies the replacement necessity of the device in consideration of the radiation dose in relation to the device installed in the nuclear power plant will be described.

First of all, the building where the equipment is installed may be a nuclear power plant.

The management server 10 may receive the radiation dose of the place where the device is installed from the radiation dose measuring device installed in the place where the device is installed.

A radiation dose measuring device may be installed at the place where the device is installed, and the radiation dose measuring device may measure the radiation dose at the place where the device is installed and transmit the measured value to the management server 10 .

Next, the management server 10 collects big data related to the surface contamination of the device according to the radiation dose from the outside through the network, performs machine learning using the big data, and conducts radiation dose, the relationship between the device and the radioactive material. By applying the distance and the size of the equipment installation site, the surface contamination of the equipment can be calculated.

That is, the management server 10 performs machine learning using related big data, and applies radiation dose, the distance between the device and the radioactive material, and the size of the device installation location, which are variables that affect the surface contamination of the device. The degree of contamination of the surface of the device can be calculated.

Next, when the calculated surface contamination level exceeds the reference value, the management server 10 may notify the user terminal 30 of the need to replace the device and transmit an installation anchor bolt management item at the same time.

The management server 10 may compare the calculated surface contamination with a predetermined reference value, and when the calculated surface contamination exceeds the reference value, it may notify that a device installed in the user terminal 30 needs to be replaced.

Also, at this time, since information on anchor bolts that have already been used may be required to replace a device, the management server 10 may transmit installation anchor bolt management items to the user terminal 30 .

In the above, the anchor bolt management system for device installation according to an embodiment of the present invention has been described. Hereinafter, referring to FIG. 4 , a method for managing anchor bolts for device installation according to an embodiment of the present invention will be described. 4 is a flowchart of a method for managing anchor bolts for device installation according to an embodiment of the present invention.

Referring to FIG. 4 , a method for managing anchor bolts for device installation according to an embodiment of the present invention is a method for managing anchor bolts used for installing devices in a building.

The anchor bolt management method for installing such devices is a management server, and manages the anchor bolts installed, including the type, size, fastening method, installation number, installation location, concrete bed presence, embedding depth, and edge distance of anchor bolts corresponding to the installed devices. Step of providing an item (S10), step of providing a device management event including demolition time, replacement time, inspection time, and maintenance time of scheduled devices to the management server (S20), anchor bolt management installed in the DB of the management server Storing items and device management events (S30), the management server, when any one of the device management events arrives, notifies the user terminal of the fact of arrival and at the same time transmits an installation anchor bolt management item (S40); And the user terminal includes a step (S50) of providing an installation anchor bolt management item to the operator.

The management server provides installation anchor bolt management items including the type, size, fastening method, installation number, installation location, concrete bed presence, embedding depth and edge distance of anchor bolts corresponding to the installed equipment (S10) , The operator or manager, through the input terminal, install anchor bolt management items including the type, size, fastening method, installation number, installation location, presence of concrete bed, embedding depth and edge distance of anchor bolts used for equipment installation, It can be provided to the management server 10.

In step S20 of providing a device management event including the demolition time, replacement time, inspection time, and maintenance time of the scheduled device to the management server, the scheduled demolition time, replacement time, inspection time, and maintenance time for each installed device are determined. may exist, and a worker or manager may provide a device management event including scheduled device demolition time, replacement time, inspection time, and maintenance time to the management server 10 through the input terminal 20 .

In the step of storing the installation anchor bolt management items and device management events in the DB of the management server (S30), the management server receives the installation anchor bolt management items and device management events from the input terminal 20, etc., and then stores these information. It can be stored in DB (70).

When any one of the device management events arrives, the management server notifies the user terminal of the arrival and simultaneously transmits the installation anchor bolt management item (S40), the management server 10 determines which one of the stored device management events When one event arrives, the fact of such arrival may be transmitted to the user terminal 30, and an installation anchor bolt management item may be transmitted at the same time.

In step S50 of providing the user terminal with installation anchor bolt management items to the operator, the operator can recognize the installation anchor bolt management items displayed by the user terminal 30 .

By doing this, the operator can prepare for device management in advance, and since the type of anchor bolt used in the past can be easily identified through the user terminal 30, replacement work can be made easy and fast.

Additionally, the management server 10 may utilize big data and perform machine learning to generate anchor bolt information required to install a new device when a device is replaced, that is, a replacement anchor bolt management item.

That is, in the anchor bolt management method for device installation according to an embodiment of the present invention, the management server 10 collects installation requirements for the replacement device through the network when the input terminal 20 inputs the replacement device, and the replacement device Receiving installation information of a replacement device from the camera 40 installed at the installation location of the device, collecting big data related to the case of installing the device through an anchor bolt from the outside 50 through the network, and using the big data Machine learning is performed, and replacement anchor bolt management items corresponding to the replacement device are created by applying the installation requirements of the replacement device and information on the installation location of the replacement device, and when the replacement time arrives, the user terminal 30 arrives. The method may further include notifying the fact and simultaneously transmitting replacement anchor bolt management items.

Additionally, the management server 10 may perform machine learning using big data to modify scheduled event timing.

That is, in the anchor bolt management method for device installation according to an embodiment of the present invention, the management server 10 collects environment information of the place where the device is installed through a network, and the device according to the environment from the outside 50 through the network. Collect big data related to the condition of the machine, perform machine learning using big data, and apply environmental information to predict the demolition time, replacement time, inspection time, and repair time for the device, and predict the predicted time and stored data. If the timing is different, a step of modifying the timing of the device management event stored in the DB 70 may be further included.

Additionally, in relation to devices installed in a nuclear power plant, the management server may notify the necessity of device replacement in consideration of radiation dose.

That is, in the anchor bolt management method for device installation according to an embodiment of the present invention, the management server 10 receives the radiation dose at the place where the device is installed from the radiation dose measuring device installed at the place where the device is installed, and externally through the network. Collect big data related to the surface contamination of the device according to the radiation dose from the device, perform machine learning using the big data, apply the radiation dose, the distance between the device and the radioactive material, and the size of the device installation place, The method may further include calculating a surface contamination degree for the surface contamination and, when the calculated surface contamination degree exceeds a reference value, notifying the user terminal 30 of the need to replace the device and simultaneously transmitting an installation anchor bolt management item.

Although the embodiments of the present invention have been described with reference to the accompanying drawings, those skilled in the art can realize that the present invention can be implemented in other specific forms without changing the technical spirit or essential features. you will be able to understand Therefore, the embodiments described above should be understood as illustrative in all respects and not limiting.

10: management server 20: input terminal
30: user terminal 40: camera
50: external 60: communication module
70: DB 80: management module

Claims (8)

Providing, with a management server, anchor bolt management items including the type, size, fastening method, installation number, installation location, concrete bed presence, embedding depth and edge distance of anchor bolts corresponding to installed devices; providing, to the management server, a device management event including scheduled demolition time, replacement time, inspection time, and maintenance time of the device; storing the installation anchor bolt management items and device management events in a DB of the management server; When any one of the device management events arrives, the management server notifies the user terminal of the event and transmits the installation anchor bolt management item at the same time; and providing, by the user terminal, the installation anchor bolt management items to a worker, and managing anchor bolts used to install devices in a building. As an anchor bolt management method for device installation,

When the input terminal inputs a replacement device, the management server collects installation requirements of the replacement device through a network, receives installation information of the replacement device from a camera installed at an installation location of the replacement device,
Collecting big data related to cases of installing devices through anchor bolts from the outside through the network,
Machine learning is performed using the big data, and replacement anchor bolt management items corresponding to the replacement device are created by applying the installation requirements of the replacement device and information on the installation location of the replacement device;
and when the replacement time arrives, notifying the user terminal of the arrival and simultaneously transmitting the replacement anchor bolt management item.
delete delete According to claim 1,
The building is a nuclear power plant,
The management server receives the radiation dose of the place where the device is installed from a radiation dose measuring device installed at the place where the device is installed,
Collect big data related to the surface contamination of devices according to radiation dose from the outside through the network,
Machine learning is performed using the big data, and surface contamination of the device is calculated by applying the radiation dose, the distance between the device and the radioactive material, and the size of the device installation place,
A method for managing anchor bolts for device installation, further comprising notifying the user terminal of a need for replacement of the device and simultaneously transmitting the installation anchor bolt management items when the calculated surface contamination level exceeds a reference value.
Anchor bolt management items including type, size, fastening method, installation number, installation location, presence of concrete bed, embedding depth and edge distance of anchor bolts corresponding to the installed equipment, and scheduled removal time, replacement time, and inspection of the above equipment an input terminal for inputting a device management event including time and maintenance time; a management server that stores the anchor bolt management items and device management events provided by the input terminal in a DB, and when any one of the device management events arrives, notifies the arrival and simultaneously transmits the anchor bolt management items; and a user terminal for providing the anchor bolt management items to a worker after receiving the fact of arrival and anchor bolt management items transmitted by the management server, and managing anchor bolts used to install devices in a building. As an anchor bolt management system for device installation,

When the input terminal inputs a replacement device, the management server collects installation requirements of the replacement device through a network, receives installation information of the replacement device from a camera installed at an installation location of the replacement device,
Collecting big data related to cases of installing devices through anchor bolts from the outside through the network,
Machine learning is performed using the big data, and replacement anchor bolt management items corresponding to the replacement device are created by applying the installation requirements of the replacement device and information on the installation location of the replacement device;
When the replacement time arrives, the user terminal is notified of the arrival and at the same time the replacement anchor bolt management item is transmitted.
delete delete According to claim 5,
The building is a nuclear power plant,
The management server receives the radiation dose of the place where the device is installed from a radiation dose measuring device installed at the place where the device is installed,
Collect big data related to the surface contamination of devices according to radiation dose from the outside through the network,
Machine learning is performed using the big data, and surface contamination of the device is calculated by applying the radiation dose, the distance between the device and the radioactive material, and the size of the device installation place,
An anchor bolt management system for device installation, wherein when the calculated surface contamination exceeds the reference value, the need for replacement of the device is notified to the user terminal and an anchor bolt management item is transmitted at the same time.

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