WO2021091187A1

WO2021091187A1 - Stainless steel water tank monitoring management system and management method

Info

Publication number: WO2021091187A1
Application number: PCT/KR2020/015181
Authority: WO
Inventors: 박춘욱
Original assignee: 경북대학교 산학협력단
Priority date: 2019-11-08
Filing date: 2020-11-03
Publication date: 2021-05-14
Also published as: KR102100899B1

Abstract

The present invention relates to a stainless steel water tank monitoring management system and a monitoring management method using same. According to the present invention, disclosed is a technique comprising: an external force detection unit including an external force detection sensor for sensing the external force received by a stainless steel water tank; a tilt detection unit including a tilt detection sensor for sensing the tilt of the stainless steel water tank; and a monitoring server, which receives tilt detection information about the tilt of the stainless steel water tank from the tilt detection unit, receives, from the external force detection unit, external force detection information including the magnitude or the acting direction of the external force received by the stainless steel water tank, so as to determine the state of the stainless steel water tank, and generates monitoring information about the stainless steel water tank according to the determined result, and thus the location on the stainless steel water tank to which the external force is applied, the location and cause of ground subsidence, or whether a water leak exists and the location thereof can be quickly detected, so that a preemptive countermeasure can be taken before cracks occur on the stainless steel water tank and the convenience and efficiency of management can be improved.

Description

Stainless steel water tank monitoring management system and management method

The present invention relates to a stainless water tank monitoring management system and a management method for monitoring and maintaining the state of a stainless water tank buried in the ground or installed on the ground.

Water tanks or storage tanks are often used to supply more stable and smooth water such as village tap water or industrial water. This water tank is provided with an internal storage space that is isolated from the outside in order to store a predetermined amount or more of water supplied using a pump.

A water tank storing a large amount of water is required to be structurally stable. In particular, the state management of the water tank is important because stable water supply management is possible only when the water tank is not damaged by external force. Therefore, for the solidity of the water tank, the water tank installed in the ground is constructed with concrete as the main material.

In order to prevent the water tank from being damaged by external force, technologies such as Korean Patent No. 10-1500632 (name of the invention: water tank level control system that improves resistance to lateral loads; hereinafter referred to as prior art) have also been proposed. . The prior art discloses a technology capable of adjusting the water level inside the water tank in order to improve the resistance of the water tank against lateral loads.

However, it is also important to ensure resistance to lateral loads, but observation and management of the state of the water tank are important for preventing accidents. In particular, if the water tank is receiving an external force such as strong wind power or earth pressure such as a typhoon, it is a technology that monitors the condition of the water tank so that it can preemptively respond to what part of the external force is receiving the amount of external force. Is required.

Since stainless steel water tanks installed on the ground or underground are huge, it takes a lot of time for the manager to inspect and check all parts that require preventive inspection. Especially, when a stainless steel water tank is installed underground, it is very difficult for the manager to observe directly. More and more, there is a need for a technology capable of monitoring the condition of the stainless steel water tank.

[Prior technical literature]

[Patent Literature]

(Patent Document 1) Korean Patent Registration No. 10-1676999

(Patent Document 2) Korean Patent Registration No. 10-1500632

An object of the present invention is to solve the conventional problems as described above, the location and size of the stainless water tank on which an external force such as earth pressure or strong wind power such as a typhoon is applied to the stainless steel water tank, and ground subsidence occurs under the stainless steel water tank. The objective is to provide a stainless steel tank monitoring management system and management method that provides monitoring information to determine whether or not to take preemptive countermeasures.

The stainless steel water tank monitoring management system according to an embodiment of the present invention for achieving the above object is an external force sensing sensor disposed on the outer surface of the stainless water tank to sense an external force received by the stainless water tank. part; A tilt detection unit including at least one tilt detection sensor disposed on an upper end or an upper surface of the stainless steel water tank to sense a tilt of the stainless steel water tank; Receives inclination sensing information about the inclination of the stainless steel water tank from the inclination sensing part side, and external force sensing information including the magnitude of the external force received by the stainless steel water tank from the external force sensing part or the direction of action of the external force. It may be characterized as one of the features including a; a monitoring server that receives the received, determines the state of the stainless steel water tank, and generates monitoring information on the stainless steel water tank according to the determined result.

Here, a leak detection unit including a leak detection sensor disposed at the junction of the stainless steel water tank to detect whether or not the water stored in the stainless steel tank leaks, wherein the monitoring server is detected by the leak detection unit. Another feature may be that the leak detection information is received and generated by including in the monitoring information whether a leak occurs at the junction of the stainless water tank.

Here, the monitoring server includes: a communication unit receiving the external force sensing information or the tilt sensing information; A determination control unit that receives the external force detection information and the tilt detection information received from the communication unit, compares it with a reference value, determines whether to output an external force warning or an external force alarm for the stainless steel tank, and generates the monitoring information; A storage unit for storing the external force sensing information, the tilt sensing information, or the monitoring information according to the control of the determination control unit; And an output unit that receives the monitoring information from the determination control unit and outputs it to the outside.

Here, the plurality of external force sensing sensors included in the external force sensing unit include a plurality of external force sensing sensors disposed on the outer surface of the stainless steel water tank at the same height from the lower end of the stainless water tank. In addition, the external force sensing unit includes a plurality of the external force sensing crews, and the plurality of external force sensing crews are disposed on the outer surface of the stainless steel water tank so as to have a height difference between the external force sensing crews and the neighboring external force sensing crews at a predetermined interval. It can also be characterized by.

Here, the determination control unit, the external force sensed by the external force detection sensor is greater than the external force reference value, but less than a certain level compared to the inner hardness of the stainless steel water tank, and the slope detected by the tilt sensor is horizontal within an error range. In this case, it may be determined that the external force is applied to the stainless water tank, and the monitoring information may include a position where the external force is applied.

Here, the determination control unit, after determining that the external force sensed by the external force sensing sensor is greater than or equal to a caution reference value, and the tilt of the stainless steel tank detected by the inclination sensing sensor is horizontal within an error range, the inclination sensing sensor When the slope of the stainless steel water tank detected by is more than a certain size, the monitoring information includes the content determined that the ground under the stainless steel water tank has settled by the external force, and the output unit controls to output the external force warning. It can also be characterized as another feature.

Here, the reference value may be a value corresponding to 75% of the inner hardness of the wall of the stainless steel water tank may be another feature.

Here, the determination and control unit compares the external force sensing information with a preset alarm threshold value, and determines that the magnitude of the external force is greater than or equal to the alarm threshold value. Another feature is that the position at which the external force is sensed and the content determined that ground subsidence has occurred at the bottom of the stainless steel water tank by the external force are included in the monitoring information, and the output unit is controlled to output the external force alarm. have.

Here, the alarm reference value may be a value corresponding to 85% of the inner hardness of the wall of the stainless steel water tank may be another feature.

Here, it may further include a water quality sensor for sensing the water quality state of the water stored in the stainless steel water tank.

Here, a data logger that receives the external force sensing information from the external force sensing unit, receives the gradient sensing information from the gradient sensing unit, and transmits the information to the monitoring server; may be further characterized by further comprising a.

A stainless water tank monitoring management method using a stainless water tank monitoring management system according to an embodiment of the present invention for achieving the above object is an external force applied to the stainless water tank by an external force sensing sensor disposed on the outer surface of the stainless water tank. A sensing step of sensing a tilt of the stainless steel water tank and sensing a tilt of the stainless steel water tank by a tilt detection sensor disposed on the upper or upper surface of the stainless steel water tank; The monitoring server determines the state of the stainless steel tank based on the external force sensing information obtained by sensing the external force sensing sensor in the sensing step and the slope sensing information obtained by sensing the inclination sensing sensor. A comparison and determination step of generating monitoring information for the stainless steel water tank; And an information providing step of providing an administrator to recognize the monitoring information generated by the monitoring server in the comparison and determination step. It may be characterized as one including a.

Here, in the detection step, a leak detection sensor disposed at the junction of the stainless water tank senses whether water stored in the stainless water tank is leaking, and in the comparison and determination step, the monitoring server detects in the leak detection unit. Another feature may be that the water leakage detection information obtained is received and the monitoring information includes whether or not water leakage occurs at the junction of the stainless steel water tank.

Here, in the comparison and judgment step, the external force detection information is compared with a preset external force reference value, and the magnitude of the external force is greater than the external force reference value, but is less than a certain level compared to the internal hardness of the stainless steel water tank, and detected by the tilt detection information. If the inclination is horizontal within the error range, it may be determined that an external force is applied to the stainless steel water tank, and the monitoring information may include a position to which the external force is applied.

Here, in the comparison and determination step, when it is determined that the magnitude of the external force is equal to or greater than the caution reference value by comparing the external force sensing information with a preset caution reference value, the monitoring information includes a position at which an external force greater than the caution reference value is detected, In the information providing step, another feature may be to output an external force warning so that the manager can recognize it.

Here, in the comparison and determination step, when the magnitude of the external force is determined to be greater than or equal to the caution reference value by comparing the external force sensing information with a preset caution reference value, and if the slope detected by the slope detection information is greater than a certain magnitude, the caution reference value Include in the monitoring information the location where the above external force was sensed and the content determined that ground subsidence has occurred at the bottom of the stainless steel water tank by the external force, and output an external force warning so that the manager can recognize it in the information providing step. It can be another feature.

Here, in the comparison and determination step, when the external force detection information is compared with a preset alarm reference value, it is determined that the magnitude of the external force is equal to or greater than the alarm reference value, and if the slope detected by the slope detection information is more than a predetermined size, the alarm reference value Include in the monitoring information the location where the above external force was sensed and the content determined that ground subsidence has occurred at the bottom of the stainless steel water tank by the external force, and output an external force alarm so that the manager can recognize it in the information providing step. It can be another feature.

Since the stainless water tank monitoring management system according to the present invention can quickly identify the location and cause of the ground subsidence or the location where an external force is applied to the stainless water tank, preemptive precautionary measures are taken before damage to the stainless water tank occurs. It is possible, and there is an effect that can improve the convenience and efficiency of the stainless steel water tank management.

1 and 2 are conceptual diagrams schematically showing a stainless water tank monitoring management system according to an embodiment of the present invention.

3 is a plan view schematically illustrating a stainless water tank in a stainless water tank monitoring management system according to an embodiment of the present invention.

4 and 5 are side views schematically showing the side of the stainless steel water tank in the stainless water tank monitoring management system according to an embodiment of the present invention.

6 is a block diagram schematically showing a monitoring server of a stainless water tank monitoring management system according to an embodiment of the present invention.

7 is a flowchart schematically showing a management method using a stainless water tank monitoring management system according to an embodiment of the present invention.

Hereinafter, a preferred embodiment will be described with reference to the accompanying drawings so that the present invention may be more specifically understood.

In the present invention, various changes may be made and various embodiments may be provided, and specific embodiments will be illustrated in the drawings and described in detail. However, this is not intended to limit the present invention to a specific embodiment, it should be understood to include all changes, equivalents, and substitutes included in the spirit and scope of the present invention.

Terms such as first and second may be used to describe various elements, but the elements should not be limited by the terms. The above terms are used only for the purpose of distinguishing one component from another component. For example, without departing from the scope of the present invention, a first element may be referred to as a second element, and similarly, a second element may be referred to as a first element. The term and/or includes a combination of a plurality of related listed items or any of a plurality of related listed items.

When a component is referred to as being "connected" or "connected" to another component, it is understood that it may be directly connected or connected to the other component, but other components may exist in the middle. It should be. On the other hand, when a component is referred to as being "directly connected" or "directly connected" to another component, it should be understood that there is no other component in the middle.

The terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In the present application, terms such as "comprise" or "have" are intended to designate the presence of features, numbers, steps, actions, components, parts, or combinations thereof described in the specification, but one or more other features. It is to be understood that the presence or addition of elements or numbers, steps, actions, components, parts, or combinations thereof does not preclude in advance.

Unless otherwise defined, all terms used herein including technical or scientific terms have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs. Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related technology, and should not be interpreted as an ideal or excessively formal meaning unless explicitly defined in the present application. Does not.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings. In describing the present invention, in order to facilitate an overall understanding, the same reference numerals are used for the same elements in the drawings, and duplicate descriptions for the same elements are omitted.

1 is a conceptual diagram schematically showing a stainless water tank monitoring management system according to an embodiment of the present invention, FIG. 1 is an exemplary view showing a case where a stainless water tank is provided on the ground, and FIG. 2 is a stainless steel water tank in the ground. It shows the case provided as an example. And, Figure 3 is a plan view schematically showing a stainless steel water tank in the stainless steel water tank monitoring management system according to an embodiment of the present invention.

1 to 3, a stainless water tank monitoring management system according to an embodiment of the present invention includes an external force sensing unit, a tilt sensing unit, and a monitoring server 100, and may further include a leak sensing unit. Here, the data logger 200 may be further included.

The external force sensing sensor 400 is disposed on the outer surface of the stainless water tank TK installed in the ground to sense the external force received by the stainless water tank TK. A plurality of such external force sensing sensors 400 are provided on the outer surface of the stainless water tank TK, and a plurality of external force sensing sensors 400 are included in the external force sensing unit.

The external force sensing sensor 400 may be used as the external force sensing sensor 400 if it is a sensor capable of sensing an external force such as an acceleration sensor or a pressure sensor. Here, the external force sensing information refers to information sensed by the external force sensing sensor 400. And, it is preferable that each of the plurality of external force sensing sensors 400 is managed by being assigned a unique identification number. Since the positions in which the external force sensing sensors 400 are arranged are different, it is possible to know the external force sensing value measured at which part of the stainless steel water tank TK through the unique identification number.

Here, the description of the external force sensing sensor 400 will be continued with further reference to FIGS. 4 and 5.

4 and 5 are side views schematically showing a side of a stainless water tank in a stainless water tank monitoring management system according to an embodiment of the present invention, and FIG. 4 exemplarily shows a case where a stainless water tank is installed on the ground, 5 shows an example of a case where a stainless steel water tank is installed in the ground.

4 and 5, a plurality of external force sensing sensors 400 included in the external force sensing unit are disposed on the outer surface of the stainless water tank TK at the same height from the lower end of the stainless water tank TK. The external force sensing sensor 400 forms one external force sensing crew. One or a plurality of such external force sensing crews may be provided.

In FIG. 4 or 5, it is exemplarily shown that three external force sensing crews are provided in a stainless water tank (TK). The external force sensing crew at the bottom of the stainless water tank (TK) is called the first external force sensing crew (CR1), and as it goes upward, it can be sequentially divided into the second external force sensing crew (CR2) and the third external force sensing crew (CR3). have. And, as referred to in the drawings, it is preferable that a plurality of external force sensing sensors 400 are spaced apart from each other at equal intervals within one external force sensing crew.

In this way, the external force sensing unit includes a large number of external force sensing crews (CR1, CR2, CR3), and the plurality of external force sensing crews are stainless steel tanks to have a height difference between adjacent external force sensing crews (CR1, CR2, CR3) and a certain distance. It is also preferable that it is arranged on the outer surface of (TK).

In the drawing, it is shown by way of example that 8 external force sensing sensors 400 are included in each external force sensing crew (CR1, CR2, CR3). Each of the external force sensing sensors 400 independently senses an external force applied to a position disposed in the stainless water tank TK.

Basically, the external force sensing sensor 400 detects the magnitude of the external force, and it is preferable that the external force can also sense the direction in which the external force acts.

In this way, when the external force sensing sensor 400 is disposed on the outer surface of the stainless water tank TK, it can be grasped to which part of the stainless water tank TK the external force is applied.

The tilt sensor 300 is disposed on the upper or upper surface of the stainless water tank TK to sense the tilt of the stainless water tank TK. One or more of these tilt detection sensors 300 may be disposed, and are included in the tilt detection unit. Here, the tilt detection information refers to information on the tilt of the stainless water tank TK sensed by the tilt detection sensor 300.

The external force sensing information from the external force sensing unit may be directly transmitted to the monitoring server 100, or the inclination sensing information may be directly transmitted to the monitoring server 100 from the inclination sensing unit.

Alternatively, the external force sensing information is transmitted from the external force sensing unit to the data logger 200, and the tilt sensing information is transmitted from the inclination sensing unit to the data logger 200, and then the external force sensing information and the inclination sensing information are transmitted to the monitoring server 100. It is also possible enough.

One or more leak detection sensors 500 are disposed at the junction WL of the stainless water tank TK, and senses whether or not water leaks occur at the junction WL. Particularly, the joint WL is a part prone to leakage due to repetition of contraction and expansion according to temperature change for a long time. Accordingly, the leak detection sensor 500 senses whether or not a leak occurs at the junction WL of the stainless water tank TK, and transmits the leak detection information to the monitoring server 100 side.

If the stainless water tank (TK) is installed on the concrete mount (MT) from the ground, leakage may occur between the bottom of the stainless water tank (TK) and the concrete mount (MT).Therefore, a leak detection sensor at the bottom of the stainless water tank (TK) It is also preferable that 510 is arranged.

The leak detection sensor 510 disposed at the bottom of the stainless water tank TK senses whether there is a leak and transmits the leak detection information to the monitoring server 100 side.

The leak detection information from the leak detection unit may be directly transmitted to the monitoring server 100. Alternatively, a form in which the leak detection information is transmitted to the monitoring server 100 after the leak detection information is transmitted from the leak detection unit to the data logger 200 is also sufficiently possible.

In addition, the leak detection unit includes one or a plurality of such

leak detection sensors

500 and 510.

The data logger 200, which may be further included in the stainless water tank (TK) monitoring management system, receives external force sensing information from the external force sensing unit, receives the gradient sensing information from the slope sensing unit, and transmits it to the monitoring server 100. The data logger 200 may itself store external force sensing information and tilt sensing information.

Here, the description of the monitoring server 100 will be continued with further reference to FIG. 6.

6, the monitoring server 100 receives the tilt detection information for the tilt of the stainless water tank TK from the tilt detection unit side, and the magnitude of the external force or the action direction of the external force received by the stainless steel tank TK. The external force sensing information including the is received from the external force sensing unit and compared with the reference value to generate monitoring information on the state of the stainless steel water tank (TK).

In addition, the monitoring server 100 receives the leak detection information sensed by the

leak detection sensors

500 and 510 from the leak detection unit side. Whether or not there is a leak in the stainless steel water tank (TK) and the location of the leak if there is a leak are included in the monitoring information. In the event of a leak, a leak alarm is provided to the manager along with the location of the leak.

The monitoring information generated by the monitoring server 100 is provided to the manager so that the manager can grasp the state of the stainless water tank TK.

The monitoring server 100 may include a communication unit 120, a determination control unit 110, a storage unit 160, and an output unit 150.

In addition, the monitoring server 100 may further include an input unit 140 and the like. Each of the components included in the monitoring server 100 may be connected by a bus 170 to communicate with each other.

The communication unit 120 receives external force detection information, tilt detection information, or leak detection information. It is also possible to receive direct transmission from the external force detection unit, tilt detection unit, or leakage detection unit, and when the data logger 200 is provided, external force detection information, tilt detection information and leakage detection information are transmitted through communication with the data logger 200 You can also get it.

The external force detection information, tilt detection information, or leak detection information transmitted to the communication unit 120 is transmitted to the determination control unit 110.

The input unit 140 may receive a reference value for the determination and control unit 110 to make a comparison and determination from an administrator.

Here, the reference value compared with the external force detection information is a general term for the external force reference value, which is the standard for determining whether or not an external force is applied, the caution reference value and the alarm reference value, which are the criteria for issuing an external force warning or external force alarm according to the strength of the external force. .

The output unit 150 may output to provide monitoring information to the outside under the control of the processor unit 110.

As the output unit 150, a display device such as a monitor displays the monitoring information generated by the determination control unit 110 so that the administrator can recognize it.

The determination control unit 110 receives the external force detection information and the slope detection information received from the communication unit 120 and compares it with a reference value to determine whether to output an external force warning or an external force alarm for the stainless steel water tank (TK), and monitor information. Create

In addition, the determination and control unit 110 receives the leak detection information received by the communication unit 120 from the communication unit 120, and includes it in the monitoring information.

To this end, the determination control unit 110 may execute a program command stored in the storage unit 160.

The determination control unit 110 receives a reference value for comparison and determination from the input unit 150, compares the reference value and external force detection information, and synthesizes the tilt detection information to determine. And it generates monitoring information including the determined content.

The determination control unit 110 determines that the stainless water tank TK is in a stable and normal state when the external force sensed by the external force sensing unit is less than the reference value and the slope is also horizontal within the error range, and the leak is not detected by the leak sensing unit. .

When the determination control unit 110 determines that the external force sensed by the external force sensing sensor 400 is less than the external force reference value, and the inclination of the stainless steel water tank TK sensed by the tilt sensing sensor 300 is higher than a certain level, the stainless water tank (TK) It is judged that the ground on the lower side has simply subsided. In addition, the monitoring information includes information that a situation in which the ground under the stainless steel water tank (TK) is simply subsided, and external force detection information and slope detection information are included so that the manager can know through the output unit 150.

The determination control unit 110 is that the external force sensed by the external force sensing sensor 400 is greater than the external force reference value, but is less than a certain level compared to the internal hardness of the stainless water tank TK, and the slope detected by the tilt sensing sensor 300 is error. If it is horizontal within the range, it is determined that an external force is applied to the stainless water tank TK. And, the location where the external force is applied is included in the monitoring information.

In addition, the determination control unit 110 determines that the external force sensed by the external force sensing sensor 400 is more than the caution reference value, and that the slope of the stainless steel tank TK sensed by the tilt sensing sensor 300 is horizontal within the error range. If it is determined that the slope of the stainless steel water tank TK sensed by the tilt sensor 300 is greater than a certain size after a certain period of time has elapsed, it is determined that the ground under the stainless water tank TK has settled by an external force. Include in monitoring information.

In addition, the determination control unit 110 controls the output unit 150 to output an external force warning.

Here, the caution reference value is preferably a value corresponding to 75% of the internal hardness of the wall of the stainless water tank TK, and if necessary, the administrator may change the caution reference value through the input unit 140.

In addition, the determination and control unit 110 compares the external force sensing information with a preset alarm threshold value, and determines that the magnitude of the external force is greater than the alarm threshold value. And the content determined that ground subsidence has occurred in the lower side of the stainless steel water tank (TK) by an external force is included in the monitoring information.

Then, the output unit 150 is controlled to output an external force alarm.

Here, the alarm standard value is preferably a value corresponding to 85% of the internal hardness of the wall of the stainless water tank TK, and it is also possible for the administrator to change the alarm standard value through the input unit, if necessary.

The determination control unit 110 may mean a central processing unit (CPU), a graphics processing unit (GPU), or a dedicated processor in which the methods according to the present invention are performed.

The storage unit 160 stores external force detection information, tilt detection information, leak detection information, or monitoring information under the control of the determination control unit 110.

The storage unit 160 may be composed of a volatile storage medium and/or a nonvolatile storage medium, and may store various types of information in order to de-identify data.

The monitoring server 100 may be in the form of a server for business processing of a company, a desktop computer, a laptop computer, a tablet PC, or the like.

In the above stainless steel water tank (TK) monitoring management system, the determination control unit 110 allows the user to recognize the magnitude of the external force and the direction of the external force sensed by each external force sensor 400. It is also possible to model the shape and visually display it through the display device of the output unit 150.

Applied form in which the above stainless water tank (TK) monitoring management system further includes a Brillouin optical sensor disposed in the stainless water tank (TK) to detect whether a crack occurs in the stainless water tank (TK). Also preferred.

In addition, an embodiment in which a water quality sensor for sensing the water quality state of the water stored in the stainless water tank TK is further included in the above stainless water tank TK monitoring management system is also sufficiently possible.

Next, with further reference to FIG. 7, a method for monitoring and managing a stainless water tank using a stainless water tank monitoring management system according to an embodiment of the present invention will be described.

7 is a flow chart schematically showing a stainless water tank monitoring management method using a stainless water tank monitoring management system according to an embodiment of the present invention.

Referring to FIG. 7 further, a method for monitoring and managing a stainless water tank (TK) using a stainless water tank (TK) monitoring management system according to an embodiment of the present invention includes a detection step (S100), a comparison determination step (S200), and information provision. It includes step S300.

<< S100 >>

* In the sensing step (S100), the external force sensing sensor 400 disposed on the outer surface of the stainless water tank (TK) installed in the ground senses the external force applied to the stainless water tank (TK), and the top of the stainless water tank (TK). Alternatively, the tilt detection sensor 300 disposed on the upper surface senses the tilt of the stainless water tank TK.

In addition, in the detection step (S100), a leak detection sensor disposed at the junction of the stainless water tank TK senses whether the water stored in the stainless steel tank leaks. In addition, when the stainless steel water tank (TK) is installed above the concrete mount (MT) from the ground, it senses whether or not water leakage has occurred between the lower end of the stainless water tank (TK) and the concrete mount (MT).

As mentioned above, a plurality of external force sensing sensors 400 independently detect the external force. Since each external force sensing sensor 400 has a position where it is placed, when an external force is sensed, it is determined to which part of the stainless steel water tank TK the external force is applied. In addition, the direction in which the external force acts can be detected.

In this way, the external force sensing information obtained by sensing by the external force sensing sensor 400 and the inclination information obtained by sensing the inclination sensing sensor 300 are directly transmitted to the determination control unit 110 or transmitted to the data logger 200 and then transmitted to the data logger ( It is transmitted to the determination control unit 110 at 200).

The leak detection sensor 500 of the leak detection unit is disposed one or more at the junction WL of the stainless water tank TK, and senses whether a leak occurs at the junction WL. Particularly, the joint WL is a part prone to leakage due to repetition of contraction and expansion according to temperature change for a long time. Accordingly, the leak detection sensor 500 senses whether or not a leak occurs at the junction WL of the stainless water tank TK, and transmits the leak detection information to the monitoring server 100 side.

If the stainless water tank (TK) is installed above the concrete mount (MT) from the ground, leakage may occur between the bottom of the stainless water tank (TK) and the concrete mount (MT). The leak detection information from the leak detection sensor 510 is transmitted to the monitoring server 100 side.

<< S200 >>

In the comparison and determination step (S200), the monitoring server 100 compares the external force sensing information obtained by sensing the external force sensing sensor 400 in the sensing step (S100) and the tilt sensing information obtained by sensing the slope sensing sensor 300 with a reference value. This is a step of determining the state of the stainless steel water tank (TK) and generating monitoring information about the stainless steel water tank according to the determined result.

As mentioned above, the reference value compared with the external force detection information is the external force reference value, which is the standard for determining whether an external force is applied, and the caution reference value, which is the criteria for issuing an external force warning or external force alarm according to the strength of the external force. It is a generic term for the alarm threshold.

If the external force sensed by the external force sensing sensor 400 is less than the reference value and the slope is horizontal within the error range, and no leakage is detected in the leakage sensing unit, the determination control unit 110 determines that the stainless water tank (TK) is in a stable normal state. It is judged to be. Then, monitoring information including the determined content is generated, and the monitoring information is transmitted to the output unit 150 so that the administrator can recognize it in the information providing step (S300).

When it is determined that the external force sensed by the external force sensing sensor 400 is less than the external force reference value, and the inclination of the stainless steel water tank TK sensed by the tilt sensing sensor 300 is higher than a certain level, the determination control unit 110 is made of stainless steel. It is judged that the ground under the water tank (TK) has simply subsided.

In addition, the monitoring information includes information that a situation in which the ground under the stainless steel water tank (TK) is simply subsided, and external force detection information and slope detection information are included so that the manager can know through the output unit 150.

When the external force detection information is compared with the preset external force reference value, and the magnitude of the external force is greater than the external force reference value, but the internal hardness of the stainless steel water tank (TK) is less than a certain level, and the slope detected in the slope detection information is horizontal within the error range, The determination control unit 110 determines that the external force is applied without changing the posture to the stainless water tank TK.

Then, the position where the external force is applied to the monitoring information is included so that the administrator can recognize it through the output unit 150 in the information providing step (S300). The direction in which the external force acts may also be included.

When it is determined that the magnitude of the external force is greater than or equal to the caution threshold value by comparing the external force sensing information with the preset caution threshold value, the determination and control unit 110 includes the position at which the external force greater than the caution threshold value is sensed in the monitoring information.

In addition, in the information providing step (S300), the external force warning is outputted through the output unit 150 so that the manager can recognize the position at which the external force above the caution reference value is sensed.

When it is determined that the magnitude of the external force is greater than the caution threshold value by comparing the external force sensing information with the preset caution reference value, and when the slope detected in the slope detection information is greater than a certain magnitude, the determination control unit 110 is the position at which an external force greater than the caution threshold value is detected. And it is determined that ground subsidence has occurred in the lower side of the stainless steel water tank (TK) by an external force.

In addition, the monitoring information includes the location where an external force above the precautionary value is sensed and the content determined that ground subsidence has occurred at the bottom of the stainless steel water tank (TK) by the external force.

In the information providing step (S300), the determination control unit 110 outputs an external force warning through the output unit 150 so that the manager can recognize it.

Here, the caution reference value is preferably a value corresponding to 75% of the internal hardness of the wall of the stainless water tank TK, and as mentioned above, the caution reference value may be set and changed by the administrator.

When the external force detection information is compared with a preset alarm threshold value, it is determined that the magnitude of the external force is higher than the alarm threshold value, and if the slope detected in the slope detection information is higher than a certain magnitude, the determination control unit 110 detects an external force higher than the alarm threshold value. It is determined that ground subsidence has occurred in the lower side of the stainless water tank TK due to the location and the external force.

In addition, the determination control unit 110 includes, in the monitoring information, a position at which an external force equal to or greater than the alarm threshold value is sensed and a content determined that ground subsidence has occurred in the lower side of the stainless water tank TK by the external force.

In addition, in the information providing step (S300), an external force alarm is output through the output unit 150 so that the manager can recognize it.

The alarm threshold value is also preferably a value corresponding to 85% of the internal strength of the wall of the stainless water tank (TK), and the alarm threshold value may be set and changed by the administrator as mentioned above.

In addition, the determination control unit 110 receives the leakage detection information sensed by the

leakage detection sensors

500 and 510 in the detection step S100 from the leakage detection unit side. In the comparison and determination step (S200), it is determined whether or not water leakage has occurred in the stainless water tank TK and the location of the water leakage. In case of leakage, it is included in the monitoring information along with the location of the leakage.

In addition, in the information providing step (S300), a leak alarm and monitoring information are simultaneously output through the output unit 150 so that the manager can identify the fact that the leak has occurred in the stainless water tank TK and the location of the leak.

<< S300 >>

The information providing step (S300) is a step of providing the monitoring information generated by the monitoring server in the comparison and determination step (S200) so that the administrator can recognize it.

The determination and control unit 110 of the monitoring server may change the form of providing monitoring information to the manager according to the monitoring information.

Monitoring information is specifically displayed through a display device such as a monitor. The values detected by the external force sensing sensor 400 and the tilt sensing sensor 300 and the content determined by the determination control unit 110 are displayed. In addition, leak detection information detected by the

leak detection sensors

500 and 510 may be displayed.

In the comparison and determination step (S200), when the determination control unit 110 determines that the condition for issuing the external force warning is determined, the external force warning is output through the output unit 150. For example, an external warning is displayed through a display device such as a monitor. The output unit 150 also includes an acoustic output device such as a speaker. The alarm sound corresponding to the external warning is output through the speaker so that the manager can recognize it more quickly.

In the comparison and determination step S200, when it is determined that the determination control unit 110 issues an external force alarm, the external force alarm is output through the output unit 150. The external force alarm is displayed through the monitor so that the manager can grasp the contents of the external force alarm. In addition, a notification sound corresponding to an external force alarm is output through a speaker so that the administrator can quickly recognize it audibly.

And, in the comparison and determination step (S200), if the determination control unit 110 determines that there is a leak, a leak alarm is output through the output unit 150. A leak alarm can be displayed through a display device such as a monitor. In addition, the alarm sound corresponding to the leak alarm is output through the speaker so that the administrator can recognize it more quickly.

As described above, the stainless water tank monitoring and management system according to the present invention and the stainless water tank monitoring management method using the same can quickly determine the location of the external force applied to the stainless water tank or the location and cause of the ground subsidence. It is possible to take preemptive countermeasures before cracking occurs, and has the advantage of improving management convenience and efficiency. In addition, if there is a leak at the junction, the fact of the leak and the location of the leak can be identified, so that a quicker recovery action is possible.

As described above, a detailed description of the present invention has been made by the embodiments with reference to the accompanying drawings, but the above-described embodiments are only described with reference to the preferred embodiments of the present invention. It should not be understood as being limited only to the embodiments, and the scope of the present invention should be understood as the claims and equivalent concepts to be described later.

[Explanation of code]

100: monitoring server 200: data logger

300: tilt detection sensor 400: external force detection sensor

500, 510: leak detection sensor TK: stainless water tank

110: judgment control unit 120: communication unit

140: input unit 150: output unit

160: storage unit

Claims

An external force sensing unit disposed on an outer surface of the stainless steel water tank and including a plurality of external force sensing sensors for sensing an external force received by the stainless steel water tank;

A tilt detection unit including at least one tilt detection sensor disposed on an upper end or an upper surface of the stainless steel water tank to sense a tilt of the stainless steel water tank;

Receives inclination sensing information about the inclination of the stainless steel water tank from the inclination sensing part side, and external force sensing information including the magnitude of the external force received by the stainless steel water tank from the external force sensing part or the direction of action of the external force. It characterized in that it comprises a; a monitoring server that receives the received, determines the state of the stainless steel water tank, and generates monitoring information for the stainless steel water tank according to the determined result,

Stainless steel water tank monitoring management system.
The method of claim 1,

A leak detection unit including a leak detection sensor disposed at the junction of the stainless steel tank to detect whether water stored in the stainless steel tank leaks or not; further includes,

The monitoring server receives the leak detection information detected by the leak detection unit, and generates by including in the monitoring information whether or not a leak occurs at a joint portion of the stainless water tank,

Stainless steel water tank monitoring management system.
The method of claim 2,

The monitoring server,

A communication unit receiving the external force sensing information or the tilt sensing information;

A determination control unit that receives the external force detection information and the tilt detection information received from the communication unit, compares it with a reference value, determines whether to output an external force warning or an external force alarm for the stainless steel tank, and generates the monitoring information;

A storage unit for storing the external force sensing information, the tilt sensing information, or the monitoring information according to the control of the determination control unit; And

And an output unit for receiving the monitoring information from the determination control unit and outputting it to the outside.

Stainless steel water tank monitoring management system.
The method of claim 3,

A plurality of external force sensing sensors included in the external force sensing unit,

A plurality of the external force sensing sensors disposed on the outer surface of the stainless steel water tank at the same height from the lower end of the stainless water tank form one external force sensing crew,

The external force sensing unit includes a plurality of the external force sensing crew,

A plurality of the external force sensing crew is characterized in that disposed on the outer surface of the stainless water tank to have a height difference of a predetermined interval with the external force sensing crew adjacent to each other,

Stainless steel water tank monitoring management system.
The method of claim 4,

The determination control unit,

The external force sensed by the external force sensing sensor is greater than the external force reference value, but is less than a certain level compared to the inner hardness of the stainless steel water tank,

If the slope detected by the slope detection sensor is horizontal within an error range,

It is characterized in that it is determined that the external force is applied to the stainless water tank, and the monitoring information includes a position where the external force is applied,

Stainless steel water tank monitoring management system.
The method of claim 5,

The determination control unit,

The stainless water tank sensed by the tilt sensor after the external force sensed by the external force sensor was determined to be more than the precautionary value and the tilt of the stainless water tank detected by the tilt sensor was horizontal within an error range. If the slope of is more than a certain size,

In the monitoring information, the content determined that the ground under the stainless steel water tank has settled by the external force is included in the monitoring information,

Characterized in that to control the output unit to output the external force warning,

Stainless steel water tank monitoring management system.
The method of claim 6,

The precautionary reference value is characterized in that a value corresponding to 75% of the inner hardness of the wall of the stainless steel water tank,

Stainless steel water tank monitoring management system.
The method of claim 7,

The determination control unit,

It is determined that the magnitude of the external force is greater than or equal to the alarm threshold value by comparing the external force detection information with a preset alarm threshold value,

If the slope detected in the slope detection information is more than a certain size,

Include in the monitoring information the location where an external force above the alarm threshold value is sensed and the content determined that ground subsidence has occurred in the lower side of the stainless steel water tank by the external force,

It characterized in that controlling the output unit to output the external force alarm,

Stainless steel water tank monitoring management system.
The method of claim 8,

The alarm reference value, characterized in that the value corresponding to 85% of the inner hardness of the wall of the stainless steel water tank,

Stainless steel water tank monitoring management system.
The method of claim 9,

A water quality sensor for sensing the water quality state of the water stored in the stainless water tank; characterized in that it further comprises,

Stainless steel water tank monitoring management system.
The method of claim 1,

A data logger receiving the external force sensing information from the external force sensing unit, receiving the gradient sensing information from the gradient sensing unit, and transmitting the information to the monitoring server;

Stainless steel water tank monitoring management system.
A sensing step in which an external force sensing sensor disposed on the outer surface of the stainless steel water tank senses the external force applied to the stainless water tank, and a tilt sensing sensor disposed on the upper or upper surface of the stainless water tank senses the inclination of the stainless water tank ;

The monitoring server determines the state of the stainless steel tank based on the external force sensing information obtained by sensing the external force sensing sensor in the sensing step and the slope sensing information obtained by sensing the inclination sensing sensor. A comparison and determination step of generating monitoring information for the stainless steel water tank; And

An information providing step of providing an administrator to recognize the monitoring information generated by the monitoring server in the comparison and determination step; Characterized in that it comprises a,

Stainless steel water tank monitoring management method.
The method of claim 12,

In the sensing step,

A leak detection sensor disposed at the junction of the stainless water tank senses whether the water stored in the stainless water tank leaks,

In the comparison and judgment step,

The monitoring server is characterized in that, by receiving the leak detection information obtained by detecting the leak detection unit, and including in the monitoring information whether or not a leak occurs at the junction of the stainless steel water tank,

Stainless steel water tank monitoring management method.
The method of claim 13,

In the comparison and judgment step,

The external force detection information is compared with a preset external force reference value, and the magnitude of the external force is greater than the external force reference value, but the internal hardness of the stainless steel tank is less than a certain level,

If the slope detected in the slope detection information is horizontal within the error range,

It is characterized in that it is determined that the external force is applied to the stainless water tank, and the monitoring information includes a position where the external force is applied,

Stainless steel water tank monitoring management method.
The method of claim 13,

In the comparison and judgment step,

When it is determined that the magnitude of the external force is greater than the caution threshold value by comparing the external force sensing information with a preset caution threshold value, the monitoring information includes a position at which an external force greater than the caution threshold value is detected,

In the information providing step, characterized in that outputting an external force warning so that the manager can recognize it,

Stainless steel water tank monitoring management method.
The method of claim 13,

In the comparison and judgment step,

It is determined that the magnitude of the external force is greater than or equal to the caution reference value by comparing the external force detection information with a preset caution reference value,

If the slope detected in the slope detection information is more than a certain size,

Include in the monitoring information the position at which an external force above the precautionary value is sensed and the determination that ground subsidence has occurred in the lower side of the stainless steel water tank by the external force,

In the information providing step, characterized in that outputting an external force warning so that the manager can recognize it,

Stainless steel water tank monitoring management method.
The method of claim 16,

The precautionary reference value is characterized in that a value corresponding to 75% of the inner hardness of the wall of the stainless steel water tank,

Stainless steel water tank monitoring management method.
The method of claim 13,

In the comparison and judgment step,

It is determined that the magnitude of the external force is greater than or equal to the alarm threshold value by comparing the external force detection information with a preset alarm threshold value,

If the slope detected in the slope detection information is more than a certain size,

Include in the monitoring information the location where an external force above the alarm threshold value is sensed and the content determined that ground subsidence has occurred in the lower side of the stainless steel water tank by the external force,

In the information providing step, characterized in that outputting an external force alarm so that the manager can recognize,

Stainless steel water tank monitoring management method.
The method of claim 18,

The alarm reference value, characterized in that the value corresponding to 85% of the inner hardness of the wall of the stainless steel water tank,

Stainless steel water tank monitoring management method.