KR20120028886A - Method of detecting water in a structure as well as a device for detecting water in structural members and the structure - Google Patents

Abstract

The present invention provides a method for detecting watering, flooding, or submersion in a structure, wherein one or more active RFIDs are embedded or installed at a position for detecting watering, flooding, or flooding of the structure, and the structure or A receiving means for receiving electromagnetic waves transmitted from one or a plurality of the active RFIDs is provided in the vicinity thereof, and water, water, or immersion occurs in the structure, so that one or a plurality of the active RFIDs of the structure are embedded. Or when water is interposed between the installed position and the position where the receiving means is provided, the receiving means receives an electromagnetic wave whose intensity is changed by the water transmitted from the active RFID, so that the watering of the structure, Detection method of water in a structure, characterized in that the detection of evaporation or submersion and the fat of water in the structure It provides a water detecting apparatus in the structure members, and structures that are applied.

Description

METHOD OF DETECTING WATER IN A STRUCTURE AS WELL AS A DEVICE FOR DETECTING WATER IN STRUCTURAL MEMBERS AND THE STRUCTURE}

The present invention relates to a method for detecting water in a structure, a member for a structure, and an apparatus for detecting water in a structure. More specifically, the present invention provides the watering of the road surface of the road caused by rain or flood, flooding of the river, protection of the river, embankment, river site, Inundation or watering of bridges, elevation of coastal tide, inundation or watering of coastal shores, embankments, bridges, watering of tracks, basements, underground parking lots, underground structures such as underground streets or underpasses The present invention relates to a member for a structure to which a detection method of water in a structure capable of quickly detecting accidental incidents such as irrigation and the like, and a device for detecting water in the structure.

This application claims priority based on Japanese Patent Application No. 2009-143325 for which it applied to Japan on June 16, 2009, and uses the content here.

Recently, how to quickly detect the watering of roads, flooding of rivers, flooding of riverbeds and the like caused by storms and floods in roads and rivers has become a big problem.

For example, in the case of roads, if water accumulates on the road surface due to sudden rainfall, the water damages people, cars, buildings, etc. that pass through the road, so that the watering information can be quickly grasped and appropriate. It is necessary to take countermeasures.

In particular, in places where the risk of watering, such as underpass, is high, when an abnormality such as a watering depth of more than 20 cm is recognized, measures such as informing that the road sign is under traffic control are taken.

As a method of knowing the watering of a conventional road, a method of collecting information about watering from neighboring residents, a way that a road manager or a dispatch agency goes to a place where watering may occur and monitors the watering, There is a method of installing an unmanned camera at a place where there is a possibility of occurrence and monitoring the situation of the road constantly through a monitor, and installing a device for detecting watering on the road surface and monitoring the device constantly.

As a sensor used for this apparatus, there are a float sensor, a hydraulic level sensor, a capacitive sensor, and the like (Patent Documents 1 to 3).

And when the water supply situation on the road surface reaches the boundary area, the person in charge goes to the site, and builds a pile of dirt by hand.

On the other hand, in the case of rivers, a method of monitoring the upstream water level by a sensor or the like, and monitoring the water level in the downstream by an image of an unmanned camera, a constant monitoring by a water level sensor using a device such as a float, etc. Is being taken.

In particular, when rainfall increases and the level of the river approaches the level of risk, and the risk is determined to be high, the river manager or its dispatching agency goes to a place near the level of danger, monitors it, and takes necessary countermeasures.

As such, river managers usually check the communication system and collect information quickly and collect information. However, in case of an emergency, monitoring by human hands plays an important role.

Patent Document 1: Japanese Patent Application Laid-Open No. 6-53932 Patent Document 2: Japanese Patent Application Laid-Open No. 2004-257858 Patent Document 3: Japanese Patent Application Laid-Open No. 7-34327

However, in the conventional method of directly monitoring by a manager on a road or a river, it is difficult for the manager to directly monitor all the places where a risk is expected by a human hand, and even when the manager monitors by an unmanned camera or the like. It is difficult to always monitor the situation in all places.

Therefore, although various detection devices are installed and monitored on roads and rivers, the conventional detection devices are generally installed outdoors, and are susceptible to dust, vibration, shock, sunlight, and the like. There existed a problem that the fall of the detection precision was easy to generate | occur | produce.

For example, a float type or a hydraulic sensor senses the water level and the water pressure entering a cylindrical container, and thus, there is a problem in that it is easy to cause clogging with dust, mud, and the like, and easily breaks down.

In addition, in the capacitive sensor, there is a problem in that dirt easily adheres to the sensor portion, and a drop in accuracy due to a drop in electromotive force is likely to occur.

As described above, since a conventional detection device is susceptible to dust, vibration, shock, sunlight, and the like, failures are likely to occur, and it is difficult to determine whether or not there is a failure in a normal state without watering or watering. There is a problem that it is difficult to obtain accurate and stable information over a long period of time. There is also a problem that it is necessary to perform maintenance and inspection frequently.

Particularly, once watering or distillation, etc., occurs, there is a possibility that dust, mud, dirt, etc. may adhere to the sensor part in the conventional detection device, and these detection devices operate normally after watering, distillation, or the like has entered. I needed to check whether or not.

In addition, as a problem of a conventional road or river, such as a road passing through a track called an underpass, or under an elevated road, etc. In the representative road structure, if there is a relatively large amount of rainfall or heavy rain in the vicinity of the underpass, irrigation may occur in the vicinity of the underpass for an extremely short time of several tens of minutes, and in the river, sudden flooding (iron cannon) Water or flooding may occur suddenly for a few minutes, but in conventional detection devices, it is difficult to detect such sudden incidents quickly and inform the residents, and it is too late when the residents notice. There are also.

As described above, when accidents occur on roads or rivers, in addition to physical damages on roads or rivers, accidents related to human life may occur, or damages such as houses may be concentrated. In addition to the structure that constantly monitors rivers and the like, it is pointed out that a simple monitoring method for quickly detecting accidental incidents and informing residents and managers and the installation of sensors.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems. The present invention has been made in order to solve the above-mentioned problems such as flooding of road surfaces, flooding of rivers, banks of rivers, dikes, riverbeds, bridges, etc. Suddenly detect accidents such as rising or flooding coastal shores, flooding or watering of bridges, bridges, watering of tracks, underground structures such as basements, underground parking lots, underground streets and underpasses, It is hard to be influenced from the outside such as vibration, shock, sunlight, etc., and it is easy to repair and inspect the water in the structure and the member for the structure to which the water detection method in the structure is applied, and the water detection device in the structure. It aims to provide.

As a result of earnestly examining in order to solve the said subject, this inventor etc. installed or installed one or several active RFID (Radio-Frequency Identification) in the position which detects irrigation, flooding, or immersion of a structure, And receiving means for receiving electromagnetic waves transmitted from one or a plurality of the active RFIDs in the structure or its vicinity, and when water, water, or immersion occurs in the structure, the active RFID If the receiving means receives that the intensity of the electromagnetic wave transmitted from the water has changed due to watering, flooding, or flooding, watering of road surfaces caused by rain or flood, flooding of rivers, banks of rivers, banks, riverbeds Flooding or watering of bridges, etc., rising of coastal tide, coastal shores, banks, flooding or watering of bridges, watering of tracks, basements, underground parking lots, underground It is possible to detect sudden accidents such as watering of underground structures such as underpasses and the like, and also to discover that it is difficult to be affected by dust, vibration, shock, sunlight, etc. from the outside, and easy to repair and inspect. The present invention has been completed.

That is, the method of detecting water in a structure of the present invention is a method of detecting watering, flooding or immersion in a structure, and embedding one or a plurality of active RFIDs at a position for detecting watering, flooding, or immersion in the structure. In addition, a receiving means for receiving electromagnetic waves transmitted from one or a plurality of the active RFIDs in the structure or the vicinity thereof is provided, and water, water, or immersion occurs in the structure, so that one or When water is interposed between a position where the plurality of active RFIDs are embedded or installed and a position where the receiving means is provided, the receiving means receives an electromagnetic wave whose intensity is changed by the water transmitted from the active RFID. By receiving, characterized in that for detecting the watering, flooding or submersion of the structure.

In the method of detecting water in this structure, when water, water, or immersion occurs in the structure, the water, water, or immersion occurs between the position where at least one active RFID is buried or installed in the structure and the position where the receiving means is provided. When water intervenes, the electromagnetic wave transmitted from this active RFID is affected by this water and its intensity changes. When the receiving means receives the electromagnetic wave of which the intensity is changed, it becomes possible to know that the water-repellent water, the water, or the immersion occurred at the position where the active RFID which transmits the electromagnetic wave of the intensity is buried or installed.

In addition, since the active RFID does not have a mechanically moving part and the sensor part is not exposed to the outside, the detection function is not degraded or broken by mud or dust even in a harsh environment. Even in this case, it is not damaged by load or impact. In addition, even when watering, watering, or the like has occurred, there is no possibility that problems may occur or break down due to watering or watering. Therefore, no maintenance is required for maintenance, and it is possible to detect watering, increasing water, etc. in the best operating state at all times, and it is also possible to use repeatedly.

In addition, by transmitting and receiving electromagnetic waves between the active RFID and the receiving means, it is possible to constantly monitor the operation state of the active RFID and the presence or failure of the active RFID even in a normal state in which no watering, flooding or immersion has occurred.

In the water detection method of the structure of the present invention, at least one active RFID among the plurality of active RFIDs is provided with transmission means for receiving electromagnetic waves transmitted from another active RFID and transmitting the received electromagnetic waves. It is characterized by.

In the water detection method of the structure, at least one active RFID is provided with a transmission means for receiving electromagnetic waves transmitted from another active RFID and transmitting the received electromagnetic waves, so that water, water, or flooding occurs in the structure. In this case, the network of a plurality of active RFIDs is connected by first relaying by receiving an electromagnetic wave transmitted by another active RFID which detects it, and transmitting the received electromagnetic waves to an external alarm or display means. It becomes possible to construct.

The method for detecting water in a structure of the present invention is characterized in that the structure is a road and the watering of the road is detected when the road is watered.

In the water detection method, when the road is watered, if water intervenes between the position where the active RFID of the road is buried or installed by the water, and the position where the receiving means is provided, the electromagnetic wave transmitted from the active RFID is generated. Under the influence of water, its strength changes. When the receiving means receives the electromagnetic wave whose intensity has changed, it becomes possible to know that the road has been watered.

In the method of detecting water in the structure of the present invention, the structure is any one or two or more of the river banks, banks, riverbeds, bridges, when the stream is increased, the increase of the river, the structure of the structure Immersion, characterized in that any one or more of the watering of the structure is detected.

In this water detection method, when a river is flooded, the water flow is located between one or more active RFIDs of a bank, a bank, a river site, a bridge, or a location where a receiving means is provided. If water intervenes in between, the electromagnetic wave transmitted from the active RFID is affected by this water, and its intensity changes. When the receiving means receives the electromagnetic wave whose intensity has changed, it becomes possible to know that the river has increased.

In the method of detecting water in the structure of the present invention, the structure is any one or two or more of coastal shores, banks, bridges, and when the coastal tide rises, the tide rises, the flooding of the structure, Detecting any one or more of the watering of the structure.

In the water detection method, when the coastal tide rises, the elevation of the tide rises between one of two shoreline banks, a levee, a bridge, or a position where two or more active RFIDs are buried or installed, and a position where a receiving means is provided. If water intervenes in between, the electromagnetic wave transmitted from the active RFID is affected by this water, and its intensity changes. When the receiving means receives the electromagnetic wave whose intensity has changed, it becomes possible to know that the coastal tide has risen.

The method for detecting water in a structure of the present invention is characterized in that the structure is a railroad track, and when the track is watered, the watering of the track is detected.

In the water detection method, when the track is watered, if water intervenes between the position where the active RFID of the track is buried or installed by the water and the position where the receiving means is provided, the electromagnetic wave transmitted from the active RFID is generated. Under the influence of water, its strength changes. When the receiving means receives the electromagnetic wave whose intensity has changed, it becomes possible to know that the line has been watered.

The method for detecting water in a structure of the present invention is characterized in that the structure is an underground structure, and when the underground structure is watered, the watering of the underground structure is detected.

In the water detection method, when an underground structure is watered, when water is interposed between the position where the active RFID of the underground structure is buried or installed, and the position where the receiving means is provided, the water is transmitted from the active RFID. Electromagnetic waves are affected by this water and its intensity changes. When the receiving means receives the electromagnetic wave whose intensity has changed, it becomes possible to know that the underground structure has been watered.

The structural member of the present invention is a structural member to which the water detection method in the structural body of the present invention is applied, and is formed by embedding or installing the active RFID.

By embedding or installing active RFID in the structural member, the active RFID does not have a mechanically movable portion and the sensor portion is not exposed to the outside. Therefore, it is not suitable for roads, rivers, railway tracks and underground structures. Under the environment, the detection function is not degraded or broken by mud or dust, and even when a load or an impact is applied, it is not broken by a load or an impact.

The apparatus for detecting water in a structure of the present invention is a device for detecting water, water, or immersion in a structure, and includes one or a plurality of active RFIDs embedded or installed at a position for detecting water, water, or immersion in the structure. Receiving means for receiving electromagnetic waves transmitted from one or a plurality of the active RFIDs provided in or near the structure, and from intensity variations of electromagnetic waves from the one or a plurality of the active RFIDs transmitted from the receiving means. Characterized in that it comprises a detection means for detecting that the water, water or immersion occurred in the structure.

In the water detection apparatus in the structure of the present invention, when water, water or immersion occurs in the structure, the water, water or immersion occurs between the position where the active RFID of the structure is embedded or installed and the position where the receiving means is provided. When water intervenes, the electromagnetic wave transmitted from the active RFID is affected by this water and its intensity changes. When the receiving means receives the electromagnetic wave whose strength has changed, the detection means receives water, water, or immersion at the position where the active RFID is embedded or installed based on the change in the intensity of the electromagnetic wave from the active RFID transmitted from the receiving means. It is possible to detect what has happened.

In addition, the active RFID does not have a mechanically moving part and the sensor part is not exposed to the outside, so that the detection function can be detected by mud and dust even in harsh environments such as roads, rivers, railway tracks and underground structures. It does not deteriorate or fail, and does not break under load or impact even when a load or impact is applied.

Further, by transmitting and receiving electromagnetic waves between the active RFID and the receiving means, it is possible to constantly monitor the operation state of the active RFID and the presence or failure of the active RFID even in a normal state in which no watering, flooding or flooding occurs.

The apparatus for detecting water in a structure according to the present invention includes at least one active RFID among the plurality of active RFIDs, including transmission means for receiving electromagnetic waves transmitted from another active RFID and transmitting the received electromagnetic waves. It is characterized by.

In the water detection device, at least one active RFID is provided with a transmission means for receiving electromagnetic waves transmitted from another active RFID and transmitting the received electromagnetic waves. By receiving the electromagnetic wave transmitted by the other active RFID detected, it is relayed once, and the received electromagnetic wave is transmitted to an external alarm means or display means, thereby making it possible to construct a network by a plurality of active RFID.

An apparatus for detecting water in a structure of the present invention is characterized in that the detecting means is provided with any one or both of an alarm means and a display means for notifying that the water, water, or immersion has occurred.

In the water detection device, if the detection means includes one or both of the alarm means and the indication means for notifying that water, water or immersion has occurred, if water, water, or immersion occurs in the structure, water, water, or immersion It is possible to inform the residents or managers of the occurrence of this promptly.

According to the water detection method in the structure of the present invention, when water, water, or immersion occurs in the structure, the fact of water, water, or immersion can be quickly detected as a change in the intensity of electromagnetic waves transmitted from the active RFID. .

In addition, since active RFID does not have a mechanically moving part and the sensor part is not exposed to the outside, it can be detected by mud or dust even in harsh environments such as roads, rivers, coasts, railway tracks and underground structures. This does not degrade or break down. In addition, even when a load or an impact is applied, the load or impact is not damaged. In addition, even if watering or watering, etc., occurs once, there is no possibility of problems or failures caused by such watering or watering. Therefore, water is not always required for maintenance and maintenance. Incremental water etc. can be detected and can also be used repeatedly.

In addition, by transmitting and receiving electromagnetic waves between the active RFID and the receiving means, it is possible to constantly monitor the operation state of the active RFID and the presence or failure of the active RFID even in a normal state in which no watering, flooding or immersion has occurred.

In addition, if at least one active RFID among the plurality of active RFIDs is provided with a transmission means for receiving electromagnetic waves transmitted from another active RFID and transmitting the received electromagnetic waves, a plurality of active RFIDs constitute a network. can do.

According to the structural member of the present invention, by embedding or installing an active RFID in the structural member to which the water detection method in the structure of the present invention is applied, it is possible to perform severe conditions such as roads, rivers, coasts, railway tracks and underground structures. Even under the environment, it is possible to prevent deterioration and failure of the detection function due to mud, dust, and the like, and to prevent damage due to load or impact.

According to the water detection apparatus in the structure of the present invention, it is possible to quickly detect that the structure is watered, flooded or flooded based on the change in the intensity of electromagnetic waves from the active RFID transmitted from the receiving means.

In addition, since active RFID does not have a mechanically moving part and the sensor part is not exposed to the outside, it is detected by mud and dust even in harsh environments such as roads, coasts, rivers, railway tracks and underground structures. This does not degrade or break down. In addition, even when a load or an impact is applied, the load or impact is not damaged.

Further, by transmitting and receiving electromagnetic waves between the active RFID and the receiving means, it is possible to constantly monitor the operation state of the active RFID and the presence or failure of the active RFID even in a normal state in which no watering, watering, or immersion has occurred.

In addition, if the detecting means is provided with an alarm means or a display means for notifying that water, water or immersion has occurred, if water, water or immersion occurs in the structure, the residents, managers, etc. You can inform.

BRIEF DESCRIPTION OF THE DRAWINGS It is a schematic block diagram which shows the irrigation detection apparatus of the roadway of 1st Embodiment of this invention.
It is a schematic block diagram which shows the increase detection apparatus of the bank of the river of 2nd Embodiment of this invention.
It is a schematic block diagram which shows the irrigation detection apparatus of the track of 3rd Embodiment of this invention.
It is a schematic block diagram which shows the irrigation detection device of the underground structure of 4th Embodiment of this invention.
It is a schematic block diagram which shows the irrigation detection apparatus of the road of 5th Embodiment of this invention.
It is a schematic block diagram which shows the irrigation detection apparatus of the roadway of 6th Embodiment of this invention.
It is a schematic block diagram which shows the irrigation detection apparatus of the roadway of 7th Embodiment of this invention.

EMBODIMENT OF THE INVENTION The form for implementing the water detection method in the structure of this invention, the member for structures, and the water detection apparatus in a structure is demonstrated based on drawing.

In addition, this form is concretely explained in order to understand the meaning of invention better, and it does not limit this invention unless there is particular notice.

"First embodiment"

BRIEF DESCRIPTION OF THE DRAWINGS It is sectional drawing which shows the water detection apparatus in the structure of 1st Embodiment of this invention, and is an example of the apparatus which detects the watering of the road which is a kind of structure.

In Fig. 1, 1 is a concrete pavement, 2 is a watering detection device (water detection device in the structure) of the road installed on the concrete pavement (1). The roads mentioned herein include roads, sidewalks, cycling roads, hiking trails, and streets.

In the present embodiment, concrete pavement is taken as an example and explained, but the pavement form of the road in the present embodiment is not limited to concrete pavement, but the present pavement also applies to roads of other pavement types such as asphalt pavement, block pavement, and stone pavement. The same applies to the concrete pavement of the form. Moreover, it is applicable also to a dirt road.

This watering detection device (2) is an active RFID (Radio-Frequency Identification) (11) embedded in the concrete layer (3) of the concrete pavement (1) and the active RFID provided in the vicinity of the concrete pavement (1) Watering is generated in the concrete pavement 1 due to a change in the intensity of the electromagnetic waves from the receiver (receiving means) 12 that receives electromagnetic waves transmitted from the 11 and the active RFID 11 received by the receiver 12. By a detector (detecting means) 13 which detects a thing, an alarm (alarm means) 14 and a display device (display means) 15 which notify residents or managers that water is generated on the concrete pavement 1. Consists of.

The active RFID 11 is a device having a transmission / reception function by electromagnetic waves, including an IC chip, an antenna unit, a battery, and the like. Although an active RFID tag or the like is preferable, the type of device is not particularly limited, and it is charged in a non-contact manner. RFID may be possible. Moreover, it is good also as a structure which supplies electric power from the outside by a power line, photovoltaic power generation, another power generation apparatus, etc. In this case, the battery is unnecessary.

In addition to the radio waves used in the field of information and communication, there are infrared rays, visible rays, and X-rays. In general, the lower the frequency, the smaller the decrease in permeability (attenuation) when passing through water. As both frequency bands pass through water, a decrease in permeability (attenuation) occurs.

At present, there are six kinds of radio frequency frequencies that can be used for the active RFID 11 due to legal regulations: about 135 kHz, about 13.56 MHz, about 430 MHz, about 900 MHz, about 2.45 GHz, and about 5 GHz.

The active RFID 11 preferably attenuates the radio wave transmitted from the active RFID 11 to some extent in order to take advantage of the phenomenon that the transmitted radio wave is reduced (damped) by the presence of water. Therefore, considering the magnitude of the decrease in attenuation (damping) of radio waves, the frequency band to be used is preferably any one of about 135 Hz, about 13.56 MHz, about 430 MHz, about 900 MHz, about 2.45 Hz, and about 5 Hz, More preferably, it is either about 2.45 ms or about 5 Hz.

However, in the future, if the frequency band that can be used becomes wider due to legal regulations, the frequency can be appropriately used.

In order to protect the active RFID 11 from impacts such as a collision of a vehicle, to prevent damage from being affected by rainfall, watering, or the like, or to move or change an installation place due to an unexpected action, etc. In addition to being embedded in the concrete layer 3 for the reason, the side grooves and the side groove covers, the guards, the median block, the plate for paving, the foundation of curbstones, boundary blocks, guard rails, etc. , Roadside boxes, interlocking blocks, paving bricks, buried piles, boxes, lane separators, cat's-eye, reflectors, interior of asphalt pavement or concrete pavement, interior of tops, It is preferable to use in the form which is embedded or installed in members, such as a cosmetic block, a cosmetic panel, a tile.

The active RFID 11 is preferably a structure which is sufficiently strong, can withstand impact, has a waterproof structure, and is assembled in a case which is not intentionally moved after installation. In addition, the active RFID 11 may be sealed with a plastic sheet or the like to have a structure assembled to a case that can withstand impact.

The embedding depth of the active RFID 11 is set so that the radio wave to be used is sufficiently attenuated or blocked by the watering when the concrete pavement 1 is watered.

When the concrete pavement 1 is watered, the water covers the upper portion of the active RFID 11. Here, covering the upper part indicates the water level to be detected including the air layer or the concrete layer, the place where the amount of moisture is accumulated, and the direction, and includes, for example, the detection in the horizontal direction. By covering the upper portion, water is interposed between the active RFID 11 and the receiver 12.

Therefore, when the active RFID 11 is embedded in the concrete layer 3, the active RFID 11 is formed at a depth capable of maintaining the transparency having only the radio wave intensity which can normally communicate with the receiver 12 in the embedded state. Landfill 11).

On the other hand, when the water level judged to be watering is reached, it is necessary to adjust the intensity of radio waves transmitted from the surface of the concrete layer 3 so that a considerable amount of attenuation or interruption of radio waves occurs.

For example, when the distance from the active RFID 11 embedded in the concrete layer 3 to the receiver 12 is 10 m, the active RFID 11 in the concrete layer 3 to the receiver 12. When the outgoing intensity is set so that a sufficiently strong radio wave arrives, a problem arises in the reliability and reliability of the sensor when the attenuation or interruption of the radio wave does not sufficiently occur even when water is sufficiently supplied.

Therefore, the intensity of radio waves transmitted from the active RFID 11 embedded in the concrete layer 3 is not necessarily strong, but is a transmission intensity in which a considerable amount of attenuation or blocking occurs when the water level determined to be watering is reached. It needs to be adjusted.

As a method of adjusting the intensity of radio waves transmitted from the surface of the concrete layer 3, in addition to the method of changing the embedding depth of the active RFID 11 by using the attenuation of the radio waves in the concrete layer 3 as described above. By adjusting the transmission intensity of radio waves from the active RFID 11 itself, by changing the transmission / reception antenna of the active RFID 11, or by adjusting the reception sensitivity of the receiver 12 or by changing the reception antenna. Method is also possible.

The intensity of the radio wave may be adjusted by attaching or winding a conductive metal foil or the like such as aluminum foil to the active RFID 11 and adjusting the exposed area of the opening.

Moreover, the effect of this invention can also be exhibited by adjusting the distance between the active RFID 11 and the receiver 12 suitably according to the state of a site.

That is, the intensity of transmission of radio waves of the active RFID 11 itself is adjusted, the intensity of radio waves transmitted from the surface of the concrete layer 3 in which the active RFID 11 is embedded is adjusted by the depth of embedding, and the active RFID ( 11) can be optimally set to the intensity of radio waves transmitted from the surface of the concrete layer 3 of the active RFID 11 by appropriately combining settings and the like in accordance with the site where the distance between the receiver 12 and the receiver 12 is to be set. have.

The active RFID 11 can individually assign identification numbers such as ID numbers. In this way, it is possible to clearly identify and know where the active RFID in which irrigation is detected or failure is installed.

The receiver 12 may not only receive the radio wave transmitted from the active RFID 11 but may have a function of transmitting the radio wave to the active RFID 11. In this case, not only can the information be obtained unilaterally from the active RFID 11, but the situation such as whether or not the active RFID 11 is operating normally can be checked from the receiver 12 side. In addition, a signal can be sent from the receiver 12 to change the setting of the active RFID 11 and the like. For example, the transmission interval of radio waves may be changed.

Next, the method of detecting the watering of the road using this watering detection device 2 is demonstrated.

This watering detection method is a method of detecting the water surface of the concrete pavement (1), that is, the watering of the concrete layer (3) using the above watering detection device (2). Specifically, when water is generated on the road surface of the concrete pavement 1 and water is interposed between the active RFID 11 embedded in the concrete layer 3 and the receiver 12, the receiver ( 12) is a method of detecting that water is generated on the road surface of the concrete pavement 1 by receiving the electromagnetic wave whose intensity of the radio wave transmitted from the active RFID 11 changes due to watering and the intensity is changed.

In this active RFID 11, radio waves are always transmitted, and the radio waves are received by the receiver 12. Here, "always" means that radio waves are sent out at regular intervals and that radio waves are transmitted at regular time intervals.

In this case, it is possible to check whether the active RFID 11 is operating normally by monitoring the communication state between the active RFID 11 and the receiver 12.

For example, even if there is no rainfall information, when the reception radio wave from the active RFID 11 is not normal, it is determined that the active RFID 11 is a failure (operation failure or battery consumption). It can be seen that repair, replacement, and the like can be performed.

Here, if water accumulates on the road surface of the concrete pavement 1 due to rainfall or the like, water is interposed between the active RFID 11 and the receiver 12, and the radio wave transmitted from the active RFID 11 is When passing through the water, the attenuation decreases, the strength decreases, and in some cases, it is interrupted. Therefore, from the state where the receiver 12 receives the steady state radio wave from the active RFID 11, the intensity of the radio wave from the active RFID 11 is weakened, and in some cases, the strength is weakened so that reception is impossible. Radio waves do not reach the receiver 12.

The amount of attenuation of the radio wave is determined by the thickness of the water layer interposed between the active RFID 11 and the receiver 12. Therefore, by varying the intensity of the radio wave from the intensity of the radio wave received by the receiver 12 when the road surface is under water, and the intensity of the radio wave received by the receiver 12 in a normal state where the road surface is not watered, The state of the water layer interposed between the active RFID 11 and the receiver 12 can be detected. Therefore, the height from the road surface of the water accumulated on the road surface can be detected, and the watering state of the road can be detected.

More specifically, the road surface of the concrete pavement 1 is set by setting the height of the water surface to be detected as watering, and adjusting and setting the intensity and frequency band of the radio wave transmitted from the active RFID 11 accordingly. When the height of the surface of the water surface becomes the height of the set water surface, it can be detected as watering.

For example, when the height of the water surface from the road surface is 20 cm, the height of the water surface to be detected is set so as to detect abnormality as watering, and accordingly, the intensity and frequency band of the radio wave transmitted from the active RFID 11 are set accordingly. By adjusting, when the height of the water surface on the road surface becomes a set height (for example, 20 cm), the radio wave transmitted from the active RFID 11 can be attenuated and prevented from reaching the receiver 12.

In this case, since the radio wave from the specific active RFID 11 which has been received until then is not received, the height of the water accumulated on the road surface at the place where the active RFID 11 is installed (for example, 20 cm).

Moreover, by adjusting the intensity and frequency band of the radio wave transmitted from the active RFID 11, when the water surface reaches a set height (for example, 20 cm), the radio wave transmitted from the active RFID 11 is attenuated. The radio wave received by the receiver 12 may be lower than any threshold value.

In this way, if a threshold value is set for the intensity of radio waves, it can be distinguished from a failure in transmission or reception due to a failure, and a stable detection result can be obtained.

In addition, if the height of the sleep on the road surface is correlated with the intensity of the radio wave received by the receiver 12 in advance, the height of the surface of the water can be grasped from the intensity of the radio wave received by the receiver 12.

For example, when the intensity of the radio wave received by the receiver 12 is S, the height of the water surface is 10 cm, and when the intensity of the radio wave received by the receiver 12 is M, the height of the water surface is 20 cm, When the intensity of the radio wave received by the receiver 12 is L, when the height of the surface of the water is set to 30 cm, the height of the surface on the road surface can be grasped in time series, and watering can be performed from the height of the surface of the water.

In addition, in order to clarify the difference between watering of the road surface and a simple failure of the active RFID 11, a rain sensor or the like is separately installed in a place where rain outside of the concrete pavement 1 can be directly detected. When there is a rain, it is determined that the radio wave from the active RFID 11 is reduced or interrupted and is abnormal (emergency), and the residents or managers can be notified immediately.

This active RFID 11 can be provided on the surface of the concrete layer 3 as long as the traffic of a car or a person is not intense.

Moreover, it can also be mounted in the installation which can be installed in the predetermined position of the upper part of the concrete layer 3, for example, a road mark, a display board, a reflecting plate, etc., and can be mounted in a required position.

In this case, when the active RFID 11 is mounted at a constant height from the road surface, the active RFID 11 received by the receiver 12 until the water level of water accumulated on the road comes to the position of the active RFID 11. There is no change in the intensity of radio waves from the radio wave, and a change occurs in the reception radio wave from the stage where the sleep reaches the position of the active RFID 11.

Here, if the intensity of the outgoing radio wave in the active RFID 11 is set so that the radio wave is not received at the stage where the active RFID 11 is submerged or lower than the threshold value, the active RFID 11 is submerged. It can be seen that at one point the water came to the height where the active RFID 11 was installed.

Moreover, if the height of the sleep when the sleep exceeds the height at which the active RFID 11 is provided and the received radio wave is correlated, the situation of the height of the subsequent sleep can be grasped.

The active RFID 11 can also be installed on the side of the concrete pavement 1 or the like. This side surface is the wall etc. which are in the side surface of a road, and in this case, it can exhibit the same effect | action and effect as when attached to the predetermined position above the concrete layer 3.

The active RFID 11 may be provided at one location to be detected on the concrete pavement 1 or at a plurality of locations.

In the case of providing at a plurality of places, the watering state (abnormal state) can be grasped more reliably and more accurately from the state of the radio wave of each of the plurality of active RFID 11.

There may be a case where this is installed in several places of the vicinity of the predetermined position of the concrete pavement 1, and may be provided in several places where the height from the road surface of the concrete pavement 1 differs, and these may be used together. Do.

In the case where the height from the road surface is provided in a plurality of places having different heights, it is possible to detect the watering state more accurately and in time series.

In addition, when this active RFID 11 is installed in an underpass, it is usually provided in the lowest position of the underpass which is the deepest watering part.

In addition, when it cannot be installed in the lowermost position of an underpass for some reason, even if the active RFID 11 is installed in a position other than the lowermost part, if the height of the water from the road surface in that position is known, Since the height of the water can be calculated, it may be so.

In addition, when installing this active RFID 11 in multiple underpass, you may install over the upper part from the bottom of an underpass.

In this case, the watering can be detected in order from the lower ones of the active RFID 11 installed at different heights. Thereby, the situation of watering on a road surface can be grasped.

In addition, when this active RFID 11 has functions other than a sensor, by providing one or more of these active RFID 11s, it is possible to have the following functions.

(1) When the distance to the receiver 12 is relatively far, or when the communication distance to the receiver 12 is long, or when it is installed in an environment in which the environment related to communication is not good (it is difficult to propagate radio waves), the multi By using the multihop method, information communication and information transmission can be performed. In this case, an active RFID tag may be used as a sensor node.

(2) By communicating a plurality of active RFID 11 with each other, the radio wave transmitted from the active RFID 11 at the detection target point is transmitted to the receiver 12 via one or more other active RFID 11. Can be sent up to).

In this case, the active RFID 11 at the detection target point has a function as a sensor and a radio wave transmitter, and the other active RFID 11 has a function as a relay (transceiver) of radio waves. .

As described above, by using the active RFID 11 as a sensor node, by adjusting the intensity of radio waves transmitted from the active RFID 11, the active RFID 11 may be arbitrarily selected as a sensor node within the range of the maximum communication distance. 11) it becomes possible to install, and installation becomes easy.

In addition, the information received at the receiver 12 may be transmitted directly from the receiver 12 to a management facility such as a management office. The reception information of several receivers 12 may be collected at the base station, and the base station may be used to manage the information. You may transmit.

Normally, the active RFID 11 transmits and receives at regular intervals with the receiver 12 or another active RFID 11 serving as a sensor node, and transmits the information to the management office via the base station as necessary. In addition, a method of recognizing the operating state of the active RFID 11 at each installation site is adopted.

Moreover, by sending an instruction via the base station from the management office or the like as necessary, it is also possible to add a function of checking the status of each other irregularly.

For example, when a change in the intensity of radio waves from one active RFID 11 occurs, the system judges on the system according to the information of the rainfall sensor installed in a place where external rainfall can be directly detected, and there is no rainfall. In the state, it is determined that the active RFID 11 has failed, and the system notifies the administrator of the failure.

On the other hand, when a change in the intensity of radio waves from one active RFID 11 occurs, rainfall is confirmed or rainfall is continuously measured by a rainfall sensor installed at a place where external rainfall can be directly detected. If there is any, it is judged that there is a risk of watering or watering on the system according to the numerical information, and the fire or police and neighboring people other than the manager are notified of the watering risk or watering status. In addition, when a display plate or a warning lamp is installed or installed at the watering point, an indication or warning associated with this is issued or the drainage pump or the like is automatically operated.

In this case, when the alarm system 14 and the display apparatus 15 are used together, it can be made to know a resident, a manager, etc. thoroughly that water is generated in the concrete pavement 1 more quickly.

According to the present embodiment, when water is generated on the concrete pavement 1, the fact of the water can be quickly detected as the intensity change of the electromagnetic wave transmitted from the active RFID 11.

In addition, since the active RFID 11 does not have a mechanically moving part and the sensor part is not exposed to the outside, the detection function is deteriorated by mud or dust even under the harsh environment of the concrete pavement 1. It doesn't break down. In addition, even when a load or an impact is applied, the load or impact is not damaged.

Moreover, by transmitting and receiving electromagnetic waves between the active RFID 11 and the receiver 12, it is possible to constantly monitor the operation state of the active RFID 11 and the presence or failure of the active RFID 11 even in a normal state in which no watering occurs. .

In addition, by using the alarm 14 and the display device 15 together, it is possible to thoroughly inform residents, managers, and the like that watering has occurred in the concrete pavement 1 more quickly.

In addition, by periodically transmitting and receiving electromagnetic waves between the active RFID 11 and the receiver 12, the watering state of the concrete pavement 1 in real time, the operation state of the active RFID 11 and the failure of You can monitor the presence.

For example, the water-permeation state of the concrete pavement 1 is measured by measuring a plurality of times every 1 to 5 seconds, and repeating this set of measurements at intervals of 5 to 60 minutes with one set of the plurality of measured values. And it is possible to monitor the operation state and the presence of failure of the active RFID 11 in real time, it is possible to improve the reliability of the detection.

Moreover, even if irregular data is detected at the time of measurement, by performing the same measurement repeatedly, the adverse effect by the irregular data is alleviated, and the reliability of detection can be improved.

In addition, when the water detection device of the present embodiment is applied to a road other than the concrete pavement such as asphalt pavement, block road, stone road or unpaved road, the same effect and effect as the concrete pavement of the present embodiment can be obtained. Can be.

"2nd Embodiment"

It is sectional drawing which shows the water detection apparatus in the structure of 2nd Embodiment of this invention, and is an example of the apparatus which detects the water vapor in the lake shore which is a kind of structure.

The increase detection device 21 includes a plurality of active RFIDs 11, receivers 12, and detectors 13 provided on the bank 23, stream site 24, and levee 25 of the river 22, respectively. ), An alarm device 14 and a display device 15.

The difference between the water vapor detector 21 and the watering detector 2 according to the first embodiment is that the watering detector 2 according to the first embodiment detects watering of the road surface of the concrete pavement 1. On the other hand, this water vapor detector 21 is a device which detects the evaporation of the river 22 in the lake 23, the inundation (water irrigation) in the river site 24, and the evaporation in the levee 25.

In addition, the structure and operation of each of the active RFID 11, the receiver 12, the detector 13, the alarm 14, and the display device 15 of the increase detection device 21 are the irrigation detection of the first embodiment. Since the configuration and operation of the active RFID 11, the receiver 12, the detector 13, the alarm 14, and the display device 15 of the device 2 are the same as those of the respective devices, the description is omitted here.

The method for detecting the increase in the river 22, the inundation (watering) at the river site 24, and the increase in the dike 25 using the distillation detecting device 21 will be described.

Radio waves are always transmitted from this active RFID 11, and the radio waves are received by the receiver 12.

Here, in the case where the river 22 is increased due to rainfall or the like, the active RFID 11 is irrigated by the increase in the river 22, and the water intensity changes in the intensity of radio waves transmitted from the active RFID 11. Occurs. When the receiver 12 receives the electromagnetic wave whose intensity has changed, it is possible to detect that the stream 22 has increased.

When a plurality of active RFID 11 are provided in the lake eye 23 at predetermined intervals in the vertical direction, the degree of increase in the water flow in the river 22 can be known in order, so that the risk of the increase in water can be grasped more accurately. .

In addition, when the river 22 is increased and flooded into the river site 24, the active RFID 11 is irrigated by the flood of the river site 24, and the water is discharged from the active RFID 11 by this water supply. A change occurs in the strength of outgoing radio waves. When the receiver 12 receives the electromagnetic wave whose intensity has changed, it is possible to detect that the riverbed 24 is flooded.

In addition, when the river 22 is evaporated and the water thus added reaches the dike 25, the active RFID 11 is irrigated by the dike 25 of the dike 25. 11) A change occurs in the strength of the radio wave transmitted from 11). When the receiver 12 receives the electromagnetic wave whose intensity has changed, it is possible to detect the increase in the bank 25 as well. By quickly knowing the increase of water in the levee 25, it is possible to quickly implement measures to prevent the formation of the bank of the levee 25, thereby preventing the flooding of the river 22 in advance.

In the present embodiment, the detection of the increase of water in the shore of the river is taken as an example, but if the active RFID 11 is provided by any one or two or more of shore shore, the embankment, or the bridge, As described above, when the coastal tide rises, it is possible to detect the rise of the tide, the inundation and irrigation of the lake, the bank, the bridge, and the like.

In this case, when water intervenes between the active RFID 11 and the receiver 12 provided in any one or two of coastal shores, banks, and bridges due to the elevation of the tide, the active RFID 11 It is understood that the coastal tide rises as the electromagnetic wave transmitted from the waveguide is affected by this water and its intensity changes, and the receiver 12 receives the electromagnetic wave whose intensity has changed.

"Third embodiment"

3 is a cross-sectional view showing a water detection device in a structure according to a third embodiment of the present invention, and is an example of a device for detecting watering of railroad tracks, which is a kind of structure.

The irrigation detection device 31 is provided on the track 32 of a railroad such as a conventional line, a Shinkansen, a subway, etc., and a roadbed 34 on which a rail 33 is attached, and an image ( A plurality of active RFID 11 provided in each of the 35 and sleepers 36, the receiver 12, the detector 13, the alarm 14, and the display device 15. have.

The watering detection device 31 differs from the watering detection device 2 of the first embodiment in that the watering detection device 2 of the first embodiment detects watering on the road surface of the concrete pavement 1. On the other hand, this watering detection device 31 is a device for detecting watering of the rail 33, the roadbed 34, the roadbed 35, the sleepers 36 and the like of the track 32.

In addition, the structure and operation of each of the active RFID 11, the receiver 12, the detector 13, the alarm 14, and the display device 15 of the watering detection device 31 are the watering detection according to the first embodiment. Since the configuration and operation of the active RFID 11, the receiver 12, the detector 13, the alarm 14, and the display device 15 of the device 2 are the same as those of the respective devices, the description is omitted here.

Also in the present embodiment, similar to the first embodiment, when water is generated in the track 32, for example, the rail 33, the roadbed 34, the roadbed 35, the sleeper 36, or the like, the fact of this watering Can be detected quickly as a change in the intensity of electromagnetic waves transmitted from the active RFID 11.

In addition, since the active RFID 11 does not have a mechanically movable portion and the sensor portion is not exposed to the outside, the detection function is deteriorated or broken due to mud or dust even under the harsh environment of the track 32. I never do that. In addition, even when a load or an impact is applied, the load or impact is not damaged.

Moreover, by transmitting and receiving electromagnetic waves between the active RFID 11 and the receiver 12, it is possible to constantly monitor the operation state of the active RFID 11 and the presence or failure of the active RFID 11 even in a normal state in which no watering occurs. .

In addition, by using the alarm 14 and the display apparatus 15 together, it is possible to thoroughly inform the inhabitants, the manager, and the like that water is generated in the track 32 more quickly.

"4th embodiment"

4 is a cross-sectional view showing a water detection device in the structure of the fourth embodiment of the present invention, and is an example of a device for detecting watering of underground structures such as underground streets and underpasses.

This watering detection device 41 is provided in an underground parking lot provided in a basement such as a building or a wooden house, a highway or a building, an underground structure 42 such as an underground street or an underground road provided in a facility or a building of a station, and includes concrete or wood. A plurality of active RFIDs 11, receivers 12, detectors 13, and alarms provided on each of the pillars 43 and the floor 44, walls 45 such as concrete walls and wooden panels. 14 and the display device 15.

The watering detection device 41 differs from the watering detection device 2 of the first embodiment in that the watering detection device 2 of the first embodiment detects watering of the road surface of the concrete pavement 1. On the contrary, the watering detection device 41 is a device that detects the watering of the underground structure 42 when the underground structure 42 is watered.

In addition, the structure and operation of each of the active RFID 11, the receiver 12, the detector 13, the alarm 14, and the display device 15 of the watering detection device 41 are the watering detection according to the first embodiment. Since the configuration and operation of the active RFID 11, the receiver 12, the detector 13, the alarm 14, and the display device 15 of the device 2 are the same as those of the respective devices, the description is omitted here.

Also in the present embodiment, similarly to the first embodiment, when the underground structure 42 is irrigated, the fact of the irrigation can be quickly detected as the intensity change of the electromagnetic wave transmitted from the active RFID 11.

In addition, since the active RFID 11 does not have a mechanically movable part and the sensor part is not exposed to the outside, even in an environment of the underground structure 42, the detection function is deteriorated due to mud, dust, or the like. I never do that. In addition, even when a load or an impact is applied, the load or impact is not damaged.

Moreover, by transmitting and receiving electromagnetic waves between the active RFID 11 and the receiver 12, it is possible to constantly monitor the operation state of the active RFID 11 and the presence or failure of the active RFID 11 even in a normal state in which no watering occurs. .

In addition, by using the alarm unit 14 and the display device 15 together, it is possible to thoroughly inform the user, the manager, and the like that watering has occurred in the underground structure 42 more quickly.

"Fifth Embodiment"

It is sectional drawing which shows the water detection apparatus in the structure of 5th Embodiment of this invention, and is an example of the apparatus which detects the watering of the road which is a kind of structure.

The watering detection device (water detection device in the structure) 51 of the present embodiment differs from the watering detection device 2 of the first embodiment in the transverse direction in the concrete layer 3 of the concrete pavement 1. The active RFID 11 is provided in the vicinity of both sides, respectively.

In addition, the structure and operation of each of the active RFID 11, the receiver 12, the detector 13, the alarm 14, and the display device 15 of the watering detection device 51 are the watering detection according to the first embodiment. Since the configuration and operation of the active RFID 11, the receiver 12, the detector 13, the alarm 14, and the display device 15 of the device 2 are the same as those of the respective devices, the description is omitted here.

Also in this embodiment, similar to the first embodiment, when watering occurs on the concrete pavement 1, the fact of the watering is provided from the active RFID 11 provided near both sides of the transverse direction in the concrete layer 3. It can be detected quickly as the intensity change of the outgoing electromagnetic wave.

In addition, by providing active RFIDs 11 near both sides of the transverse direction in the concrete layer 3, the watering of the concrete pavement 1 can be detected at a plurality of locations, and the reliability of the detection can be improved. .

Moreover, by communicating these active RFID 11s with each other, the space | interval between the active RFID 11 in the direction beyond a lane, ie the transverse direction, or the extension direction of the lane, ie, the space | interval between active RFID in the longitudinal direction, or Either of the spacing between the RFID in both the transverse and longitudinal directions can be taken wide.

Therefore, even in the case of using radio waves with a frequency of 1 kHz or less, for example, 400 MHz or 900 MHz, the distance of the irrigation portion is substantially long, and the concrete is similar to the case of using radio waves with a frequency of 1 kHz or more. The watering of the pavement 1 can be detected very sensitively.

In addition, active RFID 11 is provided near both sides of the transverse direction in the concrete layer 3, and a plurality of locations in the lane direction, for example, are provided near both sides of the transverse direction in the concrete layer 3 every 10 m in the lane direction. By setting it as a constitution, watering can be detected in a plurality of places in the lane direction, and the watering point on the concrete pavement 1 can be quickly identified, and the place where the watering on the concrete pavement 1 is generated is precisely inhabitants and managers. It can be quickly and thoroughly informed.

In this case, if the plurality of active RFID 11 provided in each of the transverse direction and the lane direction are communicated with each other, the watering can be detected at a plurality of points with a greater distance and different distances. Therefore, it is possible to quickly identify the watering conditions at various places on the concrete pavement 1 and to accurately and quickly inform the residents and managers of the locations and watering conditions where the watering on the concrete pavement 1 has occurred. have.

Moreover, even if the distance to the receiver 12 is very long, the state of watering can be detected efficiently, without increasing the installation number of the receiver 12.

"6th Embodiment"

It is sectional drawing which shows the water detection apparatus in the structure of 6th Embodiment of this invention, and is an example of the apparatus which detects the watering of the road which is a kind of structure.

The watermark detection device (water detection device in the structure) 61 of the present embodiment differs from the watermark detection device 2 of the first embodiment in the transverse direction in the concrete layer 3 of the concrete pavement 1. An active RFID 11 is provided near one end and an receiver 12 for receiving electromagnetic waves transmitted from the active RFID 11 near the other end, and the receiver 12 receives the active type. The change in the intensity of the electromagnetic wave from the RFID 11 is communicated to the entire area including the inhabitants and managers by the use of communication means 62 such as the Internet or a wireless communication system. .

In addition, the structure and operation of each of the active RFID 11, the receiver 12, the detector 13, the alarm 14 and the display device 15 of the watering detection device 61 are the watering detection according to the first embodiment. Since the configuration and operation of the active RFID 11, the receiver 12, the detector 13, the alarm 14, and the display device 15 of the device 2 are the same as those of the respective devices, the description is omitted here.

Also in this embodiment, like the first embodiment, when water is generated on the concrete pavement 1, the active RFID 11 provided near the end of one side in the transverse direction in the concrete layer 3 is provided. It can be detected quickly as the intensity change of electromagnetic wave transmitted from

In addition, by using communication means 62 such as the Internet or a wireless communication system, it is possible to promptly notify the entire area including the inhabitants and the manager that water is generated on the concrete pavement 1.

"Seventh Embodiment"

7 is a cross-sectional view showing a water detection device in a structure according to a seventh embodiment of the present invention, and is an example of a device for detecting watering of a road, which is a kind of structure.

The difference between the watering detection device (water detection device in the structure) 71 of the present embodiment and the watering detection device 2 of the first embodiment is in the transverse direction to the concrete layer 3 of the concrete pavement 1. Grooves 72 are formed, and active RFID 11 is provided at both ends of the grooves 72 in the longitudinal direction, and the grooves 72 are made of a cover 73 made of a conductor such as iron. It is a covered point.

In addition, the structure and operation of each of the active RFID 11, the receiver 12, the detector 13, the alarm 14, and the display device 15 of the watering detection device 71 are the watering detection according to the first embodiment. Since the configuration and operation of the active RFID 11, the receiver 12, the detector 13, the alarm 14, and the display device 15 of the device 2 are the same as those of the respective devices, the description is omitted here.

Also in the present embodiment, when watering occurs on the concrete pavement 1 as in the first embodiment, the fact of the watering is transmitted from the active RFID 11 provided at each of both ends in the longitudinal direction of the groove 72. It can be detected quickly as the intensity change of the electromagnetic wave.

In addition, by providing the active RFID 11 in the groove 72 of the concrete layer 3, even when the concrete layer 3 is slightly watered, the water irrigated flows into the groove 72 so that the groove ( It is possible to form a significant amount of water layer in 72). Therefore, by detecting the layer of water formed in the groove 72 by the active RFID 11, the watering of the concrete pavement 1 can be detected quickly and reliably.

In addition, by covering the groove 72 with a cover 73 made of a conductor such as iron, the radio wave transmitted from the active RFID 11 can be trapped and blocked in the groove 72, and further, the radio wave leaks upward. There is no possibility of making it possible, and the watering of the concrete pavement 1 can be detected more reliably.

1 Concrete Pavement 2 Watering Detector
3 Concrete Floors 11 Active RFID
12 receiver 13 detector
14 Alarm 15 Display
21 Flash detector 22 River
23 Hoan 24 Riverbed
25 Dike 31 Watering Detector
32 tracks 33 rails
34 roadbeds 35 degrees
36 Sleeper 41 Watering Detector
42 Underground Structure 43 Columns
44 floor 45 wall
51 Irrigation Detector 61 Irrigation Detector
62 Communication means 71 Watering detection device
72 groove 73 cover

Claims (16)

As a method of detecting watering, dipping or submerging in a structure,
Receive or install one or more active RFIDs at a position for detecting watering, flooding or flooding of the structure, and receiving electromagnetic waves transmitted from one or more active RFIDs in or near the structure. To provide a receiving means,
In the case where water, water or immersion occurs in the structure and water is interposed between a position where one or a plurality of the active RFIDs are embedded or installed in the structure and a position where the receiving means is provided, the receiving means The water detection method of the structure characterized by detecting the irrigation of water, the water, or the immersion of the said structure by receiving the electromagnetic wave whose intensity changed with the said water transmitted from the said active RFID. The method according to claim 1,
At least one active RFID among the plurality of active RFID is provided with a transmission means for receiving an electromagnetic wave transmitted from another active RFID, and transmitting the received electromagnetic waves, water detection method in the structure. The method according to claim 1 or 2,
And said structure is a road and, if the road is watered, watering of the road is detected. The method according to claim 1 or 2,
The structure is any one or two or more of the river banks, banks, riverbeds, bridges, if the river is flooded, at least one of the increase of the river, the flooding of the structure, the watering of the structure Method for detecting water in the structure, characterized in that for detecting. The method according to claim 1 or 2,
The structure is any one or two or more of coastal shores, banks, bridges, and when the coastal tide rises, any one of the rise of the tide, the flooding of the structure, the watering of the structure. The detection method of water in a structure characterized by detecting the abnormality. The method according to claim 1 or 2,
The structure is a track of a railway, and when the track is watered, the water is detected in the structure, characterized in that for detecting water. The method according to claim 1 or 2,
And said structure is an underground structure and, if the underground structure is watered, detecting the watering of said underground structure. As a member for a structure to which the detection method of water in the structure of Claim 1 or 2 is applied,
A member for a structure, wherein the active RFID is embedded or installed. As a member for a structure to which the water detection method in the structure of Claim 3 is applied,
A member for a structure, wherein the active RFID is embedded or installed. As a member for a structure to which the detection method of water in the structure of Claim 4 is applied,
A member for a structure, wherein the active RFID is embedded or installed. As a member for a structure to which the water detection method in the structure of Claim 5 is applied,
A member for a structure, wherein the active RFID is embedded or installed. As a member for a structure to which the water detection method in the structure of Claim 6 is applied,
A member for a structure, wherein the active RFID is embedded or installed. As a member for a structure to which the water detection method in the structure of Claim 7 is applied,
A member for a structure, wherein the active RFID is embedded or installed. A device for detecting watering, flooding or flooding in a structure,
One or a plurality of active RFID embedded or installed at a position for detecting watering, flooding or flooding of the structure;
Receiving means provided in or near the structure to receive electromagnetic waves transmitted from one or a plurality of the active RFIDs;
Detecting means for detecting water in the structure, comprising detecting means for detecting that water, water, or immersion has occurred in the structure from changes in intensity of electromagnetic waves transmitted from the one or more active RFIDs transmitted from the receiving means. Device. The method according to claim 14,
At least one active RFID of the plurality of active RFID is a water detection device in the structure, characterized in that it comprises a transmission means for receiving the electromagnetic wave transmitted from the other active RFID, and transmits the received electromagnetic wave. The method according to claim 14 or 15,
The detecting device of water in the structure, characterized in that the detecting means is provided with any one or both of the alarm means and the display means for notifying that the water, water or immersion occurred.

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