JP3999047B2 - Wireless communication manhole cover, wireless communication data collection device, and data collection system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention provides a wireless communication manhole cover that is installed in a manhole and is used to perform wireless communication between a wireless communication data collection device that collects and transmits underground buried object information and a base station on the ground, The underground communication information collected by the wireless communication data collection device that transmits the underground information collected using the manhole cover for wireless communication to the base station, and the wireless communication data collection device installed in the plurality of manholes. The present invention relates to a data collection system that enables communication with a communication terminal via a wireless communication manhole cover and a base station.
[0002]
[Prior art]
In the ground, water supply and sewer pipes, gas pipes, power cables, communication cables for control and information communication, etc. are buried, and dedicated or shared manholes are used for maintenance and information collection. A large number of are installed in each area.
In order to monitor the pipeline state from such buried objects and detect abnormalities in the buried equipment, it is necessary for a supervisor to investigate the state of the underground buried objects from the above-described manholes.
For this reason, sensor devices, data collection devices, etc. are often installed in each manhole, but in order to collect data, many manholes scattered around a wide area are sequentially circulated, and the supervisors enter the manholes. It was necessary to enter and collect data, and it was labor intensive.
In addition, traffic and pedestrian regulation around the manhole is necessary, which may annoy neighboring residents.
[0003]
For this reason, the development of a system that allows the observer to go around the manhole sequentially and obtain the data (underground information) that indicates the state of the underground object in the manhole without opening the manhole cover is progressing. It has been.
A conventional example of such a system will be described below.
Japanese Patent Application Laid-Open No. 55-30050 discloses a conventional example in which a transmitter / receiver is attached to the back side of a manhole cover made of an insulator and a transmission antenna is attached in a structure embedded in the manhole cover.
[0004]
Japanese Patent Publication No. 6-297553 discloses a conventional example in which a recess is provided on the back side of an iron manhole cover, the upper surface of the recess is closed with a non-conductive material, and a transmitting antenna is detachably inserted.
Japanese Utility Model Laid-Open No. 5-83053 discloses a configuration in which an antenna element is sandwiched between a pair of dielectric films.
Japanese Patent Application Laid-Open No. 8-53878 discloses a manhole cover antenna in which an antenna member is embedded and only the end of the antenna member is exposed.
[0005]
[Problems to be solved by the invention]
In each conventional example described above, communication between the ground and the manhole is performed by combining an underground communication means for transmitting the monitoring result of the state of the buried object and a relay antenna element attached to the manhole cover. For this purpose, the embedding of an antenna element in a manhole cover has been studied.
However, such a method of embedding an antenna element requires complicated processing of the manhole cover.
[0006]
In particular, when an existing manhole cover in which the antenna element is not embedded is used, the processing cost is high due to the complicated process of embedding the antenna element.
In addition, it is difficult to ensure the necessary strength for the manhole cover after the antenna element embedding process.
In addition, in order to reduce the processing cost, just mounting the antenna element without embedding it in the manhole cover will cause a protrusion of the antenna element's volume on the surface, so that the safety surface for people and vehicles passing over the manhole cover and the antenna This is a problem in terms of impact and strength applied to the element.
[0007]
Also, for example, in Japanese Patent Application Laid-Open No. 11-61867, in order to improve these problems, a slot (slot: also referred to as a slit or slit) is provided in the manhole cover, so that the antenna element for relay is provided in the manhole cover. A method has been proposed in which radio waves including measurement data can be transmitted to the ground from a radio device in a manhole without being embedded in the ground.
However, the manhole cover disclosed in Japanese Patent Application Laid-Open No. 11-61867 is intended to make it easier for a radio wave transmitted from a radio installed in the manhole to leak through a slot formed in the manhole cover. The leaked radio wave intensity is small and the radio wave reach is small.
[0008]
The present invention has been made in order to solve such a problem, and the underground buried object information collected by the wireless communication data collecting device installed in the manhole is converted into an antenna according to a command from a ground base station. In a data collection system that transmits data to a base station via a manhole cover that has a function, it is easy to process, has no protrusions, can secure the required strength, and has good radio wave characteristics (ie, radio wave arrival) An object of the present invention is to provide a radio communication manhole cover having a long-distance antenna function.
[0009]
It is another object of the present invention to provide a wireless communication data collection apparatus that is used in a data collection system using such a wireless communication manhole cover and is suitable for temporary installation and has good waterproofness.
Further, by using such a wireless communication manhole cover, data collected by a wireless communication data collection device installed in a plurality of manholes from remote communication terminals (that is, underground buried object information) can be efficiently used. It aims at providing the data collection system which can be collected well.
[0010]
[Means for Solving the Problems]
  The wireless communication manhole cover according to the present invention wirelessly transmits the underground collection information collected by the data collection device and the data collection device that collects underground buried object information detected by the sensor and a command signal from a ground base station. A manhole cover for wireless communication of a manhole in which a wireless communication data collection device composed of a wireless communication device that transmits by radio waves is installed,
A plurality of slots made of a conductor and having a predetermined length and width and functioning as a slot antenna are formed in different directions, and are attached in alignment with the back surfaces of the plurality of slots. A plurality of power feeding units for feeding the output of the communication device to the slot and exciting the slot as a slot antenna are provided.
[0011]
The predetermined length of the slot of the wireless communication manhole cover according to the present invention is about ½ of the radio wave wavelength transmitted by the wireless communication device.
[0012]
The wireless communication manhole cover according to the present invention is characterized in that a rib for reinforcing strength is provided on the surface on the basement side, and the slot is formed with an angle capable of securing the longest distance from the rib. And
[0014]
The slot of the wireless communication manhole cover according to the present invention is filled with resin.
[0015]
Moreover, the wireless communication data collection device according to the present invention uses the wireless communication manhole cover according to any one of claims 1 to 5 to collect collected underground information from a ground base station. A wireless communication data collection device that transmits a radio wave in response to a command signal, characterized in that it has a built-in battery and is covered with a waterproof case.
[0016]
The data collection system according to the present invention includes a communication terminal, a communication line connecting a plurality of base stations and the communication terminal, a data collection device for collecting and logging underground buried object information detected by a sensor, and From the radio | wireless communication apparatus which transmits the data logged by the data collection device using the wireless communication manhole cover of any one of -5 to a base station by a radio wave according to the command signal from a base station A plurality of wireless communication data collection devices installed in each of the plurality of manholes, the data logged by the data collection device of the wireless communication data collection device installed in each manhole, It collects from a communication terminal via a base station, It is characterized by the above-mentioned.
[0017]
Further, the data collection system according to the present invention provides a wireless communication manhole cover and a base station from the wireless communication data collection device when the underground buried object information detected by the sensor shows an abnormal value or when the measurement equipment is abnormal. Thus, it is possible to automatically report information indicating that the communication terminal is abnormal.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
In the drawings, the same reference numerals represent the same or equivalent.
Embodiment 1 FIG.
FIG. 1 is a diagram conceptually illustrating a configuration example of a data collection system using a wireless communication manhole cover according to the present invention.
2 is a front view of the manhole cover for wireless communication according to the first embodiment, FIG. 3 is a side view of the manhole cover for wireless communication according to the first embodiment, and FIG. 4 is for wireless communication according to the first embodiment. It is a reverse view of a manhole cover.
[0019]
1-4, 1 is a wireless communication manhole cover, 1a is a slot, 1b is a power supply unit, 1c is a coaxial cable, 1d is a coaxial connector, 2 is a manhole, 3 is a wireless communication data collection device, and 3a is a wireless communication 3b is a data collection device, 3c is a battery unit, 4 is a fire hydrant, 5 is a pipe, 6 is a sensor, 7 is a base station, 8 is a communication terminal, and 9 is the ground.
[0020]
In FIG. 1, reference numeral 5 denotes a pipe buried in the ground. A fire hydrant 4 is attached to a branch pipe of the pipe 5, and the fire hydrant 4 is installed in a manhole 2.
Further, a sensor 6 is attached to the pipe 5 in the manhole 2, and data indicating the state of the underground buried object and the like detected and measured by the sensor 6 (that is, underground buried object information) is stored in the wireless communication data collection device 3. And is logged in the data collection device 3b.
[0021]
In addition, the underground embedment information includes not only data indicating the state of the underground embedment itself, but also data relating to the state of the object processed by the underground embedment (for example, gas concentration, amount of groundwater, water quality, etc.) Shall.
The wireless communication data collection device 3 includes a wireless communication device 3a, a data collection device 3b, and a battery unit 3c.
And the coaxial cable 1c which comes out from the output end of the radio | wireless communication apparatus 3a is connected to the manhole cover 1 for radio | wireless communication of the conductor attached as a cover body to the upper part of the manhole 2 via the coaxial connector 1d.
[0022]
As shown in FIG. 2, the wireless communication manhole cover 1 according to the first embodiment has a slot having a predetermined length (for example, a length of about one-half of the radio wave wavelength l radiated from the wireless communication device 3 a). (Slot: slit) 1a is formed.
In general, the length 1 of the slot 1a is equal to or shorter than the wavelength of the radio wave radiated from the wireless communication device 3a, and is formed sufficiently longer than the slot width.
Further, when the length 1 of the slot 1a is about one half of the radio wave wavelength l radiated from the wireless communication device 3a, the radio wave is radiated most efficiently.
[0023]
As shown in FIG. 3, the slot 1 a penetrates the wireless communication manhole cover 1, and a power feeding portion 1 b is attached to the back surface of the wireless communication manhole cover 1 in the penetrated portion.
A coaxial cable 1c from the output end of the wireless communication device 3a is connected to the power supply unit 1b via a coaxial connector 1d.
As shown in FIG. 4, the power feeding portion 1b is attached at a position shifted from the center of the slot 1a in order to achieve alignment with the coaxial cable 1c.
With this configuration, the slot 1a formed in the wireless communication manhole cover 1 made of a conductor (for example, iron) is excited by the output signal of the wireless communication device 3a and functions as a so-called slot antenna.
[0024]
As described above, the wireless communication manhole cover according to the present embodiment is collected by the data collection device that collects underground buried object information detected by the sensor and the command signal from the ground base station. A manhole cover for wireless communication of a manhole in which a wireless communication data collection device including a wireless communication device that transmits measurement signal information by wireless waves is installed, and has a predetermined length (for example, radio waves radiated from the wireless communication device) A slot having a length approximately one-half of the wavelength l) is formed, and the slot is excited by the transmission output of the wireless communication device.
[0025]
For this reason, in the manhole cover for wireless communication according to the present embodiment, the slot having a predetermined length (for example, a length of about one half of the radio wave wavelength l radiated from the wireless communication device) is provided on the existing manhole cover. Is formed, and the power supply unit and the external coaxial cable are simply attached, so that the processing and attachment process is easy.
That is, it is possible to easily change to a manhole cover for wireless communication having an antenna function by simply slotting an existing manhole cover.
In addition, in terms of strength as a manhole cover, since the width of the formed slot is small, the existing manhole cover that is not slot processed and the manhole cover for wireless communication according to the present embodiment are equivalent.
[0026]
Furthermore, in terms of antenna performance, the radio communication manhole cover according to the present embodiment as a slot antenna has better radio wave characteristics than when a loop antenna or planar antenna is attached to the manhole cover.
When a loop antenna is attached to the manhole cover, the loop antenna is shielded by an iron cover because it is bidirectional, and the performance deteriorates. When a flat antenna is attached to the manhole cover, the antenna structure becomes large because the frequency band is narrow. .
On the other hand, a wireless communication manhole cover as a slot antenna is not affected by a reflected wave from a conductor (for example, iron) cover, and has an effect of obtaining a wide frequency band performance with one slot hole.
[0027]
In addition, the type of embedding the antenna element in the manhole cover complicates processing, making it difficult to divert the existing manhole cover, and it is necessary to create a new manhole cover with the antenna element embedded and replace it. is there.
If the existing manhole cover is diverted, the antenna element will be attached to the surface of the manhole cover, and a protruding part will occur, which has a safety problem for people and objects passing over the manhole cover, Since the wireless communication manhole cover according to the present embodiment only has a slot, no protrusion is generated and there is no problem in terms of safety.
[0028]
Embodiment 2. FIG.
5 is a front view of the wireless communication manhole cover according to the second embodiment, FIG. 6 is a side view of the wireless communication manhole cover according to the second embodiment, and FIG. 7 is a wireless communication manhole according to the second embodiment. It is a reverse view of a lid | cover.
5 to 7, reference numeral 1e denotes a rib formed on the back surface of the radio communication manhole cover. In a manhole cover of a type having the rib 1e, a slot 1a is provided in a portion where the rib 1e is not provided.
And when the space | interval of the rib 1e is narrow, it has an angle (predetermined angle) which can ensure the longest distance with respect to the rib 1e, and provides the slot 1a diagonally with respect to the direction of the rib 1e.
[0029]
The slot 1a is excited by a transmission signal guided by a coaxial cable from the output end of the wireless communication device 3a, and an electromagnetic wave is generated and a radio wave is radiated, but the distance between the slot 1a and the rib 1e which is a conductor portion is increased. The effect on the electromagnetic wave becomes smaller when it is separated.
When the influence of the rib 1e on the electromagnetic wave is reduced, the antenna radio wave radiation space is increased, and the radio wave characteristic performance as the antenna is improved.
[0030]
Embodiment 3 FIG.
8 is a front view of the wireless communication manhole cover according to the third embodiment, FIG. 9 is a side view of the wireless communication manhole cover according to the third embodiment, and FIG. 10 is a wireless communication manhole cover according to the third embodiment. FIG.
The wireless communication manhole cover according to the present embodiment is characterized in that a plurality of slots 1a having different directions are provided on the manhole cover.
8 to 10 show an example in which two slots 1a having different directions are provided.
[0031]
The transmission output from the wireless communication device 3a guided by the coaxial cable excites two slots 1a having different directions via the power feeding unit 1b.
Since the two slots 1a have different directions, the transmission output from the wireless communication device 3a is radiated into the air by radio waves having different directivities.
As described above, the manhole cover for wireless communication according to the present embodiment has a plurality of slots having different orientation angles, thereby having a plurality of antenna radio wave directivities, and having an antenna performance with a wide directivity. be able to.
[0032]
Embodiment 4 FIG.
FIG. 11 is a cross-sectional view showing a main part of a manhole cover for wireless communication according to the fourth embodiment.
The wireless communication manhole cover according to the present embodiment is characterized in that, in the wireless communication manhole cover according to the first to third embodiments, the slot 1a is filled with a resin 1f.
In the wireless communication manhole cover according to the first to third embodiments, when a liquid such as rainwater stretches a film in the slot portion or is clogged with earth, sand, stones, and dust, the performance as a slot antenna is lowered.
[0033]
However, by filling the slot portion with resin, liquid such as rainwater does not stretch on the slot portion or clog with earth, sand, stones, dust, etc., so that the performance of the slot antenna can be maintained well.
Further, when the resin is filled in the slot portion, no protrusion is physically generated on the manhole cover, so that it is safe for people and objects passing over the manhole cover.
[0034]
Embodiment 5 FIG.
As shown in FIG. 1, the wireless communication data collection device 3 includes a wireless communication device 3a, a data collection device 3b, and a battery unit 3c.
The wireless communication data collecting apparatus 3b according to the present embodiment uses the wireless communication manhole cover 1 according to any of the first to fourth embodiments to send the collected underground buried object information to the command from the ground base station 7. A wireless communication data collecting device 3 that transmits a radio wave in response to a signal, characterized in that a battery is incorporated and is covered with a waterproof case.
[0035]
Since the wireless communication data collection device 3 has the battery unit 3c, it can operate without an external power supply.
For this reason, the wireless communication data collection device 3 according to the present embodiment is portable, and can be temporarily installed in the manhole 2 by an operator.
Further, in order to transmit the data collected by the wireless communication data collection device 3, the transmission output of the wireless communication device 3a is guided to the slot 1a formed in the wireless communication manhole cover 1 by the coaxial cable 1c, and the power supply unit 1b is passed through. The slot 1a is excited through this, and the transmission data is radiated as a radio wave.
[0036]
The wireless communication data collecting apparatus 3 according to the present embodiment having a built-in battery can be used alone even in manholes in an environment where there are many power sources in each area and there is no power source.
Furthermore, the wireless communication data collection device 3 is equipped with a waterproof case, and even when water accumulates in the manhole due to rain or the like, it does not affect the devices inside the wireless communication data collection device 3.
[0037]
As described above, the wireless communication data collection device according to the present embodiment eliminates the need for an external power supply due to the built-in battery, and is also installed inside a manhole where there is a possibility of inundation due to rain due to the waterproof case. It is possible, and temporary installation is easily possible in the manhole.
[0038]
Embodiment 6 FIG.
FIG. 1 conceptually shows a configuration example of a data (that is, underground buried object information) collection system using a wireless communication manhole cover that functions as the slot antenna shown in any of the first to fourth embodiments. Yes.
In the data collection system according to the present embodiment, the communication terminal 8, the communication line connecting the plurality of base stations 7 and the communication terminal 8, the data collection device 3b for collecting and logging the underground buried object information detected by the sensor 6, and Using the wireless communication manhole cover 1 according to any of the first to fourth embodiments, the data logged by the data collection device 3b is transmitted to the base station 7 by radio waves in response to a command signal from the base station 7. Data comprising a plurality of wireless communication data collection devices 3 installed in each of a plurality of manholes, and data logged by the data collection device 3b of the wireless communication data collection device 3 installed in each manhole. Can be collected from the communication terminal 8 via the wireless communication manhole cover 1 and the base station 7.
[0039]
Then, when necessary at a remote location, a command signal for data collection is transmitted from the communication terminal 8 to the wireless communication manhole cover 1 through the base station.
The transmitted command signal is transmitted to the wireless communication data collection device 3 in the manhole via the wireless communication manhole cover 1.
The wireless communication data collection device 3 uses the wireless communication device 3a, the wireless communication manhole cover 1, the data collected / logged by the data collection device 3b according to the received command signal (that is, the measurement signal information of the underground buried object), The data is transmitted to the communication terminal 8 via the base station 7 and the communication line.
[0040]
In FIG. 1, one data collection system is shown for each of the base station 7 and the manhole 2, but normally, a plurality of base stations are provided for one communication terminal, and one base A plurality of manholes (accordingly, a plurality of wireless communication data collection devices 3) are provided for the station.
[0041]
Therefore, the data according to the present embodiment has conventionally been troublesome because it is necessary to go around the manholes scattered in a wide range one by one at the time of data collection, and the monitor must enter the manhole to acquire the data. In the collection system, a large number of manhole underground information can be easily communicated with a communication terminal via a wireless base station from a remote communication terminal, and the underground information can be collected with high efficiency.
[0042]
Embodiment 7 FIG.
The data collection system according to the present embodiment is the same as the data collection system according to the above-described sixth embodiment, when the underground buried object information detected by the sensor 6 shows an abnormal value, or the measurement device itself including the sensor 6 is abnormal. In such a case, the wireless communication device 3a of the wireless communication data collecting device 3 can automatically report abnormality information indicating abnormality to the communication terminal 8 via the wireless communication manhole cover 1 and the base station 7. Yes.
Accordingly, it is possible to immediately know the manhole where the underground buried object information and the measuring device are abnormal from the remote communication terminal, and it is possible to implement a quick countermeasure.
[0043]
【The invention's effect】
The wireless communication manhole cover according to the present invention is a data collection device that collects underground buried object information detected by a sensor and underground buried object information collected by the data collecting device according to a command signal from a base station on the ground. A manhole cover for wireless communication of a manhole in which a wireless communication data collecting device including a wireless communication device for transmission is installed, and a slot having a predetermined length is formed, and the slot is defined by a transmission output of the wireless communication device Since it is excited, it is possible to realize a manhole cover for radio communication having a sufficient strength as a slot antenna and having a good antenna function as a slot antenna by ensuring the strength by simply slotting the existing manhole cover.
[0044]
In addition, since the predetermined length of the slot of the wireless communication manhole cover according to the present invention is about ½ of the radio wave wavelength transmitted by the radio communication device, the radio wave characteristics are the best.
[0045]
In addition, the wireless communication manhole cover according to the present invention is provided with a rib for reinforcing strength on the surface on the basement side, and the slot is formed with an angle that can secure the longest distance to the rib. Even if the reinforcing rib is provided, the antenna has the least influence on the electromagnetic wave, and has a good antenna function with a large antenna radio wave radiation space.
[0046]
Also, a plurality of slots of the wireless communication manhole cover according to the present invention are formed, and the formed slots have different directions, so that the antenna performance with wide directivity can be obtained.
[0047]
In addition, since the slot of the wireless communication manhole cover according to the present invention is filled with resin, a liquid such as rain water does not form a film in the slot portion, and earth and sand, stones, dust, etc. are not clogged. Can maintain good performance.
[0048]
Moreover, the wireless communication data collection device according to the present invention uses the wireless communication manhole cover according to any one of claims 1 to 5 to transmit the collected underground embedment information to a command from a ground base station. A wireless communication data collection device that transmits radio waves in response to signals, and it has a built-in battery and is covered with a waterproof case, so there is no need for external power supply. It can also be installed inside a manhole where there is a possibility of temporary installation work.
[0049]
Moreover, the data collection system according to the present invention includes a communication terminal, a communication line connecting a plurality of base stations and communication terminals, a data collection device that collects and logs underground buried object information detected by a sensor, and claims 1 to 3. 5. A wireless communication device that transmits data logged by the data collection device using the wireless communication manhole cover according to any one of 5 to the base station by radio waves in response to a command signal from the base station. A plurality of wireless communication data collection devices installed in each of the plurality of manholes, and the data logged by the data collection device of the wireless communication data collection device installed in each manhole, the wireless communication manhole cover and the base Since it is collected from the communication terminal via the station, information on underground objects in a number of manholes from the remote communication terminal can be exchanged with the communication terminal via the radio base station. In enabling communication, it can be performed very efficient collection of underground object information.
[0050]
In addition, the data collection system according to the present invention provides a wireless communication data collection device through a wireless communication manhole cover and a base station when the underground buried object information detected by the sensor shows an abnormal value or when the measurement device is abnormal. Because it is possible to automatically report information indicating that there is an abnormality to the communication terminal, it is possible to immediately know the manhole where the underground buried object information and the measuring equipment are abnormal from the remote communication terminal, and respond quickly Measures can be implemented.
[Brief description of the drawings]
FIG. 1 is a diagram conceptually illustrating a configuration example of a data collection system using a wireless communication manhole cover antenna according to a first embodiment.
2 is a surface view of a wireless communication manhole according to Embodiment 1. FIG.
FIG. 3 is a side view of a wireless communication manhole according to the first embodiment.
FIG. 4 is a back view of the manhole for wireless communication according to the first embodiment.
5 is a surface view of a manhole cover for wireless communication according to Embodiment 2. FIG.
6 is a side view of a wireless communication manhole cover according to a second embodiment. FIG.
7 is a rear view of a wireless communication manhole cover according to Embodiment 2. FIG.
8 is a surface view of a wireless communication manhole cover according to Embodiment 3. FIG.
9 is a view seen from the side of a manhole cover for wireless communication according to a third embodiment. FIG.
10 is a rear view of a wireless communication manhole cover according to Embodiment 3. FIG.
FIG. 11 is a cross-sectional view showing a main part of a wireless communication manhole cover according to a fourth embodiment.
[Explanation of symbols]
1 Manhole cover for wireless communication 1a Slot
1b Feeding part 1c External coaxial cable
1d Coaxial connector 1e Rib
1f Resin 2 Manhole
3 Wireless communication data collection device 3a Wireless communication device
3b Data collection device 3c Battery part
4 Fire hydrants 5 Piping
6 sensors 7 base stations
8 Communication terminal 9 Ground

Claims (7)

A radio comprising a data collection device that collects underground buried object information detected by the sensor and a wireless communication device that transmits the underground buried object information collected by the data collecting device by radio waves in response to a command signal from a ground base station A manhole cover for wireless communication of a manhole in which a communication data collection device is installed,
A plurality of slots made of a conductor and having a predetermined length and width and functioning as a slot antenna are formed in different directions, and are attached in alignment with the back surfaces of the plurality of slots. A wireless communication manhole cover, comprising: a plurality of power supply units for supplying power from the communication device to the slot and exciting the slot as a slot antenna.   2. The manhole cover for wireless communication according to claim 1, wherein the predetermined length of the slot is about ½ of a radio wave wavelength transmitted by the wireless communication device.   The rib for reinforcing strength is provided on the surface on the underground side, and the slot is formed with an angle capable of securing a longest distance with respect to the rib. Manhole cover for wireless communication.   The wireless communication manhole cover according to claim 1, wherein the slot is filled with resin. Wireless communication data for transmitting the collected underground information using radio waves according to a command signal from a ground base station using the wireless communication manhole cover according to any one of claims 1 to 4. A collecting device,
A wireless communication data collection device characterized in that a battery is incorporated and covered with a waterproof case. A communication terminal, a communication line connecting a plurality of base stations and the communication terminal, and
A data collection device that collects and logs underground information detected by the sensor;
Data logged by the data collection device using the wireless communication manhole cover according to any one of claims 1 to 4 is transmitted to the base station by radio waves in response to a command signal from the base station. A wireless communication device, and a plurality of wireless communication data collection devices installed in each of a plurality of manholes,
Data collection characterized by collecting data logged by the data collection device of the wireless communication data collection device installed in each manhole from the communication terminal via the wireless communication manhole cover and the base station system.   When the underground buried object information detected by the sensor shows an abnormal value or when the measuring device is abnormal, the communication is automatically performed from the wireless communication data collection device via the wireless communication manhole cover and the base station. 7. The data collection system according to claim 6, wherein information indicating that the terminal is abnormal can be reported.

Images