JP4407888B2 - Antenna body and buried pipe damage monitoring system using the same - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a damage monitoring system for monitoring damage to buried pipes.
[0002]
[Prior art]
In residential land development sites, etc., if you try to embed a gas pipe (for example, a low-pressure gas pipe) that leads to each household after road construction, you have to dig up the constructed road, which takes time and money. For this reason, gas pipes are buried before road construction. If the gas pipe is buried before the road construction in this way, the gas pipe buried during the road construction may be damaged.
[0003]
However, if the gas pipe is damaged during road construction, the damage cannot be confirmed until the gas pipe is connected to the gas main pipe (for example, the low-pressure gas main pipe) and gas leakage is confirmed. If it is attempted to repair at the stage, a) the length of the gas pipe facility is long, so it is difficult to investigate the damaged part from the ground, b) the road is excavated to investigate the damaged part of the gas pipe, etc. However, since it is necessary to apply to the road administration office, etc., it takes time to apply, etc. c) Even if the damaged part of the gas pipe is specified, the road must be dug for repair, There are problems such as high construction costs for repairs.
[0004]
On the other hand, a monitoring system that generates an abnormal signal when the gas pressure is reduced has been proposed as a terminal gas pressure monitoring system for cutting and tying work in a gas pipe (see, for example, Patent Document 1). In this monitoring system, the terminal gas pressure is monitored, and an alarm signal is generated when the gas pressure drops abnormally to notify the cellular phone such as a construction supervisor of the occurrence of the abnormality.
[0005]
[Patent Document 1]
Japanese Patent Laid-Open No. 11-82900
[0006]
[Problems to be solved by the invention]
In the terminal gas pressure monitoring system, the terminal gas pressure is monitored at all times during cutting and tying work, and it is possible to respond quickly when an abnormality occurs. Regarding the occurrence of damage to the (low pressure gas pipe), there is no monitoring system as described above, and it is possible to know the occurrence of damage only by detecting the occurrence of gas leakage by connecting the preceding buried pipe to the gas main pipe. Realization of a monitoring system such as a pressure monitoring system has been desired.
[0007]
It is an object of the present invention to provide a buried pipe damage monitoring system that can monitor the occurrence of damage to the buried pipe and notify the occurrence of the damage.
[0008]
Another object of the present invention is to provide an antenna body that can be used by being attached to a manhole cover and can be advantageously applied to a damage monitoring system for buried pipes.
[0009]
  The buried pipe damage monitoring system according to claim 1 of the present invention is a pressure detection means for detecting the pressure of the buried pipe sealed with pressurized gas, and determines an abnormality based on a detection signal of the pressure detection means. An abnormality determining means for performing, an alarm signal generating means for generating an alarm signal when the abnormality determining means determines an abnormality, a transmitting means for transmitting the detection signal or the alarm signal, and the transmitting means A receiving means for receiving the transmitted detection signal or the alarm signal; and a buried pipe damage monitoring system comprising:
  The pressure detecting means is provided in association with a manhole installed on the ground, and the transmitting means includes an antenna body attached to a manhole cover that closes the manhole, and the antenna body is attached to an upper surface of the manhole cover. And a transmission antenna built in the antenna body,The antenna body is formed of a hard synthetic resin material, and the longitudinal cross-sectional shape is an arc shape or a trapezoid shape,In addition, the antenna body is provided with a mounting protrusion that is inserted into an opening / closing hole provided in the manhole cover,A cable for supplying the detection signal or the alarm signal to the transmission antenna is incorporated in the mounting protrusion.It is characterized by that.
[0010]
In this damage monitoring system, a pressurized gas, for example, pressurized air, is sealed in a buried pipe (for example, a gas pipe buried prior to road construction work), and the pressure detection means detects the pressure gas in the buried pipe. Detect pressure. The pressure value of the pressurized gas is kept almost constant if there is no damage to the buried pipe, but if it is damaged by a construction machine during road construction, the pressure gas leaks to the outside and the pressure value, that is, the pressure The detection pressure of the detection means decreases. Such damage monitoring (pressure drop monitoring) may be performed at all times, or may be performed at intervals of a predetermined time (for example, an appropriate time of 1 to 10 hours, for example, about 6 hours). Also good.
[0011]
  When the detected pressure decreases in this way (for example, decreases by a predetermined value from the initial pressure or decreases to a predetermined pressure), the abnormality determination unit determines that an abnormality has occurred, and the alarm signal generation unit generates an alarm. An antenna body is attached to the manhole cover, and a pressure signal from the pressure detection means or an alarm signal from the alarm signal generation meansIs sent to the transmitting antenna via a cable built in the mounting protrusion of the antenna body, and transmitted from this transmitting antenna.. When the pressure signal is transmitted, the receiving unit receives the pressure signal, and determines whether or not the abnormality determining unit is abnormal based on the received pressure signal. On the other hand, when an alarm signal is transmitted, the alarm signal is transmitted from the transmission unit to the reception unit. The pressure detecting means is provided in association with the manhole, and the antenna body of the transmitting means is attached to the manhole cover. And since the transmission antenna of an antenna body is built in the antenna main body attached to the upper surface of a manhole cover, a transmission signal (a detection signal or an alarm signal) can be transmitted from a transmission antenna as needed.In addition, since the antenna body of the antenna body is formed of a hard synthetic resin material, the transmission antenna is not damaged even if a vehicle or the like passes over the antenna body. Moreover, since the longitudinal cross-sectional shape of the antenna body is an arc shape or a trapezoidal shape, the antenna body protrudes gently on the upper surface of the manhole cover so that a vehicle or the like can easily get over and a pedestrian or the like does not trip. Furthermore,The antenna body is provided with a mounting protrusion, and this mounting protrusion is inserted into the opening / closing hole of the manhole cover, so that the antenna body can be mounted without modifying the conventional manhole cover.In this case, a transmission signal can be sent to the transmission antenna via a cable built in the mounting protrusion.
[0012]
Further, in the buried pipe damage monitoring system according to claim 2 of the present invention, the abnormality determining means and the alarm signal generating means are installed in the manhole, the receiving means is an alarm receiving means, and the alarm signal The alarm signal generated by the generation unit is transmitted from the transmission antenna to the alarm reception unit.
[0013]
In this damage monitoring system, since the abnormality judging means and warning signal generating means are installed in the manhole, these abnormality judging means do not get in the way during road construction etc., and should be managed safely throughout the residential land development work Can do.
[0014]
Further, in the buried pipe damage monitoring system according to claim 3 of the present invention, a mounting portion is provided at a portion of the mounting projection of the antenna body that protrudes into the manhole, and the antenna body extends from the manhole cover. A detachment preventing member for preventing the detachment from being attached to the attachment portion.
[0015]
In this damage monitoring system, an attachment portion is provided on the attachment protrusion of the antenna body, and when the attachment protrusion is inserted through the opening / closing hole of the manhole cover, the attachment portion is positioned in the manhole. A detachment preventing member is attached to the attachment portion, and the detachment preventing member can reliably prevent the antenna body from being detached from the manhole cover.
[0016]
  The antenna body according to claim 4 of the present invention is an antenna body attached to a manhole cover,
The antenna body includes an antenna body attached to the upper surface of the manhole cover, and a transmission antenna built in the antenna body.The antenna body is formed of a hard synthetic resin material, and the longitudinal cross-sectional shape is an arc shape or a trapezoid shape,In addition, the antenna body is provided with a mounting protrusion that is inserted into an opening / closing hole provided in the manhole cover,A cable for supplying a detection signal or an alarm signal to the transmission antenna is incorporated in the mounting protrusion.It is characterized by that.
[0017]
  In this antenna body, the transmission antenna is built in the antenna body attached to the upper surface of the manhole cover, so that the transmission antenna outside the manhole can be protected.The In addition, since the antenna body is formed of a hard synthetic resin material, the transmission antenna is not damaged even if a vehicle or the like passes over the antenna body. Moreover, since the longitudinal cross-sectional shape of the antenna body is an arc shape or a trapezoidal shape, the antenna body protrudes gently on the upper surface of the manhole cover so that a vehicle or the like can easily get over and a pedestrian or the like does not trip. Furthermore,The antenna body is provided with a mounting protrusion, and this mounting protrusion is inserted into the opening / closing hole of the manhole cover, so that the antenna body can be mounted without modifying the conventional manhole cover.In addition, a transmission signal can be sent to the transmission antenna via a cable built in the mounting protrusion.For example, the transmission antenna may be embedded so as to be integrated with the antenna body, or the transmission antenna may be unitized and attached to the antenna body.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an antenna body according to the present invention and a buried pipe damage monitoring system using the antenna body according to the present invention will be described with reference to the accompanying drawings. 1 is a cross-sectional view schematically illustrating a damage monitoring system according to an embodiment, and FIG. 2 is a plan view illustrating a state in which the antenna body of the damage monitoring system in FIG. 1 is attached to a manhole cover. FIG. 4 is a plan view showing the antenna body of FIG. 2, FIG. 4 is a bottom view showing the antenna body of FIG. 3, FIG. 5 is a front view showing the antenna body of FIG. 3, and FIG. FIG. 7 is a block diagram showing a control system of the damage monitoring system of FIG. 1, and FIG. 7 is a flowchart showing a flow of monitoring damage to the buried pipe by the control system of FIG. 6.
[0019]
In FIG. 1, this buried pipe damage management system is a pressure sensor for detecting the pressure in a buried pipe 2 (for example, a gas pipe buried prior to road construction or the like) buried in a residential land development site or the like. 4 (which constitutes a pressure detection means), a microcomputer 6 for processing a detection signal of the pressure sensor 4, a transmission means 8 for transmitting an alarm signal from the microcomputer 6, and an alarm signal from the transmission means 8 A mobile phone 10 and a center system 12 are provided, and the mobile phone 10 and the center system 12 constitute alarm receiving means for receiving an alarm signal.
[0020]
For example, a gas pipe 14 for extracting pressure is connected to the buried pipe 2, and a gas cock 15 is attached to an end of the gas pipe 14. A tube 16 is connected to the gas cock 15, and a detection unit of the pressure sensor 4 is connected to an end of the tube 16. Therefore, when the gas cock 15 is opened, the pressurized gas in the buried pipe 2 is guided to the pressure sensor 4 through the gas pipe 14, the gas cock 15 and the tube 16. When monitoring the damage of the buried pipe 2, the buried pipe 2 is kept in a sealed state, and a pressure gas, for example, pressurized air is enclosed in the sealed buried pipe 2.
[0021]
A damage monitoring unit 18 including a microcomputer 6 and a battery (not shown) is installed in a manhole 20 provided at a predetermined location on the road. In this embodiment, the pressure sensor 4 is also included in the damage monitoring unit 18. Yes. Alternatively, the pressure sensor 4 may be attached to the buried pipe 2 and a pressure signal from the pressure sensor 4 may be sent to the microcomputer 6 of the damage monitoring unit 18.
[0022]
The manhole 20 is defined by a bottom wall 22 and a peripheral side wall 24 formed of concrete or the like, and a manhole cover 26 is attached to the upper surface opening thereof so as to be freely opened and closed. The damage monitoring unit 18 can be installed in the manhole 20 by opening the manhole cover 26, and the damage monitoring unit 18 can be taken out by closing the manhole cover 26 as shown in FIG. The damage monitoring unit 18 can be safely stored even at a residential land development site. In particular, since the manhole cover 26 requires a special opening / closing tool (not shown) to open and close it, it is very difficult for a general person to open and close, and the damaged opening / closing unit 18 can be stored safely.
[0023]
The transmission means 8 includes an antenna body 28 that transmits an alarm signal, and the antenna body 28 is attached to the manhole cover 26. The antenna body 28 and the configuration related to the antenna body 28 will be described with reference to FIGS. 2 to 5 together with FIG. 1. The illustrated antenna body 28 includes a thin disk-shaped antenna body 30, and a transmission antenna 32 is provided in the antenna body 30. Is built-in. The antenna body 30 is made of a hard synthetic resin material, and the transmission antenna 32 is built in the antenna body 30 and is not exposed to the outside. With this configuration, a vehicle (construction vehicle, passenger car, etc.) can be used. Even if the antenna body 30 is passed over, the transmission antenna 32 is not damaged, and the transmission antenna 32 can be protected.
[0024]
The manhole cover 26 is usually provided with a pair of opening / closing holes 34 for inserting and opening a tip of a special opening / closing tool (not shown), and is associated with one of the pair of opening / closing holes 34. The antenna body 28 is attached. The opening / closing hole 34 of the manhole cover 26 is formed in a rectangular shape, for example, and is provided through the manhole cover 26. Further, a mounting protrusion 36 that protrudes downward is provided on the bottom of the antenna body 30, and this mounting protrusion 36 corresponds to the shape of the opening / closing hole 34. The antenna body 28 is mounted so as to be placed on the upper surface of the manhole cover 26 by inserting the mounting protrusion 36 into one opening / closing hole 34 from above the manhole cover 26. Since this antenna body 30 has an arc shape with a thin vertical cross-section, it does not protrude greatly from the upper surface of the manhole cover 26, and the protrusion is also gentle, so that a vehicle or the like can easily get over. Also, pedestrians will not trip over.
[0025]
An attachment hole (not shown) as an attachment portion is provided at the tip of the attachment protrusion 36 of the antenna body 28, and a removal prevention pin 40 as a separation prevention member is attached to the attachment hole. When the mounting projection 36 is inserted into the opening / closing hole 34 of the manhole cover 26, the tip (portion where the mounting hole is provided) protrudes into the manhole 20, and the detachment prevention pin 40 is attached to the mounting hole of the protruding portion. It is done. When the antenna body 28 is lifted upward from the manhole cover 26 in this mounted state, the separation preventing pin 40 comes into contact with the inner surface of the manhole cover 26, thereby reliably removing the antenna body 28 from the manhole cover 26. Can be prevented.
[0026]
Thus, since the antenna body 28 is attached using the opening / closing hole 34 of the manhole cover 26, the conventional manhole cover 26 can be used as it is without any modification. The attachment portion may be constituted by an attachment screw hole or the like, and in this case, a removal prevention screw as a separation prevention member is screwed into the attachment screw hole.
[0027]
The damage monitoring unit 18 and the antenna body 28 (that is, the transmission antenna 32 incorporated therein) are electrically connected via a cable 44. As shown in FIG. 1, the cable 44 is built in a mounting protrusion 36 provided in the antenna body 30, and is connected to the transmission antenna 32 through a hole formed in the mounting protrusion 36, for example. Since the antenna body 28 is attached to the manhole cover 26 as described above, the cable 44 is guided into the manhole 20 through the opening / closing hole 34 of the manhole cover 26, and as required in the terminal portion of the damage monitoring unit 10. Can be connected to. In addition, since the cable 44 is built in the mounting projection 36, it is not exposed to the outside in and around the opening / closing hole 34. Therefore, the cable 44 directly contacts the manhole cover 26. Can be prevented and its damage can be prevented.
[0028]
The mobile phone 10 as an alarm receiving means is possessed by, for example, a person in charge of managing a residential land development site (a person in charge of an administrator who manages the buried pipe), and the buried pipe 2 is damaged as described later. An alarm signal transmitted from the damage monitoring unit 18 is received, and the person in charge of the site can know that the buried pipe 2 has been damaged by this alarm signal. Further, the center system 12 as an alarm receiving means is composed of, for example, a system computer installed in a gas supply management center, and receives an alarm signal transmitted from the damage monitoring unit 18 when the buried pipe 2 is damaged. In the management center, it is possible to know that the buried pipe 2 has been damaged. Note that such alarm signal notification may be performed by either one of the person in charge of the site or the management center, or may be made to another person in charge such as a person in charge of the site preparation work.
[0029]
Next, the microcomputer 6 and the like built in the damage monitoring unit 28 will be described with reference to FIG. In this embodiment, the microcomputer 6 has a pressure calculation means 52 and an abnormality determination means 56. The pressure calculation means 52 calculates the pressure value of the pressure gas in the buried pipe 2 based on the detection signal from the pressure sensor 4, and the abnormality determination means 56 determines that the detected pressure of the pressure sensor 4 is a predetermined pressure value from the initial pressure value. It is determined that there is an abnormality when it has decreased above.
[0030]
The microcomputer 6 includes mail creating means 58 and mail issuing means 60. The mail creating means 58 creates an alarm mail as an alarm signal when the abnormality judging means 56 judges that an abnormality has occurred, and the mail issuing means 60 sends the created alarm mail from the transmission antenna 32 of the transmitting means 8 to the mobile phone 10 and Transmit to the center system 12. By using the alarm mail in this way, it is possible to notify the abnormality of the buried pipe 2 easily and easily.
[0031]
The microcomputer 6 further includes time measuring means 62, a first memory 64, and a second memory 66. The time measuring means 62 measures the time, and the first memory 64 stores the buried pipe information, the abnormality content information, the time interval for detecting the pressure, the predetermined pressure value which is the determination condition of the abnormality determining means 56, the destination information of the alarm mail, etc. And the second memory 66 stores the pressure value detected by the pressure sensor 4 and the like. The information stored in the first memory 64 is used when the mail creating means 58 creates the alarm mail, and the created alarm mail includes, for example, time information, buried pipe information, abnormality content information, transmission destination information, and the like. included.
[0032]
The mobile phone 10 further includes a transmission / reception means 72 for transmitting / receiving signals, a signal processing means 74 for processing transmission / reception signals, a display means 76 for displaying signal information, and an alarm means 78 for issuing an alarm. Have. The transmission / reception means 72 is constituted by, for example, a transmission / reception antenna, the signal processing means 74 is constituted by, for example, a microprocessor, the display means 76 is constituted by, for example, a liquid crystal display device, and the alarm means 78 is constituted by, for example, a speaker. Further, the center system 12 has a transmission / reception unit 82, a signal processing unit 84, a display unit 86, and an alarm unit 88, similar to the mobile phone 10, although the apparatus itself is large.
[0033]
The monitoring of the buried pipe 2 by the damage monitoring system described above is performed according to the flowchart shown in FIG. Referring mainly to FIG. 6 and FIG. 7, for example, in order to perform damage management of the buried pipe 2 buried prior to road construction in a residential land development site or the like, first, the buried pipe 2 is sealed and the inside A pressurized gas (for example, pressurized air) is sealed in (Step S1). When a predetermined time for pressure detection is reached (for example, every 6 hours elapses), the process proceeds from step S2 to step S3, and pressure detection by the pressure sensor 4 is performed. A detection signal from the pressure sensor 4 is sent to the microcomputer 6 via the first cable 42, and the pressure calculation means 52 calculates the pressure (pressure of the pressure gas) in the buried pipe 2 based on this detection signal.
[0034]
And the abnormality determination means 56 determines whether the pressure in the burying pipe | tube 2 fell more than predetermined value (step S4). When the buried pipe 2 is damaged, the pressurized gas inside leaks to the outside, and the pressure in the buried pipe 2 decreases and approaches the atmospheric pressure. From this, the pressure in the buried pipe 2 is reduced. If the initial pressure value (initial pressure value) decreases by a predetermined pressure value or more, the abnormality determining means 56 determines that an abnormality has occurred and the buried pipe 2 is damaged and the pressurized gas is leaking (step S5). move on. On the other hand, if there is no pressure drop in the buried pipe 2, the process returns to step S2 assuming that the buried pipe 2 is not damaged, and the damage monitoring by the pressure detection described above is repeated. In this embodiment, it is determined that an abnormality occurs when the initial pressure is reduced by a predetermined pressure value or more. Instead, an abnormality is determined when the pressure in the buried pipe 2 is reduced to a predetermined value. You may make it do.
[0035]
When the abnormality determining means 56 determines that the abnormality is present and the process proceeds to step S6, the mail creating means 58 creates an alarm mail indicating that the buried pipe 2 has been damaged in the residential land development site, and the mail issuing means 60 is created. The alarm mail is transmitted to the mobile phone 10 and the center system 12 (step S7). For transmission of this alarm mail, a transmission signal including alarm information is sent from the microcomputer 6 to the transmission antenna 32 of the antenna body 28 via the cable 44 and transmitted from the transmission antenna 32. The manhole cover 26 is generally formed of cast iron, and it is difficult to transmit a transmission signal and transmission of the transmission signal from the manhole 20 is difficult. However, the transmission antenna 32 is built in the antenna body 30 attached to the upper surface of the manhole cover 26. Therefore, the transmission signal can be transmitted as required.
[0036]
The transmission signal transmitted in this way is received by the mobile phone 10 and the center system 12 (step S8), and the person in charge who owns the mobile phone 10 sees the content displayed on the display means 76, thereby It is possible to know that damage has occurred in the buried pipe 2 in the creation site, and the manager who manages the center system 12 also knows that the buried pipe 2 has been damaged by looking at the contents displayed on the display means 86. be able to. Thus, the person in charge (and manager) informed of the occurrence of damage responds to the occurrence of damage to the buried pipe 2 (step S9) and repairs the damaged portion of the buried pipe 2 (step S10). . As mentioned above, the buried pipe 2 is regularly monitored for damage, and if the damage occurs promptly, it is easy to identify the construction site, and the buried pipe 2 is broken during construction at any construction site. Therefore, there are few places to dig up for repair, repair can be easily performed, and the construction cost for that can be reduced.
[0037]
The antenna body 28A attached to the manhole cover 26 can also be configured as shown in FIGS. 8 is a plan view showing a modified antenna body, FIG. 9 is a bottom view showing the antenna body of FIG. 8, and FIG. 10 is a front view showing the antenna body of FIG.
[0038]
8 to 10, a modified antenna body 28A includes a thin rectangular disk-shaped antenna main body 30A, and the antenna main body 30A has a thin trapezoidal cross-sectional shape. The transmitting antenna 32 is built in the antenna body 30A, and a mounting projection 36 is provided at the bottom of the antenna body 30A to be inserted into the opening / closing hole of the manhole cover 26. The basic configuration of the modified antenna body 28A is substantially the same as that of the antenna body 28 shown in FIGS. Even if such an antenna body 28A is used, the same effect as described above can be achieved.
[0039]
The embodiments of the antenna body and the buried pipe damage monitoring system using the antenna body according to the present invention have been described above. However, the present invention is not limited to such embodiments, and various embodiments can be made without departing from the scope of the present invention. The deformation | transformation thru | or correction | amendment are possible.
[0040]
For example, in the above-described embodiment, an alarm mail as an alarm signal is transmitted from the transmission antenna 32, but instead of such a configuration, a detected pressure signal from the pressure sensor 4 is transmitted from the transmission antenna 32 and received. The abnormality determination means may determine whether or not there is an abnormality based on the detected pressure signal.
[0041]
Further, for example, in the above-described embodiment, the antenna body 28 (28A) is applied to the damage monitoring system for the buried pipe 2, but such an antenna body 28 (28A) is limited to such a damage monitoring system. The present invention can be applied to other systems such as an end gas pressure monitoring system.
[0042]
  According to the buried pipe damage monitoring system of the first aspect of the present invention, the pressurized gas is sealed in the buried pipe, and the pressure change of the pressurized gas is monitored by the pressure detecting means. Can be detected quickly and reliably. Since the transmitting antenna of the transmitting means is built in the antenna body attached to the upper surface of the manhole cover, the alarm signal can be transmitted as required. In addition, since the mounting protrusion of the antenna body is inserted into the opening / closing hole of the manhole cover, the antenna body can be mounted without improving the conventional manhole cover.In addition, since the antenna body is formed of a hard synthetic resin material, the transmission antenna can be protected from passage of the vehicle, and the longitudinal section of the antenna body is an arc shape or a trapezoidal shape. It is easy to get over and pedestrians will not trip over.
[0043]
Further, in the buried pipe damage monitoring system according to claim 2 of the present invention, the abnormality determining means and the alarm signal generating means are installed in the manhole, so that these abnormality determining means are obstructed during road construction. Rather, it can be managed safely throughout the residential land development.
[0044]
Further, according to the buried pipe damage monitoring system according to claim 3 of the present invention, since the separation preventing member is attached to the mounting portion of the antenna body, the separation preventing member removes the antenna body from the manhole cover. Can be ensured.
[0045]
  In the antenna body according to claim 4 of the present invention, since the transmission antenna is built in the antenna body attached to the upper surface of the manhole cover, the transmission antenna outside the manhole can be protected. Further, the antenna body can be attached without improving the conventional manhole cover.In addition, since the antenna body is formed of a hard synthetic resin material, the transmission antenna can be protected from passage of the vehicle, and the longitudinal section of the antenna body is an arc shape or a trapezoidal shape. It is easy to get over and pedestrians will not trip over.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view schematically illustrating one embodiment of a damage monitoring system according to the present invention.
FIG. 2 is a plan view showing a state where the antenna body of the damage monitoring system of FIG. 1 is attached to a manhole cover.
FIG. 3 is a plan view showing the antenna body of FIG. 2;
4 is a bottom view showing the antenna body of FIG. 3; FIG.
5 is a front view showing the antenna body of FIG. 3; FIG.
6 is a block diagram showing a control system of the damage monitoring system of FIG. 1. FIG.
7 is a flowchart showing a flow of monitoring damage to the buried pipe by the control system of FIG. 6;
FIG. 8 is a plan view showing a modified antenna body.
9 is a bottom view showing the antenna body of FIG. 8. FIG.
10 is a front view showing the antenna body of FIG. 8. FIG.
[Explanation of symbols]
2 buried pipe
4 Pressure sensor
6 Microcomputer
8 Transmission means
10 Mobile phone
12 Center system
18 Damage monitoring unit
20 Manhole
26 Manhole cover
28,28A Antenna body
30, 30A antenna body
32 Transmitting antenna
34 Hole for opening and closing
36 Mounting projection
40 Detachment prevention pin
44 cable
52 Pressure calculation means
56 Abnormality determination means
58 E-mail creation means
60 Mail notification means

Claims (4)

Pressure detection means for detecting the pressure of the buried pipe sealed with pressurized gas, abnormality determination means for determining abnormality based on a detection signal of the pressure detection means, and the abnormality determination means determined to be abnormal An alarm signal generating means for generating an alarm signal sometimes; a transmission means for transmitting the detection signal or the alarm signal; and a receiving means for receiving the detection signal or the alarm signal transmitted by the transmission means A buried pipe damage monitoring system comprising:
The pressure detecting means is provided in association with a manhole installed on the ground, and the transmitting means includes an antenna body attached to a manhole cover that closes the manhole, and the antenna body is attached to an upper surface of the manhole cover. And a transmission antenna built in the antenna body, the antenna body is formed of a hard synthetic resin material, and the longitudinal cross-sectional shape is an arc shape or a trapezoidal shape, and the antenna body is provided on the manhole cover. A mounting projection that is inserted into the opening / closing hole, and a cable for supplying the detection signal or the alarm signal to the transmission antenna is built in the mounting projection. Pipe damage monitoring system.   The abnormality determination unit and the alarm signal generation unit are installed in the manhole, the reception unit is an alarm reception unit, and the alarm signal generated by the alarm signal generation unit is transmitted from the transmission antenna to the alarm reception unit. The buried pipe damage monitoring system according to claim 1, transmitted to   A mounting portion is provided in a portion of the mounting protrusion of the antenna body that protrudes into the manhole, and a separation preventing member for preventing the antenna body from being detached from the manhole cover is attached to the mounting portion. The buried pipe damage monitoring system according to claim 1 or 2. An antenna body attached to a manhole cover,
The antenna body includes an antenna main body attached to the upper surface of the manhole cover, and a transmission antenna built in the antenna main body. The antenna main body is formed of a hard synthetic resin material, and a vertical cross-sectional shape is an arc shape or a trapezoidal shape. Further, the antenna body is provided with a mounting protrusion to be inserted into an opening / closing hole provided in the manhole cover, and a detection signal or an alarm signal is sent to the transmission antenna at the mounting protrusion. An antenna body characterized by a built-in cable .

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