CN116263238A - Saddle belt type monitoring bolt valve device - Google Patents

Abstract

The invention relates to a saddle belt type monitoring bolt valve device, comprising: the system comprises a saddle belt, a water diversion bolt, a battery accommodating box body and a pipeline monitoring assembly, wherein the pipeline monitoring assembly senses a fluid conveying pipe below the ground and directly and wirelessly transmits pipeline monitoring information to a monitoring end device above the ground in a mode of reducing ground shielding by a ground exposed part of the battery accommodating box body.

Description

Saddle belt type monitoring bolt valve device

Technical Field

The invention relates to the technical field of fluid pipeline monitoring devices, in particular to a saddle belt type monitoring bolt valve device.

Background

Fluid transfer pipes are pipes used for transferring fluids, of which tap water pipes are most common. The water leakage rate of the tap water pipe in each county and city in taiwan of this year is counted to be approximately 25% for the highest, and approximately 10% for the lowest. The water leakage rate is remarkable, and even the water shortage of taiwan can be said to be caused by the leakage of the fluid conveying pipe.

In order to solve the leakage problem of the fluid conveying pipe, in the prior art, a fluid pipeline monitoring device is installed on the fluid conveying pipe to monitor the fluid conveying pipe and transmit back information so as to judge whether abnormal conditions such as leakage occur. However, since the fluid delivery pipe is generally disposed under the ground, the information feedback of the fluid pipeline monitoring device is easily shielded by the ground and cannot be transmitted wirelessly, and it is often required to transmit the monitoring information to the signaling station on the ground through the signal line extending to the ground, and then transmit the monitoring information to the signaling station. Furthermore, in order to maintain the long-term operation of the fluid line monitoring apparatus, the prior art also needs to further provide a power supply device and supply power to the fluid line monitoring apparatus via a power line extending to the ground.

The above method is more complicated in arrangement because the signaling station and the power supply equipment are additionally arranged on the ground, the signal wire is pulled between the signaling station and the fluid pipeline monitoring device, and the power wire is pulled between the power supply equipment and the fluid pipeline monitoring device, and the signaling station and the power supply equipment on the ground occupy more space, so that the existing road or ground facilities are easy to be blocked.

Disclosure of Invention

Accordingly, an object of the present invention is to provide a saddle belt type monitoring bolt valve device which is easy to install, does not occupy floor space, and can well transmit information back, so as to solve the problems of the prior art.

The present invention provides a saddle belt type monitoring bolt valve device for monitoring a fluid conveying pipe under the ground, which comprises: the saddle belt comprises an upper saddle belt and a lower saddle belt, the upper saddle belt and the lower saddle belt are in up-down leaning together to fix the fluid conveying pipe between the upper saddle belt and the lower saddle belt in a surrounding way, the upper saddle belt is penetrated and formed with a bolt valve communication hole, and the bolt valve communication hole is provided with a pipe wall opening corresponding to the fluid conveying pipe; the water diversion bolt comprises a water diversion bolt body, a communicating pipe part and a shunt pipe part, the water diversion bolt body is provided with a top opening, the communicating pipe part and the shunt pipe part respectively extend out of the water diversion bolt body and are communicated with the top opening, and the water diversion bolt is arranged on the saddle belt so that the water diversion bolt body is communicated with the fluid conveying pipe through the communicating pipe part, the bolt valve communicating hole and the pipe wall opening; the bottom of the battery accommodating box body is provided with a bolt body assembling part, the top of the battery accommodating box body is provided with a ground exposing part, a battery accommodating space is formed between the bolt body assembling part of the battery accommodating box body and the ground exposing part by a preset box body extending height, and the box body extending height is arranged in a mode that the battery accommodating box body is assembled by the bolt body assembling part and communicated with the top opening of the water diversion bolt body, and the ground exposing part is arranged on the water diversion bolt in a mode that signals are exposed on the ground; the control circuit module is coupled to the battery, and at least one sensor is coupled to the control circuit module and extends into the fluid delivery pipe through the bolt body assembling part, the top opening, the water diversion bolt body, the communicating pipe part, the bolt valve communicating hole and the pipe wall opening to sense and acquire pipeline monitoring information about the fluid delivery pipe, the pipeline monitoring information at least comprises pipeline fluid pressure information, wherein the control circuit module is provided with an information transmitting unit, and the information transmitting unit is configured to wirelessly transmit the pipeline monitoring information to a monitoring end device positioned above the ground in a manner of reducing ground shielding by the ground exposing part of the battery accommodating box body.

In an embodiment of the invention, a saddle belt type monitoring bolt valve device is provided, wherein the water diversion bolt further comprises an electric valve body driver coupled to the battery and the control circuit module, the control circuit module is provided with a signal receiving unit, the signal receiving unit is configured to receive a valve body control signal from above the ground in a manner of reducing the ground shielding by the ground exposed part of the battery accommodating box body, and the control circuit module controls the electric valve body driver according to the valve body control signal, and drives a valve body in the water diversion bolt body by the electric valve body driver so as to change the water diversion adjusting position of the valve body.

In an embodiment of the present invention, a saddle belt type monitoring bolt valve device is provided, wherein the pipeline monitoring component includes a plurality of the sensors, and the pipeline monitoring information sensed and obtained by the plurality of the sensors further includes one or more of toxic substance detection information, in-pipe fluid turbidity information, in-pipe fluid ph information, in-pipe fluid plastic particle content information and in-pipe fluid flow information.

In one embodiment of the present invention, a saddle belt-type monitoring faucet valve device is provided, wherein the ground exposure portion is a pavement cat eye device.

In an embodiment of the invention, a saddle belt type monitoring faucet valve device is provided, wherein the battery is a rechargeable battery, the control circuit module has a wireless charging unit, and the wireless charging unit is a wireless charging device configured to be inductively coupled above the ground in a manner of reducing the ground shielding by the ground exposed portion of the battery accommodating box body so as to charge the rechargeable battery.

In one embodiment of the present invention, the saddle belt type monitoring bolt valve device is provided, wherein the pipeline monitoring information includes pipeline leakage point information, and at least one of the sensors further includes a pipeline leakage point detector, and the pipeline leakage point detector is used for sensing and acquiring the pipeline leakage point information by receiving the leakage detection signal transmitted by the detection signal transmitting unit of the other saddle belt type monitoring bolt valve device through the fluid conveying pipe through the detection signal receiving unit.

In one embodiment of the present invention, a saddle belt type monitoring bolt valve device is provided, wherein the monitoring end device is an intelligent mobile device or an unmanned aerial vehicle.

In one embodiment of the present invention, a saddle belt type monitoring plug valve device is provided, wherein the information transmitting unit wirelessly transmits the pipeline monitoring information through bluetooth wireless transmission.

By adopting the technical means, the saddle belt type monitoring bolt valve device can well conduct wireless information transmission in a mode of reducing ground shielding through the ground exposed part of the battery accommodating box body, so that a signaling station is not required to be additionally arranged on the ground, a signal wire extending to the ground is not required to be arranged, the arrangement is easier, and the ground space is not occupied. Meanwhile, the design of the extending height of the box body extending to the ground exposure part is provided, so that the battery accommodating box body is provided with a large enough battery accommodating space to accommodate batteries with larger capacity and longer service life, long-term operation of the saddle belt type monitoring bolt valve device can be maintained, no power supply equipment is required to be additionally arranged on the ground, and the batteries are not required to be replaced frequently. In addition, through the integration with saddle area water diversion bolt, saddle belt type monitoring bolt valve device can be installed on the fluid conveying pipe under the condition that need not to break the pipe, stop water, further reduces the construction degree of difficulty, and is convenient for a large amount of settings.

Drawings

FIG. 1 is a schematic view of a saddle belt type monitoring plug valve device according to an embodiment of the present invention.

Fig. 2 is a schematic cross-sectional view of a saddle belt-type monitoring plug valve device according to an embodiment of the present invention when mounted to a fluid delivery tube.

FIG. 3 is a block diagram of a saddle belt type monitoring bolt valve device according to an embodiment of the present invention when transmitting pipeline monitoring information.

Fig. 4 is a block diagram of a saddle belt type monitoring plug valve device according to an embodiment of the present invention when wireless charging is performed.

Fig. 5 is a schematic view of a saddle belt type monitoring plug valve device according to an embodiment of the present invention when detecting a leak.

Reference numerals

100. Saddle belt type monitoring bolt valve device

100' saddle belt type monitoring bolt valve device

1. Saddle belt

10. Pipeline penetrating space

11. Upper saddle belt

111. Bolt valve communicating hole

12. Saddle belt

13. Bolt

2. Water diversion bolt

21. Water diversion bolt body

211. Top opening

22. Communicating pipe part

23. Shunt tube part

24. Valve body

25. Electric valve body driver

3. Battery accommodating box

30. Battery accommodating space

31. Bolt body assembling part

32. Floor exposed portion

4. Pipeline monitoring assembly

41. Battery cell

42. Control circuit module

421. Information transmitting unit

422. Signal receiving unit

423. Wireless charging unit

43. Sensor for detecting a position of a body

431. Detection signal receiving unit

432. Detection signal transmitting unit

5. Monitoring terminal device

6. Wireless charging device

F fluid delivery tube

F1 Pipe wall opening

F2 Leakage point

G ground

H box extension height

I pipeline monitoring information

Detailed Description

The following describes an embodiment of the present invention with reference to fig. 1 to 5. The description is not intended to limit the invention to the particular embodiment disclosed, but rather to be exemplary of the invention.

As shown in fig. 1 to 3, a saddle belt type monitoring plug valve device 100 according to an embodiment of the present invention is for monitoring a fluid delivery pipe F located under a ground G, and the saddle belt type monitoring plug valve device 100 includes a saddle belt 1, a water diversion plug 2, a battery housing case 3, and a pipe monitoring assembly 4.

As shown in fig. 1 and 2, the saddle belt 1 includes an upper saddle belt 11 and a lower saddle belt 12, the upper saddle belt 11 and the lower saddle belt 12 are vertically abutted to each other and the fluid pipe F is fixedly enclosed between the upper saddle belt 11 and the lower saddle belt 12, a plug valve communication hole 111 is formed in the upper saddle belt 11, and a pipe wall opening F1 corresponding to the fluid pipe F is provided in the plug valve communication hole 111.

Specifically, in the present embodiment, the upper saddle belt 11 and the lower saddle belt 12 are fastened to each other by bolts 13, and a pipe passing space 10 is enclosed between the upper saddle belt 11 and the lower saddle belt 12. The pipe passing space 10 is used for passing the fluid conveying pipe F, and the upper saddle belt 11 and the lower saddle belt 12 clamp the fluid conveying pipe F from top to bottom respectively by locking the bolts 13. The pipe passing space 10 is a generally cylindrical space having a diameter of about 50mm, preferably about 100mm in this embodiment.

As shown in fig. 1 and 2, the water diversion plug 2 includes a water diversion plug body 21, a communicating pipe portion 22 and a shunt pipe portion 23, the water diversion plug body 21 has a top opening 211, the communicating pipe portion 22 and the shunt pipe portion 23 extend from the water diversion plug body 21 and are communicated with the top opening 211, respectively, and the water diversion plug 2 is arranged on the saddle belt 1 so that the water diversion plug body 21 is communicated with the fluid conveying pipe F through the communicating pipe portion 22, the plug valve communicating hole 111 and the pipe wall opening F1.

Specifically, the diverter plug is typically a plug valve for use in installing a new diverter line on an existing line. In the water diversion plug 2, the communication pipe portion 22 and the shunt pipe portion 23 communicate with each other through the water diversion plug body 21, and a valve body 24 (for example, a ball valve) is provided in the water diversion plug body 21, and communication between the communication pipe portion 22 and the shunt pipe portion 23 is opened or closed by switching the water diversion adjustment position of the valve body 24. The water diversion plug 2 is provided with the saddle belt 1 such that the communication pipe portion 22 is joined to the plug valve communication hole 111 of the upper saddle belt 11 to be connected to the fluid delivery pipe F through the plug valve communication hole 111, and the branch pipe portion 23 is used to connect a branch pipe (not shown). Therefore, a part of the fluid in the fluid delivery pipe F can be split into the branch pipe by passing through the communicating pipe portion 22, the tap body 21, and the split pipe portion 23 in order.

In addition, when the water diversion bolt 2 and the saddle belt 1 are mounted to the fluid transfer pipe F, the water diversion bolt 2 is usually fixed to the fluid transfer pipe F by the saddle belt 1, and then the pipe wall opening F1 is opened in the pipe wall of the fluid transfer pipe F by a drilling tool (not shown) through the top opening 211 of the water diversion bolt body 21, the valve body 24, the communicating pipe portion 22, and the bolt valve communicating hole 111 of the upper saddle belt 11, so that the water diversion bolt 2 communicates with the fluid transfer pipe F. As described above, the water diversion plug 2 and the saddle belt 1 do not need to be broken, and the fluid flowing into the water diversion plug 2 from the pipe wall opening F1 due to the communication between the water diversion plug 2 and the fluid delivery pipe F can be closed in time by switching the water diversion adjustment position of the valve body 24, so that a large amount of leakage of the fluid is not caused, and the water does not need to be stopped during the installation.

As shown in fig. 1 and 2, the bottom of the battery accommodating case 3 has a plug assembling portion 31, the top of the battery accommodating case 3 has a ground exposing portion 32, a battery accommodating space 30 is formed between the plug assembling portion 31 of the battery accommodating case 3 and the ground exposing portion 32 by a predetermined case extending height H, the case extending height H is configured such that the battery accommodating case 3 is assembled by the plug assembling portion 31 and is communicated with the top opening 211 of the water diversion plug 21, and the ground exposing portion 32 is disposed on the water diversion plug 2 in a manner that signals are exposed to the ground G.

Specifically, the battery housing case 3 is provided and coupled to the water diversion plug 2. In this embodiment, the plug body assembling portion 31 is a threaded connection portion, and the battery accommodating case 3 is assembled and fixed to the top of the water diversion plug body 21 by the threaded connection portion screwed to the outer periphery of the top opening 211 of the water diversion plug body 21, and is communicated with the water diversion plug body 21 through the plug body assembling portion 31 and the top opening 211.

The ground exposure portion 32 is configured in such a manner that a signal is exposed to the ground G, wherein "signal is exposed to the ground" refers to a configuration that enables a signal to be transmitted (exposed) directly onto the ground G through the ground exposure portion 32, and may have various situations including: the ground exposing portion 32 protrudes above the ground G; the top surface of the ground exposing portion 32 is at the same height as the ground G; the floor exposed portion 32 is located below the floor G without a signal shield between the floor exposed portion 32 and the floor G. For example: the floor exposing portion 32 is located below the vent hole of the manhole cover of the floor G, and this arrangement is a way of disposing the signal exposed to the floor G because the signal can pass through the floor exposing portion 32 and be directly transmitted (exposed) to the floor G through the vent hole of the manhole cover. In addition, it is needless to say that, in order to enable the signal transmission through the ground exposure portion 32, the ground exposure portion 32 itself is preferably made of a material that does not affect the signal transmission, for example: a plastic. In addition, as shown in FIG. 2, the ground exposure 32 may be configured as a pavement cat eye device or integrated with other pavement markers, so that the ground exposure 32 is not only non-interfering with existing roads, but also can be used as a pavement marker.

The battery accommodating case 3 has the predetermined case extension height H, which enables the battery accommodating case 3 to extend from the top of the tap body 21 to expose the ground exposing portion 32 to the ground G. The fluid transfer tube F typically has a depth of burial limit, such as: 120 cm or more, the case extension height H is also of a corresponding size, so that the battery accommodating space 30 formed by the battery accommodating case 3 has a sufficient size to accommodate a large-capacity and long-lasting battery.

As shown in fig. 1 to 3, the pipeline monitoring assembly 4 includes a battery 41, a control circuit module 42, and at least one sensor 43, the battery 41 is accommodated in the battery accommodating space 30, the control circuit module 42 is coupled to the battery 41, the at least one sensor 43 is coupled to the control circuit module 42 and extends into the fluid conveying pipeline F through the bolt body assembling portion 31, the top opening 211, the water diversion bolt body 21, the communicating pipe portion 22, the bolt valve communicating hole 111 and the pipeline wall opening F1 to sense and obtain pipeline monitoring information I about the fluid conveying pipeline F, the pipeline monitoring information I at least includes pipeline fluid pressure information, wherein the control circuit module 42 has an information transmitting unit 421, and the information transmitting unit 421 is configured to wirelessly transmit the pipeline monitoring information I to a monitoring end device 5 located above the ground surface G in such a manner that the ground surface shielding is reduced by the ground surface exposing portion 32 of the battery accommodating box 3.

Specifically, the battery 41 is for supplying power required for the overall operation of the saddle belt type monitoring plug valve device 100, and includes: the control circuit module 42 wirelessly transmits signals and at least one of the sensors 43 senses information. Since the battery accommodating space 30 formed by the battery accommodating case 3 has a sufficient size, the battery 41 can be selected to be a large-capacity and long-lasting battery to maintain the long-term operation of the saddle belt type monitoring plug valve device 100, for example: power was continuously supplied for 3 years. Thus, there is no need to provide a separate power supply device on the ground G, and there is no need to frequently replace the battery 41.

The control circuit module 42 is used to control the overall operation of the saddle belt type monitor latch valve device 100. In the embodiment, the control circuit module 42 and the battery 41 are disposed in the battery accommodating space 30 and above the battery 41, but the invention is not limited thereto. In other embodiments, the control circuit module 42 may be disposed below or on one side of the battery 41, or the control circuit module 42 may be disposed outside the battery accommodating space 30, for example: is provided on the inner wall of the battery housing case 3 or in the key assembly part 31 or the ground exposure part 32. In other words, the control circuit module 42 can be arbitrarily set as long as the pipeline monitoring information I wirelessly transmitted by the information transmitting unit 421 can be transmitted to the monitoring end device 5 through the ground exposing portion 32. In the present embodiment, the information transmitting unit 421 wirelessly transmits the pipeline monitoring information I through bluetooth wireless transmission, and the transmission distance thereof can reach about 30-100 meters. Of course, the invention is not limited thereto, and other wireless transmission methods can also be applied to the information sending unit 421. In addition, the monitoring device 5 may be an intelligent mobile device or an unmanned plane. The monitoring personnel can utilize intelligent mobile device to receive this pipeline monitoring information I, also can utilize unmanned aerial vehicle to receive this pipeline monitoring information I at the long-range.

In this embodiment, the pipeline monitoring device 4 includes a plurality of sensors 43, and the pipeline monitoring information I sensed and acquired by the plurality of sensors 43 may further include: toxic material detection information, in-pipe fluid turbidity information, in-pipe fluid pH value information, in-pipe fluid plastic particle content information and in-pipe fluid flow information. As the name implies, the in-pipe fluid pressure information is information about the in-pipe fluid pressure of the fluid conveying pipe F, the toxic substance detection information is information about the toxic substance content of the in-pipe fluid of the fluid conveying pipe F, the in-pipe fluid turbidity information is information about the water quality turbidity of the in-pipe fluid of the fluid conveying pipe F, the in-pipe fluid pH value information is information about the pH value (pH value) of the in-pipe fluid of the fluid conveying pipe F, the in-pipe fluid plastic particle content information is information about the plastic particle content in the in-pipe fluid of the fluid conveying pipe F, and the in-pipe fluid flow information is information about the flow of the in-pipe fluid of the fluid conveying pipe F. The types of the sensors 43 used are different according to the different pipeline monitoring information I, and the sensors 43 are all directly sensed by extending from the battery accommodating box 3 into the fluid conveying pipe F through the water diversion bolt 2 so as to obtain accurate pipeline monitoring information I.

As shown in fig. 1 to 3, the saddle belt-type monitoring faucet valve device 100 according to an embodiment of the present invention, the faucet 2 further includes an electric valve body driver 25 coupled to the battery 41 and the control circuit module 42, the control circuit module 42 has a signal receiving unit 422, the signal receiving unit 422 is configured to receive a valve body manipulation signal from above the ground G in such a manner that the ground exposed portion 32 of the battery housing case 3 is shielded from the ground, and the control circuit module 42 controls the electric valve body driver 25 according to the valve body manipulation signal, and drives the valve body 24 in the faucet body 21 through the electric valve body driver 25 to change the faucet position of the valve body 24.

Specifically, since the saddle belt type monitoring faucet valve device 100 of the present invention can use the battery 41 with a large capacity and a long duration and the pipeline monitoring assembly 4 including the battery 41 is integrated to the water diversion faucet 2, there is enough power to electrically regulate the valve body 24 nearby in addition to information sensing and signal transmission.

As shown in fig. 4, according to the saddle belt type monitoring faucet valve device 100 of an embodiment of the present invention, the battery 41 is a rechargeable battery, the control circuit module 42 has a wireless charging unit 423, and the wireless charging unit 423 is a wireless charging device 6 configured to be inductively coupled to the ground G in such a manner as to be less shielded by the ground surface exposed portion 32 of the battery housing case 3, so as to charge the rechargeable battery.

As shown in fig. 3 and 5, according to the saddle belt type monitoring plug valve device 100 of an embodiment of the present invention, the pipe monitoring information I includes pipe leakage point information, and at least one of the sensors 43 further includes a pipe leakage point detector for sensing and acquiring the pipe leakage point information by receiving the leakage detection signal transmitted through the fluid conveying pipe by the detection signal transmitting unit 432 of the other saddle belt type monitoring plug valve device 100' through the detection signal receiving unit 431. Specifically, by providing a large number of the saddle belt type monitoring plug valve devices 100, in addition to monitoring the local area to determine whether or not the fluid transfer pipe F is leaking, the specific position of the leak point F2 in the entire pipe section between the adjacent two saddle belt type monitoring plug valve devices 100, 100' can be further accurately detected by various means such as ultrasonic detection.

With the above configuration, the saddle belt type monitoring plug valve device 100 of the present invention can perform wireless transmission of information well in such a manner that the ground surface exposed portion 32 of the battery housing case 3 is less likely to be shielded by the ground surface, and thus, there is no need to provide a separate signal transmission station on the ground surface, there is no need to provide a signal line extending to the ground surface, and the installation is easier and the ground surface space is not occupied. Furthermore, by the design of the extending height H of the case extending to the ground exposing portion 32, the battery accommodating case 3 has a large enough battery accommodating space 30 to accommodate a battery with a larger capacity and a longer service life, so that the long-term operation of the saddle belt type monitoring plug valve device 100 can be maintained without providing a power supply device on the ground or frequent battery replacement. In addition, by integrating with the saddle belt diverter plug, the saddle belt monitor plug valve device 100 can be installed on the fluid delivery pipe F without pipe breaking or water shut down, further reducing construction difficulty and facilitating a large number of settings.

The foregoing description and description are only illustrative of the preferred embodiment of the invention, and other modifications will occur to those skilled in the art upon consideration of the specification and the preceding claims, but are intended to be within the spirit and scope of the invention as defined by the appended claims.

In this specification, the invention has been described with reference to specific embodiments thereof. It will be apparent, however, that various modifications and changes may be made without departing from the spirit and scope of the invention. The specification and drawings are, accordingly, to be regarded in an illustrative rather than a restrictive sense.

Claims (8)

1. A saddle belt type monitoring bolt valve device for monitoring a fluid delivery pipe located under the ground, characterized in that the saddle belt type monitoring bolt valve device comprises:

the saddle belt comprises an upper saddle belt and a lower saddle belt, the upper saddle belt and the lower saddle belt are in vertical leaning fit to enclose and fix the fluid conveying pipe between the upper saddle belt and the lower saddle belt, the upper saddle belt is penetrated and formed with a bolt valve communication hole, and the bolt valve communication hole is provided with a pipe wall opening corresponding to the fluid conveying pipe;

the water diversion bolt comprises a water diversion bolt body, a communicating pipe part and a shunt pipe part, the water diversion bolt body is provided with a top opening, the communicating pipe part and the shunt pipe part extend out of the water diversion bolt body respectively and are communicated with the top opening, and the water diversion bolt is arranged on the saddle belt so that the water diversion bolt body is communicated with the fluid conveying pipe through the communicating pipe part, the bolt valve communicating hole and the pipe wall opening; and

the battery accommodating box body is provided with a bolt body assembling part at the bottom, a ground exposing part is arranged at the top of the battery accommodating box body, a battery accommodating space is formed between the bolt body assembling part of the battery accommodating box body and the ground exposing part by a preset box body extending height, the box body extending height is set to enable the battery accommodating box body to be assembled by the bolt body assembling part and communicated with the top opening of the water diversion bolt body, and the ground exposing part is arranged on the water diversion bolt in a mode that signals are exposed on the ground; and

the pipeline monitoring assembly comprises a battery, a control circuit module and at least one sensor, wherein the battery is accommodated in the battery accommodating space, the control circuit module is coupled to the battery, the at least one sensor is coupled to the control circuit module and extends into the fluid conveying pipe through the bolt body assembling part, the top opening, the water diversion bolt body, the communicating pipe part, the bolt valve communicating hole and the pipe wall opening to sense and acquire pipeline monitoring information about the fluid conveying pipe, the pipeline monitoring information at least comprises pipeline fluid pressure information, and the control circuit module is provided with an information transmitting unit which is configured to transmit the pipeline monitoring information to a monitoring end device positioned above the ground in a mode of reducing ground shielding through the ground exposing part of the battery accommodating box.

2. The saddle belt type monitoring faucet valve assembly according to claim 1, wherein said faucet further comprises an electric valve body driver coupled to said battery and said control circuit module, said control circuit module having a signal receiving unit configured to receive a valve body manipulation signal from above said ground in a manner that reduces ground shielding by said ground exposed portion of said battery receiving case, said control circuit module controlling said electric valve body driver in accordance with said valve body manipulation signal, and driving a valve body in said faucet body by said electric valve body driver to change a faucet position of said valve body.

3. The saddle belt type monitoring plug valve device according to claim 1, wherein the pipe monitoring assembly comprises a plurality of the sensors, and the pipe monitoring information obtained by sensing by the plurality of the sensors further comprises one or more of toxic substance detection information, in-pipe fluid turbidity information, in-pipe fluid ph information, in-pipe fluid plastic particle content information and in-pipe fluid flow information.

4. The saddle belt type monitoring bolt valve device according to claim 1, wherein the ground exposing portion is a pavement cat eye device.

5. The saddle belt type monitoring faucet valve device according to claim 1, wherein said battery is a rechargeable battery, said control circuit module having a wireless charging unit, said wireless charging unit being a wireless charging device configured to be inductively coupled above said ground surface in such a manner as to reduce ground shielding by said ground surface exposed portion of said battery receiving case, for charging said rechargeable battery.

6. The saddle belt type monitoring plug valve device according to claim 1, wherein said pipe monitoring information includes pipe leakage point information, at least one of said sensors further includes a pipe leakage point detector for sensing and obtaining said pipe leakage point information by receiving a leakage detection signal transmitted through said fluid conveying pipe by a detection signal transmitting unit of another saddle belt type monitoring plug valve device with a detection signal receiving unit.

7. The saddle belt type monitoring faucet valve device according to claim 1, wherein the monitoring end device is an intelligent mobile device or an unmanned aerial vehicle.

8. The saddle belt type monitoring plug valve device according to claim 1, wherein the information transmitting unit wirelessly transmits the pipe monitoring information by bluetooth wireless transmission.

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