TWI786989B - Monitoring saddle valve device - Google Patents

Abstract

Disclosed is a monitoring saddle valve device comprising: a saddle, a fluid diverting device, a battery housing and a pipeline monitoring assembly, wherein the pipeline monitoring assembly is provided to sense a fluid delivery pipe located under the ground and send pipeline monitoring information wirelessly through a ground exposed portion of the battery housing directly to a monitoring terminal device located above the ground to reduce signal shielding by the ground.

Description

Saddle belt monitoring plug valve device

The invention relates to a fluid pipeline monitoring device, in particular to a saddle belt type monitoring plug valve device.

Fluid conveying pipes are pipe fittings used to convey fluids, among which water pipes conveying tap water are the most common. According to statistics, the water leakage rate of water pipes in all counties and cities in Taiwan this year is as high as 25% and as low as 10%. It can be seen that the water leakage rate is astonishing, and it can even be said that the main culprit of Taiwan's water shortage is the leakage of the fluid delivery pipe.

In order to solve the leakage problem of the fluid delivery pipe, in the conventional technology, a fluid pipeline monitoring device is installed on the fluid delivery pipe to monitor the fluid delivery pipe and send back information to determine whether there is any abnormality such as leakage. However, since fluid delivery pipes are generally installed under the ground, the information return of the fluid pipeline monitoring device is easily shielded by the ground and cannot be transmitted through wireless transmission. It is often necessary to first transmit the monitoring information to the ground through a signal line extending to the ground The communication station above, and then handed over to the communication station for sending. Moreover, in order to maintain the long-term operation of the fluid pipeline monitoring device, the conventional technology also needs to further provide power supply equipment, and provide power to the fluid pipeline monitoring device through a power line extending underground.

Such a method not only needs to add a communication station and power supply equipment on the ground, but also to connect the signal line between the communication station and the fluid pipeline monitoring device, and to connect the power line between the power supply equipment and the fluid pipeline monitoring device. It is more complicated, and the communication station and power supply equipment on the ground will occupy more space, which is likely to cause obstruction to existing roads or ground facilities.

Therefore, the object of the present invention is to provide a saddle belt monitoring plug valve device, which is easy to install, does not occupy floor space, and can perform information return well, so as to solve the problems of the prior art.

The technical means adopted by the present invention to solve the problems of the prior art is to provide a saddle-type monitoring valve device, which is used to monitor a fluid delivery pipe under the ground. The saddle-type monitoring valve device includes: a The saddle belt includes an upper saddle belt and a lower saddle belt. The upper saddle belt and the lower saddle belt are closed up and down to surround and fix the fluid delivery pipe between the upper saddle belt and the lower saddle belt. The upper saddle belt A plug valve communication hole is formed through, and the plug valve communication hole is set to correspond to a pipe wall opening of the fluid delivery pipe; a water diversion plug includes a water diversion plug body, a communication pipe part and a shunt pipe part, the The water diversion cock body has a top opening, the connecting pipe part and the diversion pipe part respectively extend from the water diversion cock body and communicate with the top opening, the water diversion cock is arranged on the saddle belt so that the water diversion cock body It communicates with the fluid delivery pipe through the communication pipe part, the plug valve communication hole and the pipe wall opening; and a battery storage box, the bottom of the battery storage box has a plug assembly part, the The top of the battery storage box has a ground exposure part, and the bolt assembly part of the battery storage box is separated from the ground exposure part by a predetermined box extension height to form a battery storage space. The extension height of the box body is set so that the battery housing box is assembled with the cock assembly part and communicated with the top opening of the water distribution cock body, and the ground exposure part is set in such a way that the signal is exposed to the ground at the water distribution cock; and a pipeline monitoring component, including a battery, a control circuit module, and at least one sensor, the battery is accommodated in the battery accommodating space, and the control circuit module is coupled to the The battery, at least one sensor is coupled to the control circuit module and passes through the cock body assembly part, the top opening, the water diversion cock body, the communication pipe part, the cock valve communication hole and the pipe wall Opening a hole and extending into the fluid delivery tube to sense and obtain pipeline monitoring information about the fluid delivery tube, the pipeline monitoring information at least includes fluid pressure information in the tube, wherein the control circuit module has an information sending unit, The information sending unit is configured to directly and wirelessly send the pipeline monitoring information to a monitoring terminal device located above the ground in a manner that the ground exposure portion of the battery housing box is reduced to be shielded by the ground.

In one embodiment of the present invention, a saddle belt monitoring valve device is provided, wherein the water diversion valve further includes an electric valve driver coupled to the battery and the control circuit module, the control circuit module has A signal receiving unit, the signal receiving unit is configured to receive a valve body control signal from above the ground in a manner that reduces shielding by the ground through the exposed portion of the ground of the battery containing box, the control circuit module The group controls the electric valve body driver according to the valve body control signal, and drives a valve body in the water diversion cock body through the electric valve body driver to change the water diversion adjustment position of the valve body.

In one embodiment of the present invention, a saddle belt monitoring plug valve device is provided, wherein the pipeline monitoring component includes a plurality of sensors, and the pipeline monitoring information sensed by the plurality of sensors further includes One or more of toxic substance detection information, turbidity information of the fluid in the pipe, pH information of the fluid in the pipe, content of plastic particles in the fluid in the pipe, and flow rate information of the fluid in the pipe.

In one embodiment of the present invention, a saddle belt monitoring plug valve device is provided, wherein the ground exposure part is configured as a pavement cat's eye device.

In one embodiment of the present invention, a saddle belt monitoring plug valve device is provided, wherein the battery is a rechargeable battery, and the control circuit module has a wireless charging unit configured to pass through the The exposed part of the ground of the battery accommodating box is inductively coupled to a wireless charging device on the ground to charge the rechargeable battery in a way that reduces the shielding of the ground.

In one embodiment of the present invention, a saddle belt monitoring plug valve device is provided, wherein the pipeline monitoring information includes pipeline leakage point information, at least one of the sensors further includes a pipeline leakage point detector, and the pipeline The leakage point detector of the pipeline senses and obtains the pipeline by receiving a detection signal transmitting unit of another saddle-type monitoring plug valve device and passing through the fluid delivery pipeline with a detection signal receiving unit. Leak point information.

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

In one embodiment of the present invention, a saddle belt monitoring plug valve device is provided, wherein the information sending unit wirelessly sends the pipeline monitoring information through Bluetooth wireless transmission.

Through the technical means adopted in the present invention, the saddle belt monitoring plug valve device can perform good wireless return of information by passing through the exposed part of the ground of the battery storage box and reducing the shielding by the ground, so that there is no need to separately transmit information on the ground. There is no need to set up a signal line extending to the ground to set up a communication station, which is easier to set up and does not occupy the ground space. Furthermore, the design of the extension height of the box extending to the exposed part of the ground makes the battery storage box have a large enough battery storage space to accommodate batteries with larger capacity and longer life, which can maintain saddle belt monitoring The long-term operation of the plug valve device does not require additional power supply equipment on the ground, nor does it require frequent battery replacement. In addition, through the integration with the saddle belt water diversion cock, the saddle belt monitoring cock valve device can be installed on the fluid delivery pipe without breaking the pipe or stopping the water, which further reduces the difficulty of construction and is convenient for mass installation.

Embodiments of the present invention will be described below based on FIGS. 1 to 5 . This description is not intended to limit the implementation of the present invention, but is one of the examples of the present invention.

As shown in Figures 1 to 3, a saddle-type monitoring plug valve device 100 according to an embodiment of the present invention is used to monitor a fluid delivery pipe F located under the ground G, the saddle-type monitoring plug The valve device 100 includes a saddle belt 1 , a water distribution plug 2 , a battery storage box 3 and a pipeline monitoring component 4 .

As shown in Figure 1 and Figure 2, the saddle belt 1 includes an upper saddle belt 11 and a lower saddle belt 12, and the upper saddle belt 11 and the lower saddle belt 12 fit together up and down to surround and fix the fluid delivery pipe F Between the upper saddle belt 11 and the lower saddle belt 12, the upper saddle belt 11 is formed with a plug valve communication hole 111, and the plug valve communication hole 111 is provided with a pipe wall opening F1 corresponding to the fluid delivery pipe F. .

Specifically, in this embodiment, the upper saddle belt 11 and the lower saddle belt 12 are interlocked by bolts 13, and a tube is enclosed between the upper saddle belt 11 and the lower saddle belt 12. The road wears space 10. The pipeline penetration space 10 is used for the passage of the fluid delivery pipe F, and by locking the bolt 13, the upper saddle belt 11 and the lower saddle belt 12 respectively clamp the fluid delivery pipe from top to bottom. F. The pipeline insertion space 10 is generally a cylindrical space with a diameter of about 50 mm, preferably, a cylindrical space with a diameter of about 100 mm in this embodiment.

As shown in Figure 1 and Figure 2, the water diversion plug 2 includes a water diversion plug body 21, a communicating pipe portion 22 and a diverting pipe portion 23, the water diversion plug body 21 has a top opening 211, the communication The pipe part 22 and the branch pipe part 23 respectively extend from the water diversion plug body 21 and communicate with the top opening 211. The water diversion plug 2 is arranged on the saddle belt 1 so that the water diversion plug body 21 passes through the communication pipe The part 22, the plug valve communication hole 111 and the tube wall opening F1 communicate with the fluid delivery tube F.

Specifically, the water diversion cock is usually a plug valve used when installing a new branch pipeline on an existing pipeline. In the water diversion plug 2, the communication pipe part 22 and the diversion pipe part 23 communicate with each other through the water diversion plug body 21, and a valve body 24 (for example: a ball valve) is arranged in the water diversion plug body 21, by Switching of the water diversion adjustment position of the valve body 24 opens or closes the communication between the communication pipe part 22 and the distribution pipe part 23 . The water distribution plug 2 is provided with the saddle belt 1 so that the communication pipe portion 22 is engaged with the valve communication hole 111 of the upper saddle belt 11 so as to be connected to the fluid delivery pipe F through the valve communication hole 111. The branch pipe part 23 is used for connecting branch pipelines (not shown in the figure). Thereby, a part of the fluid in the fluid delivery pipe F can be diverted to the branch pipe through the communication pipe part 22 , the water diversion plug body 21 , and the diversion pipe part 23 in sequence.

In addition, when installing the water diversion plug 2 and the saddle belt 1 to the fluid delivery pipe F, usually the saddle belt 1 can be used to fix the water diversion plug 2 to the fluid delivery pipe F first, and then use the drill hole A tool (not shown in the figure) passes through the top opening 211 of the water diversion plug body 21, the valve body 24, the communicating pipe portion 22, the plug valve communication hole 111 of the upper saddle belt 11, and is connected to the fluid delivery pipe F. The pipe wall opening F1 is opened on the pipe wall, so that the water diversion plug 2 communicates with the fluid delivery pipe F. As mentioned above, in the installation work of the water distribution plug 2 and the saddle belt 1, there is no need to cut the pipe, and because the connection between the water distribution plug 2 and the fluid delivery pipe F, the pipe wall opening F1 The fluid flowing into the water diversion plug 2 can also be closed in time by switching the water diversion adjustment position of the valve body 24, which will not cause a large amount of fluid leakage, so there is no need to stop the water during the installation operation.

As shown in Figure 1 and Figure 2, the bottom of the battery storage box 3 has a plug assembly part 31, and the top of the battery storage box 3 has a ground exposure part 32. The battery storage box The bolt assembly part 31 of the body 3 and the ground exposure part 32 are separated by a predetermined box extension height H to form a battery accommodating space 30, and the box body extension height H is set so that the battery capacity The box body 3 is installed on the water diversion cock 2 in such a way that the cock assembly part 31 is connected to the top opening 211 of the water diversion cock body 21 and the ground exposure part 32 is exposed to the ground G as a signal. .

Specifically, the battery accommodating box 3 is arranged and combined with the water diverting plug 2 . In this embodiment, the plug body assembly part 31 is a threaded connection part, and the battery storage box is made The body 3 is assembled and fixed on the top of the water diversion plug body 21 , and communicates with the water diversion plug body 21 through the plug body assembly part 31 and the top opening 211 .

The ground exposure portion 32 is arranged in such a way that the signal is exposed to the ground G, wherein “signal exposure to the ground” refers to a configuration that enables the signal to pass through the ground exposure portion 32 and directly transmit (expose) to the ground G, There may be many situations, including: the exposed ground portion 32 protrudes above the ground G; the top surface of the exposed ground portion 32 is at the same height as the ground G; the exposed ground portion 32 is located below the ground G and on the ground There is no signal shield between the exposed portion 32 and the ground G. For example: the ground exposure portion 32 is located below a vent hole of a manhole cover on the ground G, because signals can pass through the ground exposure portion 32 and be directly transmitted (exposed) to the ground G through the vent hole of the manhole cover. Therefore, this configuration belongs to the setting method in which the signal is exposed to the ground G. In addition, of course, in order to transmit the signal through the exposed ground portion 32, the exposed ground portion 32 itself is preferably made of a material that does not affect signal transmission, such as plastic. In addition, as shown in FIG. 2, the exposed ground portion 32 can be set as a pavement peephole device or integrated with other road markings, so that the exposed ground portion 32 will not obstruct the existing road, but can also be used as a pavement logo used.

The battery accommodating box 3 has a predetermined box extension height H, and the box extension height H makes the battery accommodating box 3 extend from the top of the water diversion cock body 21 to make the ground exposed portion 32 on the Ground G is exposed. The fluid conveying pipe F usually has a certain buried depth limit, for example: more than 120 cm, so the extension height H of the box body also has a corresponding size, so that the battery accommodating space formed by the battery accommodating box body 3 30 is of sufficient size to accommodate a large capacity and long-lasting battery.

As shown in Figures 1 to 3, the pipeline monitoring assembly 4 includes a battery 41, a control circuit module 42, and at least one sensor 43, and the battery 41 is accommodated in the battery accommodation space 30 , the control circuit module 42 is coupled to the battery 41, at least one sensor 43 is coupled to the control circuit module 42 and passes through the plug body assembly part 31, the top opening 211, the water diversion plug body 21. The connecting pipe part 22, the plug valve communicating hole 111 and the pipe wall opening F1 extend into the fluid conveying pipe F to sense and obtain pipeline monitoring information I about the fluid conveying pipe F. The pipeline The monitoring information I includes at least the pressure information of the fluid in the pipeline, wherein the control circuit module 42 has an information sending unit 421, and the information sending unit 421 is configured to pass the pipeline monitoring information I through the battery housing box 3 The exposed portion 32 on the ground can be directly wirelessly sent to a monitoring terminal device 5 located on the ground G in a manner that reduces the shielding of the ground.

Specifically, the battery 41 is used to supply the power required for the overall operation of the saddle belt monitoring plug valve device 100, including: the wireless signal transmission by the control circuit module 42 and the at least one sensor 43. information sensing. Since the battery accommodating space 30 formed by the battery accommodating box body 3 has a sufficient size, the battery 41 can be a large-capacity and long-lasting battery to maintain the long-term life of the saddle belt monitoring plug valve device 100. Operation, for example: continuous power supply for 3 years. Therefore, there is no need to separately install power supply equipment on the ground G, and it is also unnecessary to frequently replace the battery 41 .

The control circuit module 42 is used to control the overall operation of the saddle belt monitoring plug valve device 100 . In this embodiment, the control circuit module 42 is disposed together with the battery 41 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 can be disposed under or on one side of the battery 41, or the control circuit module 42 can be disposed outside the battery accommodating space 30, for example: disposed on the battery The inner wall of the housing box 3 is either in the bolt assembly part 31 or the ground exposed part 32 . In other words, the control circuit module 42 can be set arbitrarily, as long as the pipeline monitoring information I wirelessly sent by the information sending unit 421 can be transmitted to the monitoring terminal device 5 through the ground exposure portion 32 . In this embodiment, the information sending unit 421 wirelessly sends the pipeline monitoring information I through Bluetooth wireless transmission, and the transmission distance can reach about 30-100 meters. Of course, the present invention is not limited thereto, and the information sending unit 421 can also be applied in other wireless transmission methods. In addition, the monitoring terminal device 5 can be a smart mobile device or a drone. Monitoring personnel can use smart mobile devices to receive the pipeline monitoring information I, and can also use drones to receive the pipeline monitoring information I remotely.

In this embodiment, the pipeline monitoring component 4 includes a plurality of sensors 43. In addition to the fluid pressure information in the pipeline, the pipeline monitoring information I sensed by the plurality of sensors 43 can also be Including: one or more of toxic substance detection information, turbidity information of the fluid in the pipe, pH information of the fluid in the pipe, content of plastic particles in the fluid in the pipe, and flow rate information of the fluid in the pipe. As the name implies, the fluid pressure information in the pipe is the information about the fluid pressure in the fluid conveying pipe F, the toxic substance detection information is the information about the content of toxic substances in the fluid in the fluid conveying pipe F, and the fluid in the pipe The turbidity information is information about the water quality turbidity of the fluid in the fluid delivery pipe F, and the pH information of the fluid in the tube is the information about the acidity and alkalinity (pH value) of the fluid in the fluid delivery pipe F. The content information of plastic particles in the fluid is information about the content of plastic particles in the fluid in the fluid delivery tube F, and the flow rate information of the fluid in the tube is the flow rate information about the fluid in the fluid delivery tube F. Corresponding to the different monitoring information I of the pipeline, the types of the sensors 43 used are also different. The fluid delivery pipe F is directly sensed to obtain accurate monitoring information I of the pipeline.

As shown in Figures 1 to 3, according to a saddle belt monitoring valve device 100 according to an embodiment of the present invention, the water distribution valve 2 further includes an electric valve body driver 25 coupled to the battery 41 and the The control circuit module 42, the control circuit module 42 has a signal receiving unit 422, and the signal receiving unit 422 is configured to pass through the ground exposed portion 32 of the battery housing box 3 to reduce the ground shielding mode Receive a valve body control signal from above the ground G, the control circuit module 42 controls the electric valve body driver 25 according to the valve body control signal, and drives the water diversion valve body 21 through the electric valve body driver 25 This valve body 24 in, to change this valve body 24 divides the water adjustment position.

Specifically, since the saddle belt monitoring cock valve device 100 of the present invention can use the battery 41 with a large capacity and long life and the pipeline monitoring assembly 4 including the battery 41 is integrated into the water diverting cock 2, Therefore, in addition to information sensing and signal transmission, there is still enough electric power to perform the adjustment of the valve body 24 in an electric manner nearby.

As shown in FIG. 4, according to the saddle belt monitoring valve device 100 according to an embodiment of the present invention, the battery 41 is a rechargeable battery, and the control circuit module 42 has a wireless charging unit 423. The wireless charging unit 423 is configured to be inductively coupled to a wireless charging device 6 above the ground G by passing through the ground exposed portion 32 of the battery housing 3 to reduce ground shielding, so as to charge the rechargeable battery.

As shown in Fig. 3 and Fig. 5, according to the saddle belt monitoring pin valve device 100 according to an embodiment of the present invention, the pipeline monitoring information I includes pipeline leakage point information, and at least one of the sensors 43 further includes A pipeline leakage point detector, the pipeline leakage point detector is sent by a detection signal receiving unit 431 to receive a detection signal sending unit 432 of another saddle-type monitoring plug valve device 100' through the fluid transport A leak detection signal of the pipeline is sensed to obtain the information of the pipeline leakage point. Specifically, with a large number of installations of the saddle-type monitoring plug valve device 100, in addition to monitoring each local area to determine whether the fluid delivery pipe F leaks, it is also possible to use various methods such as ultrasonic detection And further accurately detect the specific position of the leakage point F2 in the entire pipeline section between two adjacent saddle belt monitoring pin valve devices 100, 100'.

With the above-mentioned structure, the saddle belt type monitoring plug valve device 100 of the present invention can pass through the ground exposure portion 32 of the battery accommodating box 3 and reduce the wireless return of information in a manner that is shielded by the ground, so that there is no need to Setting up another communication station on the ground does not need to set up a signal line extending to the ground, which is easier to set up and does not occupy the ground space. Moreover, by extending to the design of the height H of the box extending to the exposed portion 32 on the ground, the battery housing box 3 has a battery housing space 30 large enough to accommodate batteries with larger capacity and longer life. , can maintain the long-term operation of the saddle-belt monitoring plug valve device 100, without additional power supply equipment on the ground, and without frequent battery replacement. In addition, by integrating with the saddle belt water diverting cock, the saddle belt monitoring cock valve device 100 can be installed on the fluid delivery pipe F without breaking the pipe or stopping the water, which further reduces the construction difficulty and is convenient for a large number of installations. .

The above descriptions and descriptions are only descriptions of the preferred embodiments of the present invention. Those who have common knowledge of this technology may make other modifications according to the scope of the patent application defined below and the above descriptions, but these modifications should still be It is for the inventive spirit of the present invention and within the scope of rights of the present invention.

100: Saddle belt monitoring plug valve device 100': saddle belt monitoring plug valve device 1: saddle belt 10: Pipeline penetration space 11: Upper saddle belt 111: Plug valve communication hole 12: Lower saddle belt 13: Bolt 2: Distributor 21: Separation plug body 211: top opening 22: Connecting pipe 23:Shunt tube 24: valve body 25: Electric valve body driver 3: Battery storage box 30: battery storage space 31: Bolt assembly joint 32: Ground exposed part 4: Pipeline monitoring components 41: battery 42: Control circuit module 421: information sending unit 422: Signal receiving unit 423: Wireless charging unit 43: Sensor 431: Detection signal receiving unit 432: Detection signal sending unit 5: Monitoring device 6: Wireless charging device F: Fluid delivery tube F1: pipe wall opening F2: leak point G: ground H: cabinet extension height I: pipeline monitoring information

[Fig. 1] is a schematic diagram showing a saddle belt monitoring plug valve device according to an embodiment of the present invention; [Fig. 2] is a schematic cross-sectional view showing a saddle belt monitoring plug valve device installed on a fluid delivery pipe according to an embodiment of the present invention; [Fig. 3] is a schematic block diagram showing the saddle belt monitoring plug valve device according to an embodiment of the present invention when sending pipeline monitoring information; [Fig. 4] is a schematic block diagram showing a saddle belt-type monitoring plug valve device during wireless charging according to an embodiment of the present invention; [FIG. 5] is a schematic diagram showing a saddle belt monitoring plug valve device according to an embodiment of the present invention when performing leak point detection.

100: Saddle belt monitoring plug valve device

1: saddle belt

11: Upper saddle belt

111: Plug valve communication hole

12: Lower saddle belt

2: Distributor

21: Separation plug body

211: top opening

22: Connecting pipe

23:Shunt tube

24: valve body

25: Electric valve body driver

3: Battery storage box

30: battery storage space

31: Bolt assembly joint

32: Ground exposed part

4: Pipeline monitoring components

41: battery

42: Control circuit module

43: Sensor

F: Fluid delivery tube

F1: pipe wall opening

G: ground

H: cabinet extension height

Claims (8)

A saddle belt monitoring plug valve device is used to monitor a fluid delivery pipe under the ground, the saddle belt monitoring plug valve device includes: A saddle belt, including an upper saddle belt and a lower saddle belt, the upper saddle belt and the lower saddle belt close up and down to surround and fix the fluid delivery pipe between the upper saddle belt and the lower saddle belt, the upper saddle belt A plug valve communication hole is formed through the belt, and the plug valve communication hole is set to correspond to a pipe wall opening of the fluid delivery pipe; A water diversion cock, including a water diversion cock body, a connecting pipe part and a diversion pipe part, the water diversion cock body has a top opening, the communication pipe part and the diversion pipe part respectively extend from the water diversion cock body And communicated with the top opening, the water diversion plug is arranged on the saddle so that the water diversion plug body communicates with the fluid delivery pipe through the communication pipe part, the plug valve communication hole and the pipe wall opening; and A battery storage box, the bottom of the battery storage box has a bolt assembly part, the top of the battery storage box has a ground exposure part, the battery storage box has a bolt assembly part A battery accommodating space is formed with a predetermined box extension height between the exposed part of the ground, and the box extension height is set so that the battery accommodating box is assembled and communicated with the bolt assembly part The top opening of the diverter cock body and the ground exposed portion are provided on the diverter cock in such a way that the signal is exposed to the ground; and A pipeline monitoring component, including a battery, a control circuit module, and at least one sensor, the battery is accommodated in the battery accommodating space, the control circuit module is coupled to the battery, at least one of the sensor The detector is coupled to the control circuit module and extends into the fluid through the cock body assembly part, the top opening, the water diversion cock body, the communication pipe part, the cock valve communication hole and the pipe wall opening The conveying pipe is used to sense and obtain pipeline monitoring information about the fluid conveying pipe, the pipeline monitoring information at least includes fluid pressure information in the pipe, wherein the control circuit module has an information sending unit, and the information sending unit is configured The pipeline monitoring information is directly and wirelessly sent to a monitoring terminal device located on the ground by passing through the ground exposure portion of the battery housing box to reduce shielding from the ground. The saddle belt monitoring valve device as described in claim 1, wherein the water diversion valve further includes an electric valve body driver coupled to the battery and the control circuit module, and the control circuit module has a signal receiving unit , the signal receiving unit is configured to receive a valve body control signal from above the ground in such a way that the exposed portion of the ground of the battery housing box is reduced to be shielded by the ground, and the control circuit module is configured according to the valve The electric valve body driver is controlled by the body control signal, and a valve body in the water diversion cock body is driven by the electric valve body driver to change the water diversion adjustment position of the valve body. The saddle belt monitoring plug valve device as described in claim 1, wherein the pipeline monitoring component includes a plurality of sensors, and the pipeline monitoring information sensed by the plurality of sensors further includes toxic substance detection information , one or more of the information on the turbidity information of the fluid in the pipe, the pH information of the fluid in the pipe, the content information of plastic particles in the fluid in the pipe, and the flow rate information of the fluid in the pipe. The saddle-belt monitoring plug valve device as described in Claim 1, wherein the exposed part of the ground is set as a pavement cat's eye device. The saddle belt monitoring plug valve device as described in claim 1, wherein the battery is a rechargeable battery, the control circuit module has a wireless charging unit, and the wireless charging unit is configured to pass through the battery storage box A wireless charging device is inductively coupled to a wireless charging device above the ground in such a manner that the exposed portion of the ground of the body is reduced to be shielded by the ground, so as to charge the rechargeable battery. The saddle belt monitoring pin valve device as described in claim 1, 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 detection The device uses a detection signal receiving unit to receive a leakage detection signal sent by a detection signal sending unit of another saddle-type monitoring plug valve device through the fluid delivery pipe, and senses and obtains information on the leakage point of the pipeline. The saddle belt monitoring valve device as described in claim 1, wherein the monitoring terminal device is a smart mobile device or an unmanned aerial vehicle. The saddle belt monitoring plug valve device as described in claim 1, wherein the information sending unit wirelessly sends the pipeline monitoring information through Bluetooth wireless transmission.

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