CN219082824U - Multifunctional monitoring platform for urban water supply network - Google Patents

Abstract

The utility model discloses a multifunctional monitoring platform for an urban water supply network, which relates to the technical field of water supply network monitoring and comprises branch pipes of an inverted U-shaped structure, wherein two ends of each branch pipe are communicated with the same pipe body, a detection box communicated with the branch pipes is arranged in the middle of each branch pipe, a current guiding body is arranged in the middle of the inner side of each detection box, the current guiding body is fixed with the inner wall of each detection box through a plurality of supporting rods close to the two ends, mounting grooves are formed in the corresponding supporting rods at the two ends of the current guiding body, and monitoring sensors are arranged in the corresponding mounting grooves. The inside multiple sensor that sets up of detection case for detect various parameters in the rivers, the parameter analysis water supply condition of again base collection, the stay bar supports the baffle on the one hand, on the one hand through mounting groove fixed sensor. The fluid director is used for reducing the internal circulation interface of detection case for the rivers parameter that flows through everywhere is unanimous. Therefore, the purposes of simple detection mode and multiple functions are realized.

Description

Multifunctional monitoring platform for urban water supply network

Technical Field

The utility model relates to the technical field of monitoring of water supply networks, in particular to a multifunctional monitoring platform for an urban water supply network.

Background

The urban water supply network is an important infrastructure for urban construction, various problems exist in the water supply network in the process of maintaining the water supply network, such as leakage, water theft and the like, serious large-area leakage accidents such as frequent pipe explosion and the like cause great water supply loss, waste of water sources and serious images on daily life of citizens, production operation of factory enterprises and social and economic benefits of water supply enterprises in arid periods.

The patent name of the publication number CN110985892A is a water supply network monitoring system and method, and the technical scheme disclosed by the publication number CN110985892A is that a plurality of sensing devices are arranged on a water supply network, so that intelligent data acquisition and analysis are realized, and intelligent automatic monitoring of the water supply network is realized. The monitoring mode excessively depends on the number of the arranged sensing devices, the function is single, the simple in-pipe fluid parameter collection can be only carried out, and once partial sensor faults occur, prediction and analysis errors are overlarge.

Disclosure of Invention

The utility model aims to solve the technical problems that the existing detection mode is too scattered and the prediction and analysis errors are too large easily caused when faults occur, and provides a multifunctional monitoring platform for an urban water supply network.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a multi-functional monitoring platform for urban water supply network, includes the branch pipe of falling U-shaped structure, just the both ends of branch pipe all communicate with same body, the branch pipe middle part is equipped with rather than the detection case that comes to communicate, the inboard middle part of detecting the case is equipped with the water conservancy diversion body, the water conservancy diversion body be close to both ends department through a plurality of vaulting poles with the inner wall of detecting the case is fixed, water conservancy diversion body both ends department is corresponding all be equipped with the mounting groove on the vaulting pole, corresponding all install monitor sensor on the mounting groove.

Preferably, both ends of the fluid director are of conical structures, a processor is arranged in the fluid director, and the monitoring sensors are connected with the processor in a signal mode.

Preferably, a signal receiving and transmitting module is arranged on the outer wall of the detection box, and the signal receiving and transmitting module is in signal connection with the processor.

Preferably, control valves are arranged at two ends of the branch pipe, and the control valves are in signal connection with the processor.

Preferably, the end part of the control valve is provided with a matching surface with an arc-shaped structure, the outer wall is symmetrically provided with connecting plates, and the connecting plates are matched with two ends of a locking piece with a U-shaped structure.

Preferably, two ends of the locking piece penetrate through the through holes in the connecting plate, and locking nuts are arranged at two ends of the locking piece.

Preferably, the monitoring sensor comprises at least a water pressure sensor, a flow rate sensor and a water quality detection sensor.

Compared with the prior art, the utility model has the beneficial effects that:

in the utility model, in order to ensure that the branch pipe has enough space to accommodate the detection box after being installed, the branch pipe is arranged into an inverted U-shaped structure, so that the branch pipe is provided with the airborne detection box after being connected with the pipe body. In this embodiment, the detection box is inside to set up multiple sensor for detect various parameters in the rivers, the parameter analysis water supply condition of again gathering, the stay bar supports the water conservancy diversion body on the one hand, on the one hand through mounting groove fixed sensor. The fluid director is used for reducing the internal circulation interface of detection case for the rivers parameter that flows through everywhere is unanimous. Therefore, the purposes of simple detection mode and multiple functions are realized.

When data acquisition is not needed, a command is sent remotely, and the control valve is closed by the processor executing the command, at which time liquid cannot flow through the manifold. Because in this embodiment, two ends of the branch pipe are provided with one control valve, when only one control valve is closed, the water pressure in the pipeline can still be detected; and when the control valve is completely closed, other parameters in the pipeline cannot be detected, and the data acquisition work is stopped.

Drawings

FIG. 1 is a front view of a multi-functional monitoring platform for an urban water supply network according to one embodiment of the present utility model;

FIG. 2 is a cross-sectional view at A-A in FIG. 1;

FIG. 3 is a side view of a multi-functional monitoring platform for an urban water supply network according to one embodiment of the present utility model;

FIG. 4 is a cross-sectional view at B-B in FIG. 3;

FIG. 5 is a cross-sectional view taken at C-C of FIG. 3;

fig. 6 is a perspective view of a multifunctional monitoring platform for an urban water supply network according to an embodiment of the present utility model.

In the figure: 1. a branch pipe; 2. a detection box; 3. a flow guide body; 4. a brace rod; 5. a mounting groove; 6. monitoring a sensor; 7. a processor; 8. a signal receiving and transmitting module; 9. a control valve; 10. a connecting plate; 11. a locking member; 12. a via hole; 13. and (5) locking the nut.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In this embodiment, a multifunctional monitoring platform for an urban water supply network may include: branch pipe 1, detection case 2, water conservancy diversion body 3, vaulting pole 4, mounting groove 5 and monitoring sensor 6. Wherein, branch pipe 1 is the structure of falling U-shaped, and both ends all communicate with same body, and branch pipe 1 middle part is equipped with rather than the detection case 2 that comes to communicate, and the inboard middle part of detection case 2 is equipped with water conservancy diversion body 3, and water conservancy diversion body 3 is close to both ends department and is fixed with the inner wall of detection case 2 through a plurality of vaulting poles 4, all is equipped with mounting groove 5 on the vaulting pole 4 that water conservancy diversion body 3 both ends department corresponds, all installs monitoring sensor 6 on the mounting groove 5 that corresponds. Specifically, the branch pipe 1 is provided with an inverted U-shaped structure, so that the branch pipe 1 is conveniently installed and fixed on a pipe body, and the branch pipe 1 and the pipe body are not interfered; on the other hand, the branch pipe 1 is provided with the detection box 2, so that the branch pipe 1 is provided with enough space for accommodating the detection box 2 after being installed, and is arranged into an inverted U-shaped structure, so that the branch pipe 1 is connected with a pipe body and then provided with the airborne detection box 2. In this embodiment, a plurality of sensors are disposed inside the detection box 2, and are used for detecting various parameters in water flow, analyzing water supply conditions based on collected parameters, and supporting the guide body 3 by the supporting rod 4 on one hand, and fixing the sensors by the mounting groove 5 on the other hand. The flow guide body 3 is used for reducing the flow interface inside the detection box 2 so that the flow parameters flowing through the detection box are consistent. Therefore, the purposes of simple detection mode and multiple functions are realized.

In this embodiment, in order to reduce the data processing pressure of the remote control terminal, in this embodiment, the processor 7 is disposed inside the fluid guide body 3, and the monitoring sensors 6 are all in signal connection with the processor 7. When the data signal detected by the monitoring sensor 6 is firstly sent to the processor 7 for preliminary processing and screening, and then sent to the remote control terminal. In addition, in order to further improve the flow guiding effect of the flow guiding body 3, two ends of the flow guiding body 3 are in a conical structure, when the liquid enters the detection box 2, the liquid is firstly contacted with the tip of the cone, and then is split between the flow guiding body 3 and the detection box 2 along the conical surface, and is converged and flows out at the other end of the flow guiding body 3. In addition, the liquid flowing into the outside of the fluid guide body 3 can also radiate heat of the processor 7, so that the working stability of the processor is improved.

After the collected data is primarily processed, the primarily processed signal can be sent to the remote control end through the signal transceiver module 8. The information interaction between the processor 7 and the remote control end is realized, and the information acquisition and processing capacity is improved.

In addition, in order to further realize the collection of detection data of different time ends, the requirement of high-precision detection is met. In the present embodiment, control valves 9 are provided at both ends of the branch pipe 1, and the control valves 9 are signal-connected to the processor 7. When data acquisition is not required, a command is sent remotely, which is executed by the processor 7 to close the control valve 9, at which time liquid cannot flow through the branch 1. Since in this embodiment, the two ends of the branch pipe 1 are provided with one control valve 9, when only one of the control valves 9 is closed, the water pressure in the pipeline can still be detected; when the control valve 9 is completely closed, other parameters in the pipeline cannot be detected, and the data acquisition operation is stopped.

In this embodiment, in order to stably connect the branch pipe 1 and the pipeline, the end of the control valve 9 is provided with an arc-shaped mating surface which is in sealing fit with the outer surface of the pipeline, and meanwhile, the outer wall is symmetrically provided with a connecting plate 10, and the connecting plate 10 is matched with two ends of a locking piece 11 with a U-shaped structure. When the pipeline is fixed, the locking piece 11 is sleeved on the outer wall of the pipeline, two ends of the locking piece penetrate through the connecting plate 10 to be matched with the connecting plate, and meanwhile, the matching surface of the arc-shaped structure is sealed with the arc-shaped outer wall of the pipeline, so that the connecting plate 10 and the locking piece 11 are locked.

Further, in order to better connect the connection plate 10 with the locking member 11, in this embodiment, two ends of the locking member 11 pass through the through holes 12 on the connection plate 10, and locking nuts 13 are provided at two ends of the locking member 11. When the locking device is fixed, after the two ends of the locking piece 11 pass through the through holes 12, the locking piece 11 extending through the connecting plate 10 is fixed through the locking nuts 13.

In this embodiment, to achieve more water flow data collection, the monitoring sensor 6 may include: water pressure sensor, flow rate sensor and water quality detection sensor.

In this application, in order to ensure that there is enough space to accommodate the detection box 2 after the branch pipe 1 is installed, it is set to an inverted U-shaped structure so that the branch pipe 1 has an airborne placement of the detection box 2 after being connected with the pipe body. In this embodiment, a plurality of sensors are disposed inside the detection box 2, and are used for detecting various parameters in water flow, analyzing water supply conditions based on collected parameters, and supporting the guide body 3 by the supporting rod 4 on one hand, and fixing the sensors by the mounting groove 5 on the other hand. The flow guide body 3 is used for reducing the flow interface inside the detection box 2 so that the flow parameters flowing through the detection box are consistent. Therefore, the purposes of simple detection mode and multiple functions are realized.

When data acquisition is not required, a command is sent remotely, which is executed by the processor 7 to close the control valve 9, at which time liquid cannot flow through the branch 1. Since in this embodiment, the two ends of the branch pipe 1 are provided with one control valve 9, when only one of the control valves 9 is closed, the water pressure in the pipeline can still be detected; when the control valve 9 is completely closed, other parameters in the pipeline cannot be detected, and the data acquisition operation is stopped.

Although the present utility model has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (7)

1. A multifunctional monitoring platform for urban water supply network, its characterized in that, branch pipe (1) including the structure of falling U-shaped, just the both ends of branch pipe (1) all communicate with same body, branch pipe (1) middle part is equipped with detection case (2) rather than coming the intercommunication, the inboard middle part of detection case (2) is equipped with water conservancy diversion body (3), water conservancy diversion body (3) are close to both ends department through a plurality of vaulting poles (4) with the inner wall of detection case (2) is fixed, water conservancy diversion body (3) both ends department is corresponding all be equipped with mounting groove (5) on vaulting pole (4), corresponding all install monitoring sensor (6) on mounting groove (5).

2. A multi-functional monitoring platform for a municipal water supply network according to claim 1, wherein: the two ends of the flow guide body (3) are of conical structures, a processor (7) is arranged in the flow guide body, and the monitoring sensors (6) are connected with the processor (7) in a signal mode.

3. A multi-functional monitoring platform for a municipal water supply network according to claim 2, wherein: the outer wall of the detection box (2) is provided with a signal receiving and transmitting module (8), and the signal receiving and transmitting module (8) is in signal connection with the processor (7).

4. A multi-functional monitoring platform for a municipal water supply network according to claim 3, wherein: control valves (9) are arranged at two ends of the branch pipe (1), and the control valves (9) are in signal connection with the processor (7).

5. The multi-purpose monitoring platform for an urban water supply network according to claim 4, wherein: the end part of the control valve (9) is provided with an arc-shaped matching surface, the outer wall of the control valve is symmetrically provided with a connecting plate (10), and the connecting plate (10) is matched with two ends of a locking piece (11) of a U-shaped structure.

6. The multi-purpose monitoring platform for an urban water supply network according to claim 5, wherein: the two ends of the locking piece (11) penetrate through the through holes (12) in the connecting plate (10), and locking nuts (13) are arranged at the two ends of the locking piece (11).

7. A multi-functional monitoring platform for a municipal water supply network according to claim 1, wherein: the monitoring sensor (6) at least comprises a water pressure sensor, a flow rate sensor and a water quality detection sensor.

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