CN110185934A - A kind of fluid conveying pipe network automatic monitored control system - Google Patents

Abstract

The present invention relates to fluid conveying monitoring technology fields, disclose a kind of fluid conveying pipe network automatic monitored control system, including multiple intelligent flow valves and Platform Server, fluid conveying pipe network includes multi-stage pipeline, intelligent flow valve is separately installed on multi-stage pipeline, each intelligent flow valve is connect with Platform Server respectively, intelligent flow valve is for detecting fluid data, and it is voluntarily turned off when fluid data is abnormal, the hierarchical relationship of fluid hose net is stored in Platform Server, Platform Server is used to generate the hierarchical relationship of each intelligent flow valve according to the hierarchical relationship of fluid pipe network, Platform Server is also used to receive fluid data, and judge whether corresponding intelligent flow valve smoothly turns off when fluid data is abnormal, if corresponding intelligent flow valve does not turn off smoothly, then send the intelligent flow valve of cut-off signals a to level thereon And control its shutdown.The overall monitor of fluid conveying pipe network, processing in time may be implemented in the present invention.

Description

A kind of fluid conveying pipe network automatic monitored control system

Technical field

The present invention relates to fluid conveying monitoring technology fields, and in particular to a kind of fluid conveying pipe network automatic monitored control system.

Background technique

The fluids such as water, oil, the natural gas in city pass through pipeline, and the real time monitoring of pipeline situation is related to thousand The safety at ten thousand families of family.Currently, when fluid delivery pipe network is monitored, tend not to accomplish overall monitor, in time processing and When stop loss, usually because the damage of minor node leads to massive losses.

Summary of the invention

It is an object of the invention to overcome above-mentioned technical deficiency, a kind of fluid conveying pipe network automatic monitored control system is provided, is solved It certainly cannot achieve overall monitor, the processing in time, timely the technical issues of stopping loss of fluid conveying pipe network in the prior art.

To reach above-mentioned technical purpose, technical solution of the present invention provides a kind of fluid conveying pipe network automatic monitored control system, Including multiple intelligent flow valves and Platform Server, fluid conveying pipe network includes multi-stage pipeline, on the multistage pipeline respectively The intelligent flow valve is installed, each intelligent flow valve is connect with the Platform Server respectively, the intelligent flow valve It is voluntarily turned off for detecting fluid data, and when fluid data is abnormal, the stream is stored in the Platform Server The hierarchical relationship of body pipe network, the Platform Server are used to generate each intelligence flow according to the hierarchical relationship of the fluid pipe network The hierarchical relationship of valve is measured, the Platform Server is also used to receive the fluid data, and when judging that fluid data is abnormal Whether corresponding intelligent flow valve smoothly turns off, if corresponding intelligent flow valve does not turn off smoothly, sends cut-off signals To the intelligent flow valve of a level thereon and control its shutdown.

Compared with prior art, the beneficial effect comprise that the present invention is on the pipelines at different levels of fluid conveying pipe network It is respectively mounted intelligent flow valve, realizes the overall monitor of fluid conveying pipe network pipelines at different levels.Intelligent flow valve occurs in data on flows It automatically shuts down when abnormal, realize the timely processing of safety problem and stops loss in time.Meanwhile it being realized by Platform Server at different levels The centralized collection of pipeline upstream volume data, understands pipe network situation at any time convenient for supervisor, finds the problem in time.And platform service When corresponding intelligent flow defective valve does not turn off smoothly, the intelligent flow valve for controlling a level thereon in time is turned off device, Guarantee timely, the smooth processing of abnormal conditions.

Detailed description of the invention

Fig. 1 is the structural schematic diagram figure of one embodiment of fluid conveying pipe network automatic monitored control system provided by the invention.

Appended drawing reference:

1a, main intelligent flow valve, 1b, secondary intelligent flow valve, 1c, branch intelligent flow valve, 2, Platform Server.

Specific embodiment

In order to make the objectives, technical solutions, and advantages of the present invention clearer, with reference to the accompanying drawings and embodiments, right The present invention is further elaborated.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, and It is not used in the restriction present invention.

Embodiment 1

The embodiment of the present invention 1 provides fluid conveying pipe network automatic monitored control system, including multiple intelligent flow valves and Platform Server, fluid conveying pipe network include multi-stage pipeline, are separately installed with the intelligent flow valve on the multistage pipeline, respectively The intelligent flow valve is connect with the Platform Server respectively, and the intelligent flow valve is being flowed for detecting fluid data It is voluntarily turned off when volume data is abnormal, the hierarchical relationship of the fluid pipe network is stored in the Platform Server, it is described flat Platform server is used to generate the hierarchical relationship of each intelligent flow valve, the platform according to the hierarchical relationship of the fluid pipe network Server is also used to receive the fluid data, and judges whether corresponding intelligent flow valve is smooth when fluid data is abnormal Shutdown sends the intelligent flow valve of cut-off signals a to level thereon if corresponding intelligent flow valve does not turn off smoothly And control its shutdown.

The present invention is respectively mounted intelligent flow valve on the pipelines at different levels of fluid conveying pipe network, realizes that fluid conveying pipe network is at different levels The overall monitor of pipeline.Intelligent flow valve is automatically shut down when data on flows is abnormal, and realizes the timely place of safety problem It manages and stops loss in time.Meanwhile the centralized collection of pipeline upstream at different levels volume data is realized by Platform Server, it is convenient for supervisor Pipe network situation is understood at any time, is found the problem in time.And Platform Server is when corresponding intelligent flow defective valve turns off smoothly, The intelligent flow valve for controlling a level thereon in time is turned off, and guarantees timely, the smooth processing of abnormal conditions.

It should be understood that, the fluid in the present invention includes the substance that water, oil, natural gas etc. can be transmitted by pipeline.

The overall monitor of fluid conveying pipe network, processing in time may be implemented in the present invention, stops loss in time.

Preferably, the fluid pipe network includes main pipeline, secondary pipeline and branch pipe(tube), the main pipeline, secondary pipeline and The intelligent flow valve is mounted on branch pipe(tube)；The Platform Server is used to judge the intelligent flow valve on the branch pipe(tube) Whether smoothly turned off in its data on flows exception, if it is not, then sending secondary pipeline belonging to cut-off signals to corresponding branch pipe(tube) On intelligent flow valve, and control its shutdown；The Platform Server is also used to judge the intelligent flow valve on the secondary pipeline Whether smoothly turned off in its data on flows exception, if it is not, then sending main pipeline belonging to cut-off signals to corresponding pipeline On intelligent flow valve, and control its shutdown.

Pipe network is divided into three-level, main pipeline, secondary pipeline and branch pipe(tube) by this preferred embodiment, it should be appreciated that, pipe network is also It can be set to other hierarchical relationships.Platform Server establishes the hierarchical relationship of intelligent flow valve according to the hierarchical relationship of pipe network, When to realize certain intelligent flow defective valve, the shutdown of its upper level intelligent flow valve is controlled, to prevent the generation of safety accident. As shown in Figure 1, the intelligent flow valve installed on main pipeline is main intelligent flow valve 1a, the intelligent flow valve installed on secondary pipeline is Secondary intelligent flow valve 1b, the intelligent flow valve installed on branch pipe(tube) are branch intelligent flow valve 1c, according to pipe network layer in the present embodiment Grade generates the hierarchical relationship of each intelligent flow valve, by Platform Server 2 that its is right when a certain branch intelligent flow valve 1c failure The secondary intelligent flow valve 1b for the upper level answered is turned off, to realize the timely processing of abnormal conditions；Likewise, working as certain intelligence When energy flow valve 1b fails, the main intelligent flow valve 1a of its corresponding upper level is turned off by Platform Server 2.

Preferably, the data on flows includes Fluid pressure and fluid conveying duration.

Fluid pressure and fluid conveying duration are detected by intelligent flow valve, thus according to Fluid pressure and fluid Convey duration judgement and processing dangerous situation.

Preferably, the Platform Server judges whether the fluid data is abnormal specifically:

The fluid data is compared with given threshold, if it exceeds the given threshold is then determined as exception.

Judge whether real-time fluid data is normal by the method compared with given threshold.

Preferably, the given threshold is according to the historic fluid data setting of corresponding pipeline.

Given threshold is according to historic fluid data setting.For example, pipeline is divided into city-level pipeline, area grade pipeline, street Pipeline, cell pipeline and home pipeline.The setting of the given threshold for the intelligent flowmeter installed on home pipeline, needs basis Family's history fluid data determines that, if the average value of corresponding family history fluid data is X, given threshold can be set For 3X, voluntarily turned off when intelligent flow valve detects that real-time fluid data are more than 3X.Likewise, the intelligence installed on cell pipeline The setting of the given threshold of energy flow valve needs to be determined according to cell history fluid data, if respective cell historic fluid number According to average value be Y, then given threshold can be set to 4Y, when intelligent flow valve detects that real-time fluid data are more than 4Y Voluntarily turn off.City-level pipeline, area's grade pipeline, intelligent flow valve on the pipeline of street given threshold equally press this referring to setting. It should be understood that, by way of example only, the setting of given threshold can also be according to history minimum fluid data, history most for above data Big fluid data or other historic fluid data settings.And the type of fluid data here is settable a variety of, such as fluid Pressure data, fluid flow time data etc., to realize the monitoring of different data.Meanwhile the type of given threshold can also be set A variety of, such as day given threshold, all given thresholds, moon given threshold etc. are set, to realize the monitoring of different cycles.

Preferably, the intelligent flow valve include flowmeter, controller, solenoid valve, data collector, GPS locator with And timer；

The flowmeter, solenoid valve, data collector, GPS locator and timer are connect with the controller respectively, The data collector is connect with the Platform Server.

The flowmeter is for detecting fluid data, and controller is for judging whether fluid data is abnormal, if abnormal Electromagnetism valve breakdown is controlled, to stop loss in time.GPS locator is used to obtain the location information of intelligent flow valve itself, realizes intelligence The quick positioning of energy flow valve, easy access.Data collector is used to communicate with Platform Server, by fluid data and positioning Information is sent to Platform Server, and supervisor can obtain fluid data and location information in Platform Server.Timer For timing, timing is carried out when fluid data is abnormal, and if fluid data Abnormal lasting reaches given threshold, is then sent out The intelligent flow valve control of the supreme level of cut-off signals is sent to turn off.

Preferably, the data collector is Zigbee node.

The above described specific embodiments of the present invention are not intended to limit the scope of the present invention..Any basis Any other various changes and modifications that technical concept of the invention is made should be included in the guarantor of the claims in the present invention It protects in range.

Claims (7)

1. a kind of fluid conveying pipe network automatic monitored control system, which is characterized in that including multiple intelligent flow valves and platform service Device, fluid conveying pipe network include multi-stage pipeline, are separately installed with the intelligent flow valve, each intelligence on the multistage pipeline Flow valve is connect with the Platform Server respectively, and the intelligent flow valve is sent out for detecting fluid data, and in fluid data It is voluntarily turned off when raw abnormal, the hierarchical relationship of the fluid pipe network, the Platform Server is stored in the Platform Server For generating the hierarchical relationship of each intelligent flow valve according to the hierarchical relationship of the fluid pipe network, the Platform Server is also For receiving the fluid data, and judge whether corresponding intelligent flow valve smoothly turns off when fluid data is abnormal, such as The corresponding intelligent flow valve of fruit does not turn off smoothly, then sends cut-off signals to the intelligent flow valve of a level thereon and control it Shutdown.

2. fluid conveying pipe network automatic monitored control system according to claim 1, which is characterized in that the fluid pipe network includes Main pipeline, secondary pipeline and branch pipe(tube) are mounted on the intelligent flow valve on the main pipeline, secondary pipeline and branch pipe(tube)； The Platform Server for judging whether the intelligent flow valve on the branch pipe(tube) smoothly turns off in its data on flows exception, If it is not, then sending the intelligent flow valve on secondary pipeline belonging to cut-off signals to corresponding branch pipe(tube), and control its shutdown；It is described Platform Server is also used to judge whether the intelligent flow valve on the secondary pipeline smoothly turns off in its data on flows exception, such as Fruit is no, then sends the intelligent flow valve on main pipeline belonging to cut-off signals to corresponding pipeline, and control its shutdown.

3. fluid conveying pipe network automatic monitored control system according to claim 1, which is characterized in that the data on flows includes Fluid pressure and fluid conveying duration.

4. fluid conveying pipe network automatic monitored control system according to claim 1, which is characterized in that the Platform Server is sentenced Whether the fluid data of breaking is abnormal specifically:

The fluid data is compared with given threshold, if it exceeds the given threshold is then determined as exception.

5. fluid conveying pipe network automatic monitored control system according to claim 4, which is characterized in that the given threshold according to The historic fluid data setting of corresponding pipeline.

6. fluid conveying pipe network automatic monitored control system according to claim 1, which is characterized in that the intelligent flow valve packet Include flowmeter, controller, solenoid valve, data collector, GPS locator and timer；

The flowmeter, solenoid valve, data collector, GPS locator and timer are connect with the controller respectively, described Data collector is connect with the Platform Server.

7. fluid conveying pipe network automatic monitored control system according to claim 6, which is characterized in that the data collector is Zigbee node.