CN205302057U - Pipeline intellectualized supervisory control device - Google Patents

Abstract

The utility model provides a pipeline intellectualized supervisory control device, sensor pass through the wire and are connected with data acquisition facility, and data acquisition facility is connected with the data relay points, and the data relay point is connected with data processing center, pipe wire sleeve is two -layer, wraps up in the transport pipe line outside, is inclosed first layer annular space between first layer pipe wire sleeve and the second floor pipe wire sleeve, first layer pipe wire sleeve on have the entry of filling, communicate with each other with the first layer annular space, be inclosed second floor annular space between second floor pipe wire sleeve and the transport pipe line, second floor pipe wire sleeve on have the entry of filling, communicate with each other with second floor annular space, and does not communicate with each other with the first layer annular space, as an organic wholeization of sensor humiture pressure sensor and pressure sensor, integration humiture pressure sensor utilizes the bolt fastening in second floor annular space through the trompil, and pressure sensor utilizes the bolt fastening in the first layer annular space through the trompil, data acquisition facility is fixed in two transport pipe line connection departments through the clamp. The advantage is: the time that contractible weak point was pinpointed the problems, improve the reaction rate, avoid secondary damage to take place, reduce economic loss.

Description

A kind of pipeline Intellectualized monitoring device

Technical field

This utility model belongs to pipeline monitoring technical field, particularly to a kind of pipeline Intellectualized monitoring device.

Background technology

At present, along with the fast development of industry, pipe-line construction is also in like a raging fire carrying out. Up to the present, only oil pipeline line, China's overall length has reached about 3.5 ten thousand kilometers, estimates according to expert, at following 10 years, product oils such as realizing gasoline, diesel oil, kerosene is carried by China all of pipeline, and desire to complete above-mentioned target, every year on average will newly-built 20,000 kilometers of all kinds of conveyance conduits, China's oil pipeline construction will welcome new climax, meanwhile, gas distributing system is also in quickly building, to meet people's demand to natural gas. And the pipe network that the pipeline being layed in below ground is formed is not easy to find in time pipe network exception and Combustible Gas Leak situation. At present, the monitoring to pipeline, mainly artificially judge according to pipeline designs parameter, after leakage occur in oil transportation or gas transmission line, just can pinpoint the problems, contaminated environment also brings economic greatly damage. For the drawback that current pipeline monitoring exists, the present invention provides a kind of pipeline Intellectualized monitoring method.

Utility model content

The purpose of this utility model is in that to avoid problems of the prior art to provide a kind of pipeline Intellectualized monitoring device.

The technical solution adopted in the utility model is: a kind of pipeline Intellectualized monitoring device, including pipeline sleeve pipe, transport line, sensor, data acquisition equipment, sensor is connected with data acquisition equipment by wire, data acquisition equipment is connected with data relay stations, and data relay stations is connected with data processing centre; Pipeline sleeve pipe is two-layer, is wrapped in outside transport line, is airtight ground floor annular space, described ground floor pipeline sleeve pipe is filled with mouth, communicates with ground floor annular space between ground floor pipeline sleeve pipe and second layer pipeline sleeve pipe;It it is airtight second layer annular space between second layer pipeline sleeve pipe and transport line; Described second layer pipeline sleeve pipe is filled with mouth, communicates with second layer annular space, and do not communicate with ground floor annular space; The integrated humiture pressure transducer of sensor and pressure transducer, integration humiture pressure transducer is utilized by perforate and is bolted in second layer annular space, and pressure transducer is utilized by perforate and is bolted in ground floor annular space; Data acquisition equipment is fixed on two transport line junctions by clip.

Inert fluid or noble gas it is filled with in ground floor annular space.

It is filled with air in described second layer annular space, and between air, no pressure is poor.

Described data acquisition equipment is by wired or wireless mode and data relay stations communication.

Compared with prior art, the beneficial effects of the utility model are: this utility model monitors the pressure data of the pressure humiture data outside transport line and ground floor annular space in real time, a kind of quantized values is provided for staff, grasp the running status of pipe network, when data occur abnormal, notify staff in time, shorten the time pinpointed the problems, improve response speed, it is to avoid secondary disaster occurs, reduce economic loss.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Fig. 2 is section of structure of the present utility model.

Fig. 3 is connection diagram of the present utility model.

Wherein: 1 is ground floor pipeline sleeve pipe, 2 is second layer annular space, and 3 is ground floor annular space, and 4 is transport line, 5 is data acquisition equipment, 6 for being filled with mouth, and 7 is pressure transducer, 8 integrated humiture pressure transducers, 9 is second layer pipeline sleeve pipe, 10 is clip, and 11 is data relay stations, and 12 is data processing centre.

Detailed description of the invention

Embodiment of the present utility model is described in detail below in conjunction with accompanying drawing.

A kind of pipeline Intellectualized monitoring device, including pipeline sleeve pipe, transport line 4, sensor, data acquisition equipment 5, sensor is connected with data acquisition equipment 5 by wire, and data acquisition equipment 5 is connected with data relay stations 11, and data relay stations 11 is connected with data processing centre 12; Pipeline sleeve pipe is two-layer, is wrapped in outside transport line 4, is airtight ground floor annular space 3, described ground floor pipeline sleeve pipe 1 is filled with mouth, communicates with ground floor annular space 3 between ground floor pipeline sleeve pipe 1 and second layer pipeline sleeve pipe 9; It it is airtight second layer annular space 2 between second layer pipeline sleeve pipe 9 and transport line 4; Described second layer pipeline sleeve pipe 9 is filled with mouth, communicates with second layer annular space 2, and do not communicate with ground floor annular space 3; The integrated humiture pressure transducer 8 of sensor and pressure transducer 7, integration humiture pressure transducer 8 is bolted in second layer annular space 2 by perforate utilization, and pressure transducer 7 is utilized by perforate and is bolted in ground floor annular space 3; Data acquisition equipment 5 is fixed on two transport line 4 junctions by clip 10.

It is filled with inert fluid or noble gas in described ground floor annular space 3.

It is filled with air in described second layer annular space 2, and between air, no pressure is poor.

Described data acquisition equipment 5 is communicated with data relay stations 11 by wired or wireless mode.

In actual application, such as Fig. 1, shown in Fig. 2, first, by second layer pipeline sleeve pipe 9 traverse ground floor pipeline sleeve pipe 1, ground floor annular space 3 is formed between ground floor pipeline sleeve pipe 1 and second layer pipeline sleeve pipe 9, the sealing ring of two-layer pipeline sleeve pipe utilizes bolt fixed installation pressure transducer 7 by perforate, have only to install in one end of pipeline sleeve pipe, after installation, utilize sealing ring that ground floor pipeline sleeve pipe 1 and second layer pipeline sleeve pipe 9 two ends are carried out encapsulation process, afterwards, by transport line 4 traverse second layer pipeline sleeve pipe 9, at second layer pipeline sleeve pipe 9 and the integrated humiture pressure transducer 8 of installation on the sealing ring of transport line 4, this sensor only need to be installed in one end of pipeline sleeve pipe, pressure transducer 7 and integration humiture pressure transducer 8 should be arranged on the same end of pipeline sleeve pipe, it is easy to be attached by wire with data acquisition equipment 5, at the two ends of second layer pipeline sleeve pipe 9, transport line 4 and second layer pipeline sleeve pipe 9 are sealed by sealing ring, according to practical situation, by being arranged on ground floor annular space 3 is filled with mouth 6, liquid or safety gas can be filled with, such as nitrogen etc., its inner space is made to there is certain pressure, other transport line processes in this manner.During site operation, two transport line 4 are welded, by clip 10, data acquisition equipment 5 is fixed on transport line 4 place of welding, simultaneously, integration humiture pressure transducer 8 and pressure transducer 7 are connected by wire with data acquisition equipment 5, data acquisition equipment 5 can be communicated by wired or wireless mode and other equipment, select wire transmission according to on-the-spot actual demand or be wirelessly transferred, transport line for burying is generally adopted wire transmission, need to connect order wire on data acquisition equipment 5, it is easy to communicate with miscellaneous equipment, for outdoor transport line, it is generally adopted and is wirelessly transferred, after being more than ready to complete, with insulation material such as two transport line 4 junctions of yellow jacket parcel.

As shown in Figure 3, after data acquisition equipment 5 installation, in order to realize the long-distance transmissions of data, a data relay stations 11 is increased every 2KM, data relay stations 11 is arranged on ground, being connected with each data acquisition equipment 5 by wire, data relay stations 11 is connected with individual data collecting device 5 by wireless or RS485 bus, reads the humiture pressure of the second annular space 2 and the pressure data in first annular space 3. after data relay stations 11 gets data, pass through wireless bridge, GPRS, the modes such as CDMA, send data to data processing centre 12, data are analyzed judging by data processing centre 12, when the pressure data monitoring first annular space 3 changes, then transport line 4 likely suffers to destroy artificial boring or construction is dug disconnected, when the pressure humiture monitoring the second annular space 2 changes, then transport line 4 is likely to occur perforation, the liquid or the gas that cause transport enter into the second annular space 2, owing to the second annular space 2 is airtight, prevent liquid or gas from entering directly in environment or air, prevent secondary harm. by this kind of monitoring method, when data occur abnormal, data processing centre 12 ejects warning dialog box in time, reminds staff to implement concrete condition to data monitoring out-of-the way position, by this kind of mode, a kind of quantized values is provided for staff, grasp the running status of pipe network, shorten the time pinpointed the problems, improve response speed, avoid secondary disaster to occur, reduce economic loss.

Claims (4)

1. a pipeline Intellectualized monitoring device, including pipeline sleeve pipe, transport line, sensor, data acquisition equipment, sensor is connected with data acquisition equipment by wire, and data acquisition equipment is connected with data relay stations, and data relay stations is connected with data processing centre; It is characterized in that: pipeline sleeve pipe is two-layer, be wrapped in outside transport line, be airtight ground floor annular space between ground floor pipeline sleeve pipe and second layer pipeline sleeve pipe, described ground floor pipeline sleeve pipe be filled with mouth, communicate with ground floor annular space; It it is airtight second layer annular space between second layer pipeline sleeve pipe and transport line; Described second layer pipeline sleeve pipe is filled with mouth, communicates with second layer annular space, and do not communicate with ground floor annular space; The integrated humiture pressure transducer of sensor and pressure transducer, integration humiture pressure transducer is utilized by perforate and is bolted in second layer annular space, and pressure transducer is utilized by perforate and is bolted in ground floor annular space; Data acquisition equipment is fixed on two transport line junctions by clip.

2. a kind of pipeline Intellectualized monitoring device according to claim 1, it is characterised in that be filled with inert fluid or noble gas in ground floor annular space.

3. a kind of pipeline Intellectualized monitoring device according to claim 1, it is characterised in that be filled with air in described second layer annular space, and between air, no pressure is poor.

4. a kind of pipeline Intellectualized monitoring device according to claim 1, it is characterised in that described data acquisition equipment is by wired or wireless mode and data relay stations communication.