CN205135583U - Monitoring system of each interval water injection state of multilayer section water injection well - Google Patents

Abstract

An embodiment of the utility model provides a monitoring system of each interval water injection state of multilayer section water injection well, this system includes: ground control host computer and sleeve pipe are provided with carrier wave pipe type cable, cross cable packer and a plurality of device of water distribution in the pit in the inner chamber, a plurality of devices of water distribution in the pit are connected with oil pipe in carrier wave pipe type cable and the sleeve pipe, every injection allocation stratum of water distribution device correspondence in the pit, every in the pit the water distribution device be used for gathering in real time the injection status data on self corresponding injection allocation stratum, cross the cable packer, be connected with oil pipe, sit to seal at every water distribution device both ends in the pit, make every in the pit water distribution device place department form sealed water injection chamber, carrier wave pipe type cable for in real time the injection status data with each injection allocation stratum of each water distribution device collection in the pit transmits for the ground control host computer, the ground control host computer is used for saving the injection status data on each injection allocation stratum. This scheme can be monitored the water injection well in real time, for a long time and poured into status data into, simultaneously, avoid the field monitoring.

Description

The monitoring system of each interval charging state of multi-section multi-layer water injection well

Technical field

The utility model relates to oil extraction in oil field field of engineering technology, particularly the monitoring system of each interval charging state of a kind of multi-section multi-layer water injection well.

Background technology

Because oil field enters ultra-high water cut stage, have employed the oil production technology of oil production by layer, seperated layer water injection exploitation, how effectively improving water filling qualification rate, reducing site operation workload, reduce development cost is the main bugbear that oil field faces at present.And in current conventionally test, all based on tester, setting packer has been carried out in being gone into the well by preset dead mouth, pull dead mouth after having set out, and then each layer is dropped into respectively after adjustable blanking plug (control valve) carries out water filling, just to carry out testing envelope and follow-up flow or pressure test.But along with water injection well increases year by year, and for ensureing that water filling qualification rate test period also constantly shortens, causing on-the-spot test to allocate workload significantly increases, and existing troop cannot meet on-the-spot test requirement; In addition, technique traditional at present cannot inject status data by Real-Time Monitoring water injection well for a long time, can not assist the understanding to reservoir and analysis Remaining Oil.

Utility model content

The utility model embodiment provides the monitoring system of each interval charging state of a kind of multi-section multi-layer water injection well, injects status data with real-time, long term monitoring water injection well, is conducive to the auxiliary understanding to reservoir and analyzes Remaining Oil; Meanwhile, field monitoring is avoided.This system comprises: ground main control system and sleeve pipe, is provided with carrier wave steel pipe type cable, cable-passing packer and multiple underground water distribution device in described cannula cavity, wherein, described sleeve pipe, under enter in multi-section multi-layer water injection well; Multiple described underground water distribution device, be connected with the oil pipe in described carrier wave steel pipe type cable and described cannula cavity, the corresponding injection allocation stratum of each described underground water distribution device, each described underground water distribution device is used for the injection status data on the corresponding injection allocation stratum of Real-time Collection self; Described cable-passing packer, is connected with described oil pipe, sets at each described underground water distribution device two ends, makes each described underground water distribution device place place form the water-injecting cavity of sealing; Described carrier wave steel pipe type cable, through described cable-passing packer, is fixed on described oil pipe, gives described ground main control system for the real-time injection status data transfers by each injection allocation stratum of each described underground water distribution device collection; Described ground main control system, arranging on the ground, being connected, for storing the injection status data on described each injection allocation stratum with one end of described carrier wave steel pipe type cable.

In one embodiment, described underground water distribution device comprises: vortex flow sensors, for the flow on the corresponding injection allocation stratum of underground water distribution device described in Real-time Collection self; Pressure sensor, for the pressure on the corresponding injection allocation stratum of underground water distribution device described in Real-time Collection self; Temperature pick up, for the temperature on the corresponding injection allocation stratum of underground water distribution device described in Real-time Collection self; Analog-to-digital conversion circuit, be connected with described vortex flow sensors, described pressure sensor and described temperature pick up, for carrying out analog-to-digital conversion to the data on flows gathered, pressure data and temperature data, and data on flows, pressure data and the temperature data after conversion is transferred to single-chip microcomputer; Described single-chip microcomputer, is transferred to voltage change modulation circuit by data on flows, pressure data and temperature data after conversion; Described voltage change modulation circuit, by data on flows, pressure data and the temperature data modulation after conversion over the carrier signal, and sends to described carrier wave steel pipe type cable by carrier signal.

In one embodiment, described single-chip microcomputer also comprises: subtracter, and the data on flows for being gathered by described vortex flow sensors deducts preset flow numerical value, obtains difference; Comparator, for being compared as size by the numerical value of difference with default value scope, when described difference does not belong to described default value scope, sends adjustment triggering signal; Described underground water distribution device also comprises: described motor-drive circuit, for reception and according to described adjustment triggering signal drive motors; Described motor, for the size by machine driving adjustment control valve opening.

In one embodiment, also comprise: industrial computer, be connected with described ground main control system by data wire, wherein, described industrial computer, for receiving the injection allocation flow of input, gives described ground main control system by described injection allocation flow by described data line transfer; Described ground main control system, also for giving described underground water distribution device by described carrier wave steel pipe type cable by described injection allocation traffic transport; Described underground water distribution device also comprises: simulation electrical power carrier circuit, obtains the described injection allocation flow of described carrier wave steel pipe type cable transmission, write by described injection allocation flow in described single-chip microcomputer as new preset flow numerical value for receiving and decoding.

In one embodiment, described ground main control system comprises: timer, synchronously carries out survey tune for arranging multiple described underground water distribution device.

In one embodiment, described underground water distribution device, also comprises: switching power circuit, is connected with power supply by described carrier wave steel pipe type cable, for receiving the supply voltage of described carrier wave steel pipe type cable transmission, carries out step-down process to this supply voltage; Power supply stabilization circuit, is connected with described switching power circuit and described single-chip microcomputer, for carrying out filtering process to the voltage after step-down process, the voltage after filtering process is supplied described single-chip microcomputer.

In the utility model embodiment, by being arranged on by underground water distribution device, sleeve pipe is medium-term and long-term is placed in down-hole, underground water distribution device can the injection status data on each injection allocation stratum of Real-time Collection, and be transferred to ground main control system by carrier wave steel pipe type cable and store, so that subsequent analysis, achieve can in real time, long term monitoring water injection well injects status data, be conducive to the auxiliary understanding to reservoir and analyze Remaining Oil; Meanwhile, realize testing envelope, inspection joined, allocate and profile control time do not need to employ survey and shunt, avoid field monitoring, reduce and survey tune site work amount, reduction testing expense.

Accompanying drawing explanation

Accompanying drawing described herein is used to provide further understanding of the present utility model, forms a application's part, does not form restriction of the present utility model.In the accompanying drawings:

Fig. 1 is the monitoring system schematic diagram of each interval charging state of a kind of multi-section multi-layer water injection well that the utility model embodiment provides;

Fig. 2 is the structural representation of a kind of underground water distribution device that the utility model embodiment provides.

Detailed description of the invention

For making the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with embodiment and accompanying drawing, the utility model is described in further details.At this, exemplary embodiment of the present utility model and illustrating for explaining the utility model, but not as to restriction of the present utility model.

In the utility model embodiment, provide the monitoring system of each interval charging state of a kind of multi-section multi-layer water injection well, as shown in Figure 1, the monitoring system of each interval charging state of this multi-section multi-layer water injection well comprises: ground main control system 3 and sleeve pipe 8, carrier wave steel pipe type cable 4, cable-passing packer 5 and multiple underground water distribution device 6 is provided with in described sleeve pipe 8 inner chamber, wherein

Described sleeve pipe 8, under enter in multi-section multi-layer water injection well;

Multiple described underground water distribution device 6, be connected with the oil pipe 7 in described carrier wave steel pipe type cable 4 and described cannula cavity, the corresponding injection allocation stratum of each described underground water distribution device, each described underground water distribution device is used for the injection status data on the corresponding injection allocation stratum of Real-time Collection self;

Described cable-passing packer 5, is connected with described oil pipe 7, sets at each described underground water distribution device two ends, makes each described underground water distribution device place place form the water-injecting cavity of sealing;

Described carrier wave steel pipe type cable 4, through described cable-passing packer 5, is fixed on described oil pipe 7, gives described ground main control system for the real-time injection status data transfers by each injection allocation stratum of each described underground water distribution device collection;

Described ground main control system 3, arranging on the ground, being connected, for storing the injection status data on described each injection allocation stratum with one end of carrier wave steel pipe type cable 4.

Known as shown in Figure 1, in the utility model embodiment, by being arranged on by underground water distribution device, sleeve pipe is medium-term and long-term is placed in down-hole, underground water distribution device can the injection status data on each injection allocation stratum of Real-time Collection, and be transferred to ground main control system by carrier wave steel pipe type cable and store, so that subsequent analysis, achieve can in real time, long term monitoring water injection well injects status data, be conducive to the auxiliary understanding to reservoir and analyze Remaining Oil; Meanwhile, realize testing envelope, inspection joined, allocate and profile control time do not need to employ survey and shunt, avoid field monitoring, reduce and survey tune site work amount, reduction testing expense.

During concrete enforcement, the each parts in above-mentioned sleeve pipe 8 can be connected: first by following steps, carrier wave steel pipe type cable 4 and oil pipe 7 are arranged in sleeve pipe 8 inner chamber, first the underground water distribution device 6 corresponding with orlop injection allocation stratum is connected with carrier wave steel pipe type cable 4, realize setting up communication between underground water distribution device 6 with ground main control system 3 to be connected, underground water distribution device 6 and oil pipe 7 pass through screwed connection, by clip, carrier wave steel pipe type cable 4 is fixed on oil pipe 7 again, carrier wave steel pipe type cable 4 is through cable-passing packer 5, cable-passing packer 5 and oil pipe 7 pass through screwed connection, cable-passing packer 5 sets the two ends at the underground water distribution device 6 corresponding with orlop injection allocation stratum, this underground water distribution device 6 place place is made to form the water-injecting cavity of sealing, this underground water distribution device 6 just can realize the function such as flow allocating and parameter acquisition of orlop injection allocation interval, then, the underground water distribution device 6 corresponding with last layer injection allocation stratum is connected in carrier wave steel pipe type cable 4, cable-passing packer 5 is set again at the two ends of this underground water distribution device 6, the like, underground water distribution device 6 corresponding for each injection allocation stratum is connected in carrier wave steel pipe type cable 4, and set cable-passing packer 5 at the two ends of each underground water distribution device 6, finally, each parts connected are lowered in sleeve pipe 8.

During concrete enforcement, in order to realize the injection status data on each injection allocation stratum of Real-time Collection, in the present embodiment, as shown in Figure 2, described underground water distribution device 6 comprises: vortex flow sensors 18, for the flow on the corresponding injection allocation stratum of underground water distribution device described in Real-time Collection self; Pressure sensor 19, for the pressure on the corresponding injection allocation stratum of underground water distribution device described in Real-time Collection self; Temperature pick up 20, for the temperature on the corresponding injection allocation stratum of underground water distribution device described in Real-time Collection self; Analog-to-digital conversion circuit (i.e. AD conversion circuit) 9, be connected with described vortex flow sensors, described pressure sensor and described temperature pick up, for carrying out analog-to-digital conversion to the data on flows gathered, pressure data and temperature data, and data on flows, pressure data and the temperature data after conversion is transferred to single-chip microcomputer; Described single-chip microcomputer 10 (such as, can be PIC16F887 single-chip minimum system), is transferred to voltage change modulation circuit by data on flows, pressure data and temperature data after conversion; Described voltage change modulation circuit 13, by data on flows, pressure data and the temperature data modulation after conversion over the carrier signal, and sends to described carrier wave steel pipe type cable 4 by carrier signal.The injection status data being about to gather is transferred to ground main control system 3 by carrier wave steel pipe type cable 4 in real time and stores, and analyzes injection status data so that follow-up.

During concrete enforcement, in order to realize adjusting in real time control valve, in the present embodiment, described single-chip microcomputer also comprises: subtracter, and the data on flows for being gathered by described vortex flow sensors deducts preset flow numerical value, obtains difference; Comparator, for being compared as size by the numerical value of difference with default value scope, when described difference does not belong to described default value scope, sends adjustment triggering signal; As shown in Figure 2, described underground water distribution device also comprises: described motor-drive circuit 15, for reception and according to described adjustment triggering signal (such as, pulse signal) drive motors 16; Described motor 16, for the size by machine driving adjustment control valve 17 aperture.By the flow on each injection allocation stratum of real-time analysis, the size of control valve 17 aperture can be adjusted in real time, make the flow on each injection allocation stratum more meet the requirement of injection allocation scheme.

During concrete enforcement, as shown in Figure 2, above-mentioned underground water distribution device 6, also comprises: switching power circuit 12, is connected with power supply by described carrier wave steel pipe type cable, for receiving the supply voltage of described carrier wave steel pipe type cable transmission, carries out step-down process to this supply voltage; Power supply stabilization circuit 11, is connected with described switching power circuit 12 and described single-chip microcomputer 10, for carrying out filtering process (namely carrying out denoising voltage stabilizing process to voltage) to the voltage after step-down process, the voltage after filtering process is supplied described single-chip microcomputer.

During concrete enforcement, in order to realize the injection allocation scheme that can adjust each injection allocation stratum, meet different work demand, in the present embodiment, as shown in Figure 1, the monitoring system of each interval charging state of above-mentioned multi-section multi-layer water injection well also comprises: industrial computer 1, be connected with described ground main control system 3 by data wire 2, wherein, described industrial computer 1, for receiving the injection allocation flow of input, give described ground main control system by described injection allocation flow by described data line transfer; Described ground main control system 3, also for giving described underground water distribution device 6 by described carrier wave steel pipe type cable by described injection allocation traffic transport; As shown in Figure 2, described underground water distribution device also comprises: simulation electrical power carrier circuit 14, obtains the described injection allocation flow of described carrier wave steel pipe type cable transmission, write by described injection allocation flow in described single-chip microcomputer as new preset flow numerical value for receiving and decoding.After namely new preset flow numerical value is set, by above-mentioned single-chip microcomputer 10, the flow on each injection allocation stratum gathered and new preset flow numerical value can be analyzed, according to the size of analysis result adjustment control valve 17 aperture, and then the flow on each injection allocation stratum of realization adjustment is more to meet the requirement of injection allocation scheme.

During concrete enforcement, described ground main control system 3 comprises: timer, synchronously can carry out survey tune for arranging multiple described underground water distribution device 6.Thus strictly achieve each interval and synchronously allocate, avoid the interlayer interference of surveying in tune process.

In the utility model embodiment, by being arranged on by underground water distribution device, sleeve pipe is medium-term and long-term is placed in down-hole, underground water distribution device can the injection status data on each injection allocation stratum of Real-time Collection, and be transferred to ground main control system by carrier wave steel pipe type cable and store, so that subsequent analysis, achieve can in real time, long term monitoring water injection well injects status data, be conducive to the auxiliary understanding to reservoir and analyze Remaining Oil; Meanwhile, realize testing envelope, inspection joined, allocate and profile control time do not need to employ survey and shunt, avoid field monitoring, reduce and survey tune site work amount, reduction testing expense.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model embodiment can have various modifications and variations.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (6)

1. a monitoring system for each interval charging state of multi-section multi-layer water injection well, is characterized in that, comprising: ground main control system and sleeve pipe, is provided with carrier wave steel pipe type cable, cable-passing packer and multiple underground water distribution device in described cannula cavity, wherein,

Described sleeve pipe, under enter in multi-section multi-layer water injection well;

Multiple described underground water distribution device, be connected with the oil pipe in described carrier wave steel pipe type cable and described cannula cavity, the corresponding injection allocation stratum of each described underground water distribution device, each described underground water distribution device is used for the injection status data on the corresponding injection allocation stratum of Real-time Collection self;

Described cable-passing packer, is connected with described oil pipe, sets at each described underground water distribution device two ends, makes each described underground water distribution device place place form the water-injecting cavity of sealing;

Described carrier wave steel pipe type cable, through described cable-passing packer, is fixed on described oil pipe, gives described ground main control system for the real-time injection status data transfers by each injection allocation stratum of each described underground water distribution device collection;

Described ground main control system, arranging on the ground, being connected, for storing the injection status data on described each injection allocation stratum with one end of described carrier wave steel pipe type cable.

2. the monitoring system of each interval charging state of multi-section multi-layer water injection well as claimed in claim 1, it is characterized in that, described underground water distribution device comprises:

Vortex flow sensors, for the flow on the corresponding injection allocation stratum of underground water distribution device described in Real-time Collection self;

Pressure sensor, for the pressure on the corresponding injection allocation stratum of underground water distribution device described in Real-time Collection self;

Temperature pick up, for the temperature on the corresponding injection allocation stratum of underground water distribution device described in Real-time Collection self;

Analog-to-digital conversion circuit, be connected with described vortex flow sensors, described pressure sensor and described temperature pick up, for carrying out analog-to-digital conversion to the data on flows gathered, pressure data and temperature data, and data on flows, pressure data and the temperature data after conversion is transferred to single-chip microcomputer;

Described single-chip microcomputer, is transferred to voltage change modulation circuit by data on flows, pressure data and temperature data after conversion;

Described voltage change modulation circuit, by data on flows, pressure data and the temperature data modulation after conversion over the carrier signal, and sends to described carrier wave steel pipe type cable by carrier signal.

3. the monitoring system of each interval charging state of multi-section multi-layer water injection well as claimed in claim 2, it is characterized in that, described single-chip microcomputer also comprises:

Subtracter, the data on flows for being gathered by described vortex flow sensors deducts preset flow numerical value, obtains difference;

Comparator, for being compared as size by the numerical value of difference with default value scope, when described difference does not belong to described default value scope, sends adjustment triggering signal;

Described underground water distribution device also comprises:

Described motor-drive circuit, for reception and according to described adjustment triggering signal drive motors;

Described motor, for the size by machine driving adjustment control valve opening.

4. the monitoring system of each interval charging state of multi-section multi-layer water injection well as claimed in claim 3, be is characterized in that, also comprise: industrial computer, be connected by data wire with described ground main control system, wherein,

Described industrial computer, for receiving the injection allocation flow of input, gives described ground main control system by described injection allocation flow by described data line transfer;

Described ground main control system, also for giving described underground water distribution device by described carrier wave steel pipe type cable by described injection allocation traffic transport;

Described underground water distribution device also comprises:

Simulation electrical power carrier circuit, obtains the described injection allocation flow of described carrier wave steel pipe type cable transmission for receiving and decoding, is write by described injection allocation flow in described single-chip microcomputer as new preset flow numerical value.

5. the monitoring system of each interval charging state of the multi-section multi-layer water injection well according to any one of Claims 1-4, is characterized in that, described ground main control system comprises:

Timer, synchronously carries out survey tune for arranging multiple described underground water distribution device.

6. the monitoring system of each interval charging state of the multi-section multi-layer water injection well according to any one of claim 2 to 4, is characterized in that, described underground water distribution device, also comprises:

Switching power circuit, is connected with power supply by described carrier wave steel pipe type cable, for receiving the supply voltage of described carrier wave steel pipe type cable transmission, carries out step-down process to this supply voltage;

Power supply stabilization circuit, is connected with described switching power circuit and described single-chip microcomputer, for carrying out filtering process to the voltage after step-down process, the voltage after filtering process is supplied described single-chip microcomputer.