CN114754647A - Method for processing roll call of explosive machine of intelligent well gun source driving system - Google Patents

Abstract

The invention discloses a processing method of an intelligent well gun source driving system about roll calling of an explosive machine, 1, a central control console sends a roll calling instruction to a handheld end; 2. the handheld end receives the roll call instruction and transmits roll call confirmation information and GPS coordinate information back to the central control radio station; 3. the central control electric station receives the confirmed roll calling information and the GPS coordinate information of the well mouth, finishes roll calling, adds the well mouth to the tail of the queuing list, and queues for waiting for blasting of the well mouth; when the roll call is abnormal, the central control electric station sends a roll call instruction to the abnormal handheld end every time the central control electric station completes blasting, until the central control electric station completes the roll call of the wellhead, and the wellhead is inserted into the queuing list. The number of times of conversation between the central control radio station and the handheld end is reduced through radio station roll calling, time is saved, when roll calling is abnormal, roll calling can be conducted for many times through the system to confirm abnormal removal, and the team is inserted for blasting, so that the whole working efficiency can be improved, and blasting processing time is saved.

Description

Processing method of intelligent well gun source driving system for roll calling of explosive machine

Technical Field

The invention belongs to the technical field of well gun source driving, and particularly relates to a processing method of an intelligent well gun source driving system for roll calling of an explosive machine.

Background

With the increase of national demand for oil and gas, the rapid increase of storage and production of oil and gas fields requires geophysical prospecting work for quality improvement and efficiency improvement. With the progress of the seismic acquisition technology, the data acquisition efficiency is continuously improved, the acquisition efficiency of marine and land controllable seismic sources reaches 1500-shot 2000-shot per hour, but the maximum acquisition efficiency of mountain well-shot can only reach about 200-shot per hour. The reason is as follows: mainly because the mountain land topography is complicated, and communication condition is extremely poor, only can rely on artifical relay mode construction, and collection efficiency is difficult to improve, and causes the relation mistake of checking by a gun easily, influences construction quality. However, domestic oil and gas prospect areas are mostly in mountainous areas with complex terrain, so that the technical problem which needs to be solved urgently is how to optimize the existing well gun source driving system to improve the quality and the efficiency in the mountainous areas.

At present, the BOOMBOX-II remote explosion system is most used in mountain exploration, the device is a second-generation digital remote explosion system produced by the American Seismic Source company, the device is early in production and use time, only an external serial port GPS receiver is needed, the satellite receiving speed is slow, the GPS information can be acquired only by carrying an explosion machine to a wellhead every time, the construction efficiency is low, and the device is not beneficial to mountain construction.

The conventional general source driving technology can improve efficiency, but cannot be implemented in a mountain relay mode, so that the efficiency is still low in practical popularization and use.

For this reason, the applicant proposed an invention patent application of "a well gun auxiliary control system with radio station communication protocol" in 8/5/2020, which has an application number of cn202021447.x, and discloses the following contents: a well gun auxiliary control system with a radio station communication protocol comprises an N-type explosive machine, a central control device and a 428XL seismic instrument, wherein a positioning device is connected with an explosive machine radio station controller, and a BOOMBOX explosive machine and a radio station controller are respectively connected with an explosive machine radio station; the N-number explosive machine is in communication connection with a central control console of central control equipment through an explosive machine radio station, the central control console is respectively connected with the input end of a BOOMBOX encoder and the input end of a source drive central controller, the output end of the BOOMBOX encoder is connected with the input end of the source drive central controller, and the output end of the source drive central controller is respectively connected with the input end of the central control console and the input end of a 428XL seismic instrument; and a decoding module for decoding and caching shot point GPS information is arranged in the source drive central controller.

The application utilizes the existing radio station to communicate, does not depend on a public network any more, can realize the transmission and communication of the shot point GPS information, meets the special requirements of mountain construction, and particularly meets the requirement of realizing source driving work by utilizing the existing radio station communication in areas with difficult communication; and the well gun source driving of the BOOMBOX explosion machine can be realized under the relay mode.

However, in practical applications, the following situations occur, which affect the overall operating efficiency.

1. The center control electric station is communicated with the handheld end in a voice mode, when a well mouth corresponding to one handheld end needs to be blasted, the center control electric station needs to be manually contacted, the center control electric station is informed that the well mouth is ready, and then the center control electric station is waited to send a blasting signal for blasting.

2. The instruction of blasting is issued and is decided by well accuse electronic desk, and whether the handheld end is operated can only be confirmed through the manual work, can not directly blast, must pass through the manual work and confirm once more and can blast, can increase operating time.

3. If the blasting is not timely performed, the blasting can be ignored or directly waited for all the blasting to be completed, and finally blasting is performed again, and the blasting can be arranged after the blasting of other normal blasting is completed, so that the waste of waiting time of workers in the well mouth of the group can be caused when multiple groups of blasting are performed simultaneously.

Therefore, how to solve the above-mentioned drawbacks of the prior art becomes the direction of efforts of those skilled in the art.

Disclosure of Invention

The invention aims to provide an intelligent well gun source driving system which can solve the problems of blasting routes and time waste when blasting is not performed in the prior art, and can timely solve the defects in the prior art by calling and processing calling abnormity through a radio station.

The purpose of the invention is realized by the following technical scheme: the utility model provides a processing method that intelligence well big gun source actuating system called about the blasting machine, well big gun source actuating system includes N blasting machines, handheld end, well accuse radio station, source drive central controller, BOOMBOX encoder, BOOMBOX relay and 428XL seismic detector, and handheld end obtains the big gun GPS coordinate at the well head to send this GPS coordinate to the blasting machine, its characterized in that:

the central control station name comprises the following steps:

firstly, a central control console sends a roll call instruction to a handheld end;

secondly, the handheld end receives the roll call instruction and feeds back confirmed roll call information and GPS coordinate information to the central control radio station;

thirdly, the central control electric station receives the confirmed roll calling information and the GPS coordinate information of the well mouth, finishes roll calling, adds the well mouth to the tail of the queuing list, and queues for waiting for blasting of the well mouth;

if the central control electric station does not receive the confirmed roll calling information and the GPS coordinate information of the corresponding well mouth, the roll calling is abnormal, at the moment, the central control electric station performs blasting according to the sequence of the queuing list, and when the blasting is completed, the central control radio station sends a roll calling instruction to the abnormal handheld end, and until the central control electric station receives the confirmed roll calling information and the GPS coordinate information of the abnormal handheld end, the central control electric station completes the roll calling of the well mouth, and inserts the well mouth to the 5 th position of the queuing list to wait for the blasting of the well mouth.

As one preferable mode, when the roll call is abnormal, the central control station can be contacted with the handheld end in a mode of artificial voice.

As one of the preferable modes, the 428XL seismic instrument is connected with a central control station through a source drive central controller, the output end of the central control station is connected with the input end of the BOOMBOX encoder, the central control station comprises a roll call control module, a queuing control module, an explosion control module and a manual control module, wherein: the signal output end of the roll call control module is wirelessly connected with the information receiving end of the handheld end, and the signal sending end of the handheld end is connected with the signal collecting end of the queuing control module; the explosion control module is connected with the blasting machine; and the manual control module is respectively connected with the roll call control module, the queuing control module and the explosion control module.

As one of the preferable modes, the signal output end of the roll call control module is connected with the information receiving end of the handheld end through a BOOMBOX relay, and the signal sending end of the handheld end is connected with the signal collecting end of the queuing control module through the BOOMBOX relay.

Compared with the prior art, the invention has the beneficial effects that: in intelligence well big gun source actuating system, the number of times of talking between well accuse radio station and the handheld end has been reduced through the radio station roll call, has practiced thrift the time, simultaneously, when the roll call is unusual, can carry out many times through this system and roll call and confirm unusual the resolution to insert the team and explode, can improve holistic work efficiency, practice thrift blasting process time.

Drawings

FIG. 1 is a block diagram of the well source drive system of the present invention.

FIG. 2 is a block diagram of the structure of the well gun source driving system of the present invention using BOOMBOX relay.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1, an intelligent well gun source driving system comprises N blasting machines, a handheld end, a central control station, a source drive central controller, a BOOMBOX encoder, a BOOMBOX relay and a 428XL seismic instrument, wherein the 428XL seismic instrument is connected with the central control station through the source drive central controller, the output end of the central control station is connected with the input end of the BOOMBOX encoder, the signal output end of a roll call control module is wirelessly connected with the information receiving end of the handheld end, and the signal sending end of the handheld end is connected with the signal collecting end of a queuing control module; the explosion control module is connected with the blasting machine; and the manual control module is respectively connected with the roll call control module, the queuing control module and the explosion control module.

Wherein:

the central control electric platform: the system comprises a roll call control module, a queuing control module, an explosion control module and a manual control module, wherein the signal output end of the roll call control module is wirelessly connected with the information receiving end of a handheld end, and the signal sending end of the handheld end is connected with the signal collecting end of the queuing control module; the explosion control module is connected with an explosion machine; and the manual control module is respectively connected with the roll call control module, the queuing control module and the explosion control module.

The source drives the central controller: the embedded operating system is used, has the communication protocol analysis capability, receives the position information of the synthetic shot point and the READY number of the explosive machine through command pushing and forwarding, provides the synthetic information and the external GO signal for the instrument, and can also perform operation management on the explosive machine which sends back the shot point coordinate.

A handheld end: the handheld end is provided with a positioning device, and the positioning device is a positioner of the handheld data terminal. When the handheld terminal adopts an android system, the locator is positioning software carried by a mobile phone, so that rapid and accurate positioning can be realized, well position coordinate acquisition and task operation management can be realized. The main functions of the system are to locate the shot point to be excited, collect the GPS information of the excitation point and send the GPS information to the radio station controller at the end of the exploder through Bluetooth.

As shown in fig. 2, when the relay is adopted, the signal output end of the roll call control module is connected to the information receiving end of the handheld end through the bomomb relay, and the signal sending end of the handheld end is connected to the signal collecting end of the queuing control module through the bomomb relay.

The roll call process of the intelligent well gun source driving system is as follows:

firstly, a handheld end acquires shot GPS coordinates at a wellhead and sends the GPS coordinates to blasting machines, usually, the shots are arranged in groups, and the blasting machines in each group have corresponding numbers and correspond to the corresponding GPS coordinates.

Then, the central control electric station starts roll calling of the explosive machine in the whole blasting project, and the specific roll calling of the central control electric station comprises the following steps:

step one, a central control console sends a roll call instruction to a handheld end; the roll call instruction at this time can be sent to the handheld end by the central control station directly through the roll call control module, or the roll call instruction can be sent to the BOOMBOX nearest to the explosive device by the central control station and then forwarded to the handheld end; the step is mainly the process that the central control station sends a roll call instruction.

Secondly, the handheld end receives the roll call instruction and transmits confirmed roll call information and GPS coordinate information back to the central control radio station; after receiving the roll call instruction, the handheld terminal clicks an 'affirmation' button on the handheld terminal in a manual affirmation mode to determine that the instruction is received, and the instruction is transmitted back to the central control radio station to indicate that the handheld terminal and the blasting machine are in a perfect state and can perform blasting treatment.

Thirdly, the central control electric station receives the confirmed roll calling information and the GPS coordinate information of the well mouth, finishes roll calling, adds the well mouth to the tail of the queuing list, and queues to wait for the blasting of the well mouth; and the central control console sequentially performs roll calling according to the operation plan, and sequentially queues the roll calling to wait for blasting information.

If the central control console does not receive the confirmed roll calling information and the GPS coordinate information of the corresponding well mouth, the roll calling is abnormal. The reason for the abnormality is divided into two reasons, one is that the wellhead is not ready, the handheld end receives the roll call but does not give a corresponding response, the other is that the wellhead does not receive the roll call signal, and the signal transmission between the central control station and the handheld end is too weak, so that the reason may be that the roll call signal transmitted by the central control station is directly sent to the handheld end and is not relayed through the BOOMBOX, so that the received roll call signal is not good, and the handheld end can be in a waiting state all the time when the signal is not received.

At the moment, the central control electric station performs blasting according to the sequence of the queuing list, the central control radio station sends a roll call instruction to the abnormal handheld end every time the blasting is finished, if the well mouth is not prepared during the first roll call, the central control radio station can respond when receiving the roll call instruction after being prepared, and the central control electric station indicates that the central control electric station finishes the roll call of the well mouth until receiving the confirmation roll call information and the GPS coordinate information of the abnormal handheld end, and inserts the well mouth to the last position of the queuing list to wait for the blasting of the well mouth. And for the second roll call, the central control console selects a BOOMBOX relay to complete signal transmission, if the feedback signal of the wellhead is not received after the roll calls for many times, the roll call is abnormal, and the central control console can contact the handheld terminal in an artificial voice mode to confirm that the central control console is willing to be abnormal.

The operation flow in use is as follows:

1. starting a power supply of the BOOMBOX explosion machine, and confirming that a power indicator lamp of a radio station controller of a central console is on and a Bluetooth indicator lamp flickers; indicating that the BOOMBOX explosive device is in a normal signal receiving state.

2. Open handheld end APP software on the smart mobile phone of android system promptly, open the locate function of handheld end, taskbar in APP software sets up relevant parameter, sets up the completion back, restarts APP software, confirms that the bluetooth has connected, map page display bluetooth icon in the APP software, well accuse radio station received the signal, accomplishes the process of calling a roll, and the radio station controller bluetooth status light of well accuse radio station is often bright.

3. And importing a shot point file needing to be operated into the APP at the handheld end, and selecting a target shot point.

4. And (4) starting the handheld end APP, navigating to the target shot point selected in the step 3, verifying the well position in the APP map page, approaching the handheld end to the target shot point, locking the coordinate of the current target shot point in the APP, and withdrawing to the outside of the safety distance.

The central control electric station starts roll calling, and sends a roll calling instruction to the handheld end; and the handheld terminal receives the roll call instruction and returns confirmed roll call information and GPS coordinate information of the target shot point to a radio station controller of the central control radio station, and the central control radio station sets the target shot point to begin to queue to the end of the team through the queuing control module.

Each shot point is called in turn and queued in turn; the prepared and received central control station name signals of the blasting machines are arranged in corresponding forms according to the name sequence, blasting is carried out sequentially from top to bottom according to the sequence of the blasting machine queues in the forms, queue adjustment can also be carried out manually according to actual conditions, and if a certain blasting machine needs to be removed from the queue (queue abandoning), a delete button is clicked manually.

5. Importing a shot point file needing to be operated into a central control electric station to confirm that shot point information and a map are correctly loaded; setting whether a BOOMBOX relay is started or not, finding the equipment number corresponding to the BOOMBOX relay if the BOOMBOX relay is started, selecting the current blasting mode as the BOOMBOX relay, and starting 428XL seismic instruments; if BOOMBOX relay is not enabled, the center console directly controls 428XL seismic instruments, and the direct mode is adopted at the moment.

6. When the charging indicator lamp of the radio station controller waiting for the target shot point position displays that the detonation can be initiated, an operator of the explosive machine timely charges the explosive machine, and the explosive machine is automatically initiated.

The working principle of the well gun source driving system in the embodiment is as follows:

the preparation information of the wellhead is confirmed by a central control electric station roll calling mode, roll calling and blasting are carried out according to a preset sequence, and the problems of signal interference and long time in manual roll calling are reduced. An operator of the explosion machine acquires GPS coordinates of a well mouth by using a handheld end at the well mouth, data are sent to a radio station controller of a central control radio station at the end of the explosion machine through Bluetooth, the radio station controller of the central control radio station controls the central control radio station to forward the data to a central controller of a 428XL seismic instrument, after receiving GPS coordinate information of the well mouth, ready information and charging information of blasting, the 428XL seismic instrument is automatically matched in sequence according to the sequence of task sequencing, pile numbers are excited, correspondingly arranged well mouth information is called, finally, the operator sends an instruction to blast, the process of exciting blasting is completed, and the explosion machine is automatically detonated.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (4)

1. The utility model provides a processing method that intelligence well big gun source actuating system is about blasting machine roll call, well big gun source actuating system includes N blasting machines, handheld end, well accuse radio station, source drive central controller, BOOMBOX encoder, BOOMBOX relay and 428XL seismic detector, and handheld end obtains the big gun point GPS coordinate at the well head to send this GPS coordinate to the blasting machine, its characterized in that:

the central control electric station roll calling comprises the following steps:

firstly, a central control console sends a roll call instruction to a handheld end;

secondly, the handheld end receives the roll call instruction and transmits confirmed roll call information and GPS coordinate information back to the central control radio station;

thirdly, the central control electric station receives the confirmed roll calling information and the GPS coordinate information of the well mouth, finishes roll calling, adds the well mouth to the tail of the queuing list, and queues for waiting for blasting of the well mouth;

if the central control electric station does not receive the confirmed roll calling information and the GPS coordinate information of the corresponding well mouth, the roll calling is abnormal, at the moment, the central control electric station performs blasting according to the sequence of the queuing list, and when the blasting is completed once, the central control radio station sends a roll calling instruction to the abnormal handheld end, and until the central control electric station receives the confirmed roll calling information and the GPS coordinate information of the abnormal handheld end, the central control electric station completes the roll calling of the well mouth, and inserts the well mouth to the tail position of the queuing list to wait for the blasting of the well mouth.

2. The method for processing the roll call exception in the intelligent well gun source driving according to claim 1, characterized in that: when the roll call is abnormal, the central control radio station can be contacted with the handheld end in an artificial voice mode.

3. The method for processing roll call abnormity in intelligent well gun source driving according to claim 1, wherein: the 428XL seismic instrument is connected with a central control station through a source drive central controller, the output end of the central control station is connected with the input end of the BOOMBOX encoder, and the central control station comprises a roll call control module, a queuing control module, an explosion control module and a manual control module, wherein: the signal output end of the roll call control module is wirelessly connected with the information receiving end of the handheld end, and the signal sending end of the handheld end is connected with the signal collecting end of the queuing control module; the explosion control module is connected with the blasting machine; and the manual control module is respectively connected with the roll call control module, the queuing control module and the explosion control module.

4. The method for processing roll call abnormity in intelligent well gun source driving according to claim 3, wherein: the signal output end of the roll call control module is connected with the information receiving end of the handheld end through a BOOMBOX relay, and the signal sending end of the handheld end is connected with the signal collecting end of the queuing control module through the BOOMBOX relay.

Images