CN109388089B - Real-time management method for civil explosive - Google Patents

Abstract

The invention discloses a method for monitoring civil explosive articles in real time, which comprises the steps of carrying out automatic identification, carrying out one-to-one correspondence with information change of the civil explosive articles, carrying out S1 warehouse entry and retrieval processes in a mode of carrying out sealing treatment and the like, carrying out S2 transportation processes in a mode of real-time process monitoring and the like, and carrying out S3 warehouse transfer or use processes in a mode of real-time monitoring, secondary identification technology and the like so as to complete real-time monitoring of the civil explosive articles in the warehouse entry and exit, transportation, warehouse transfer and use processes; the method is safe and reliable, and can guarantee the accurate relationship between people and the civil explosive articles in a one-to-one correspondence manner, so that the current method of managing the civil explosive articles by adopting a manual signature manner is solved, and the increasingly serious loss and circulation problems of the civil explosive articles are solved.

Description

Real-time management method for civil explosive

Technical Field

The invention relates to the field of civil explosives, in particular to a real-time management method for dangerous explosives such as explosive detonators and the like.

Background

Civil explosive (hereinafter referred to as civil explosive) refers to various kinds of ignition and initiation equipment such as gunpowder, explosive and products thereof, detonators and the like used for non-military purposes and listed in the name lists of civil explosive products, and serves as the foundation of basic industry and energy source of energy source industry, the civil explosive plays an important role in economic construction and infrastructure construction of China, the economic construction and infrastructure construction of China are in the process of high-speed development, the quantity of the required civil explosive is extremely remarkable, and the management of the civil explosive is paid attention and paid attention to by governments at all levels day by day.

At present, in the field of civil explosives, particularly in the field of civil explosives such as explosive detonators and the like frequently used, the management level is still lagged behind, and at present, the management is still basically performed in the modes of signature and record of workers and the like, so that the civil explosives are easy to fall down, multiple fields, inconsistent correspondence between people and objects and the like, further the loss phenomenon of the civil explosives caused by the problems is extremely serious, along with the rapid development of the internet and traffic, the circulation of various information and materials is accelerated and convenient, the cross-border circulation of the civil explosives is more convenient, the loss circulation of the civil explosives is also caused by the cross-border circulation of the civil explosives, the potential safety hazard caused by the cross-border circulation is also serious, and therefore a method which is safe and reliable and guarantees the accurate relationship of one-to-one correspondence between people and the civil explosives must be found, and the problem of the increasingly serious loss circulation of the civil explosives is solved.

Disclosure of Invention

The invention aims to at least solve one of the technical problems in the prior art, in particular to a real-time control method for civil explosive.

In order to overcome the problems, the invention provides a method for managing and controlling civil explosive articles in real time, which comprises the following steps of S1 warehouse entry and receiving: at a storage place of the civil explosive articles, carrying out identity recognition on primary related participants for warehousing, ex-warehouse and getting use of the civil explosive articles, carrying out one-to-one correspondence on inventory-changed parameters of the primary related participants, including but not limited to quantity type codes or any combination of the quantity type codes and the number of the primary related participants, uploading the inventory-changed parameters to a control system, and carrying out sealing treatment on the ex-warehouse or the warehousing or getting use of the civil explosive articles at the storage place of the civil explosive articles;

s2 transportation process: transporting the explosive goods in the step S1 subjected to the sealing treatment to a warehouse or an operation point in a specified time period and along a specified route by using a specified transport tool, wherein the transportation process is subjected to whole-course real-time positioning monitoring by the control system;

s3 procedure for moving or using

S3-1 library moving process: conveying the civil explosive articles in the step S1 to the sub-warehouse, removing the sealing treatment, performing sub-warehouse warehousing, performing identification of warehousing participants in the sub-warehouse warehousing process, and performing one-to-one correspondence between warehousing participant parameters including but not limited to number type codes or any combination of the above and warehousing participant identities and uploading the warehousing participant parameters to the control system;

or

S3-2 use process: and (4) transporting the civil explosive articles in the step (S1) to an operation point, removing the sealing treatment, carrying out secondary distribution and secondary picking use participant identity recognition, and carrying out one-to-one correspondence between the parameters of the civil explosive articles used for secondary picking, including but not limited to number type codes or any combination of the number type codes and the secondary picking use participant identities and uploading the parameters to the control system.

The method changes the prior mode of carrying out civil explosive management by signature into seamless comparison and record storage in the processes of participant human identity identification, receiving and releasing of civil explosive and use, can ensure that various flow directions of quantity types of the civil explosive, real-time position monitoring and loss elimination and the like are effectively controlled, can effectively ensure strict management and control of the civil explosive, and ensures the safety of the state and the public.

Further, in S1, the storehouse includes fixed storehouse, interim storehouse, mobile warehouse, or above-mentioned arbitrary combination, the storehouse is affiliated to specific business nature or non-business nature civil explosive article operation enterprise and has only and marks the locating part, only mark the locating part and have only identification and have the location function module in the adoption use, when getting to use the participant to carry out identification, will get simultaneously and use the current position and convey to control system, control system is right get to use the current position with the storehouse position carries out the comparison, when both positions accord with preset range condition, shows normally, when both positions do not accord with preset range condition, shows unusually or sends alarm information.

Further, in S1, the participants include custodians, escorts, blasters and security guards who are legally certified for post work.

Further, in S1, the identification includes password input identification, signature identification, fingerprint identification, face identification, voice print identification, vein identification, iris identification, odor identification, DNA identification, or any combination thereof.

Further, in S2, seal and handle including with once getting the civil explosive article of use and carrying out whole encapsulation, whole encapsulation is including sealing processing self-locking type location identification part, sealing processing self-locking type location identification part includes unique identification code and locating part, in the transportation, including the transport means, the transport means is including the transportation positioner who has unique identification code, the transport means real-time position with seal the back of handling the real-time position of the civil explosive article of getting the use is transmitted to the server in real time and is compared, and when both positions accord with the transportation and predetermine the scope condition, it is normal to show, when both positions are not accorded with the transportation and predetermine the scope condition, shows unusually or send alarm information.

The closed processing self-locking type positioning identification component can be locked in a non-legal opening process, cannot be opened even if the operation is opened legally again, automatically records the address, time and other related information of the non-legal opening in the non-legal opening process, and transmits an alarm signal to the control system.

Further, the preset range condition of the transportation process includes that the distance between the real-time position of the transportation tool and the real-time position of the closed civil explosive article to be picked up does not exceed a preset value, or the distance between the real-time position of the transportation tool and the real-time position of the closed civil explosive article to be picked up is consistent with an appointed route in the transportation process, or any combination of the real-time position of the transportation tool and the real-time position of the closed civil explosive article to be picked up.

Still further, the conveyance comprises a human, a mechanical conveyance, or any combination thereof.

Furthermore, the transportation tool is a person, the person holds a self-locking type fixing and positioning device with a self-locking function, the position of the self-locking type fixing and positioning device and the position of the civil explosive article which is subjected to the sealing treatment and is used for one-time receiving are transmitted to a server side in real time and compared, when the position of the self-locking type fixing and positioning device and the position of the civil explosive article which is subjected to the sealing treatment meet the preset range condition, the normal display is performed, and when the position of the self-locking type fixing and positioning device and the position of the civil explosive article which are subjected to the sealing treatment do not meet the preset range condition, the abnormal display or the alarm information is transmitted.

The self-locking function is that the contents in the closed processing self-locking type positioning identification component are similar or consistent.

Further, the position information of the operation point is preset information, when the closed civil explosive article picked up for use is transported to the operation point without damage, the real-time position of the closed civil explosive article picked up for use is compared with the real-time position of the operation point and is within a preset operation range, a node is formed, the picking user carries out identity recognition and carries out corresponding and uploading to a service end of the parameters of the civil explosive article picked up for use, including but not limited to number type codes or any combination of the above, the picking user identity and the identity of a supervision user, meanwhile, the real-time position of the picking user and the real-time position of the civil explosive article picked up for use are compared with the position of the operation point, when the positions of the three meet the preset operation range condition, the display is normal, and when the positions of the three do not meet the preset operation range condition, and displaying abnormity or sending alarm information.

Further, the operation preset range condition comprises that the position distance among the user for getting, the civil explosive used for getting and the operation point accords with the operation preset distance.

Further, in the library moving or using process of S3, the method further includes:

s3-1 library moving process: comparing the number of the civil explosive articles uploaded to the cloud database or the server in the step S1, if the comparison result is consistent, the comparison result is passed, and if the comparison result is inconsistent, abnormal conditions are displayed or alarm information is sent out;

or

S3-2 use process: and S1, comparing the quantity of the civil explosive articles uploaded to the cloud database or the server, if the comparison is consistent, the comparison is passed, and if the comparison is inconsistent, the abnormal condition is displayed or alarm information is sent out.

Further, the sealing process is to place the explosive in step S1 into a sealed chamber, where the sealed chamber includes a positioning system or a lock system or any combination thereof.

Furthermore, the lockset system comprises an identity recognition system, or after the normal function is lost, the control system displays abnormity or sends alarm information.

Further, the sealing treatment comprises a sealing chamber, the sealing chamber comprises a chamber positioning system, the transport vehicle is provided with a transport positioning system, the real-time positions of the sealing chamber and the transport vehicle are located on a preset route, the distance between the sealing chamber and the transport vehicle meets a preset requirement, and if the real-time positions of the sealing chamber and the transport vehicle do not meet the preset requirement, the control system displays an abnormity or sends out alarm information.

Further, the control system comprises a cloud database or a server or any combination thereof.

Further, the dangerous explosive is an explosive or a detonator, the explosive is provided with an explosive identifier, the explosive information is obtained by photographing or scanning and image recognition, and is in one-to-one correspondence with the relevant participants subjected to identity recognition and transmitted to the control system;

or

The detonator is provided with a detonator mark, the explosive information is obtained by photographing or scanning and image recognition, and is in one-to-one correspondence with the related participants subjected to identity recognition and transmitted to the control system.

Furthermore, the explosive identification or the detonator identification is a digital identification, a bar code identification, a digital identification, a two-dimensional code identification, a three-dimensional identification or a non-visible light identification.

Further, a sealing device is adopted for sealing in the sealing treatment process, a sealing device positioning system is installed on the sealing device, a transport tool positioning system is installed on the transport tool, and when the real-time positions of the sealing device and the transport tool exceed a preset value, an alarm signal is sent by the control system; the control system sends out an alarm signal when the real-time position of the closing device or the transportation tool deviates from the designated route.

Further, opening the sealing device comprises identifying the identity of a person opening the sealing device and transmitting the identity to the control system, and when the identity of the person opening the sealing device is inconsistent with the identity of a person reserved in the control system, the control system sends an alarm signal.

Additional aspects and advantages of embodiments of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 shows a flow chart according to the invention.

Detailed Description

The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

According to the embodiment of the invention, the invention provides a method for managing and controlling civil explosive articles in real time, which comprises the following steps of S1 warehouse entry and receiving: at a storage place of the civil explosive, carrying out identity recognition on primary related participants for warehousing, ex-warehouse and getting use of the civil explosive, carrying out one-to-one correspondence on inventory-changed parameters of the primary related participants, including but not limited to quantity type codes or any combination of the quantity type codes and the number of the primary related participants, uploading the inventory-changed parameters to a control system, and carrying out sealing treatment on the ex-warehouse or getting use of the civil explosive at the storage place of the civil explosive;

s2 transportation process: transporting the explosive goods in the step S1 subjected to the sealing treatment to a warehouse or an operation point in a specified time period and along a specified route by using a specified transport tool, wherein the transportation process is subjected to whole-course real-time positioning monitoring by the control system;

s3 procedure for moving or using

S3-1 library moving process: conveying the civil explosive articles in the step S1 to the sub-warehouse, removing the sealing treatment, performing sub-warehouse warehousing, performing identification of warehousing participants in the sub-warehouse warehousing process, and performing one-to-one correspondence between warehousing participant parameters including but not limited to number type codes or any combination of the above and warehousing participant identities and uploading the warehousing participant parameters to the control system;

or

S3-2 use process: and (4) transporting the civil explosive articles in the step (S1) to an operation point, removing the sealing treatment, carrying out secondary distribution and secondary picking use participant identity recognition, and carrying out one-to-one correspondence between the parameters of the civil explosive articles used for secondary picking, including but not limited to number type codes or any combination of the number type codes and the secondary picking use participant identities and uploading the parameters to the control system.

The method changes the prior mode of carrying out civil explosive management by signature into seamless comparison and record storage in the processes of participant human identity identification, receiving and releasing of civil explosive and use, can ensure that various flow directions of quantity types of the civil explosive, real-time position monitoring and loss elimination and the like are effectively controlled, can effectively ensure strict management and control of the civil explosive, and ensures the safety of the state and the public.

According to some embodiments of the present invention, in S1, the warehouse includes a fixed warehouse, a temporary warehouse, a mobile warehouse, or any combination thereof, the warehouse is affiliated to a specific business or non-business civil explosive work enterprise and has a unique marking and positioning component, the unique marking and positioning component has a unique identification and has a positioning function module, during the picking and using process, when the picking and using participant performs identification, the picking and using current position is transmitted to the control system, the control system compares the picking and using current position with the warehouse position, when the two positions meet a preset range condition, the display is normal, and when the two positions do not meet the preset range condition, the display is abnormal or an alarm message is sent.

According to some embodiments of the invention, the participants in S1 include custodians, escorts, blasters and security guards who are legally certified for post.

According to some embodiments of the invention, the identification at S1 includes password input recognition, signature recognition, fingerprint recognition, face recognition, voice print recognition, vein recognition, iris recognition, odor recognition, DNA recognition, or any combination thereof.

According to an embodiment of the present invention, in S2, the sealing process includes integrally sealing the explosive articles for one time of picking, the integrally sealing includes a sealing process self-locking positioning identification component, the sealing process self-locking positioning identification component includes a unique identification code and a positioning component, the transportation process includes a transportation tool, the transportation tool includes a transportation positioning device having a unique identification code, the real-time position of the transportation tool and the real-time position of the explosive articles for picking after the sealing process are transmitted to the service end in real time and compared, when the positions of the transportation tool and the closed explosive articles for one time meet a preset range condition of the transportation process, the normal state is displayed, and when the positions of the transportation tool and the closed explosive articles for one time do not meet the preset range condition of the transportation process, the abnormal state is displayed or alarm information is sent.

The closed processing self-locking type positioning identification component can be locked in a non-legal opening process, cannot be opened even if the operation is opened legally again, automatically records the address, time and other related information of the non-legal opening in the non-legal opening process, and transmits an alarm signal to the control system.

Further, the preset range condition of the transportation process includes that the distance between the real-time position of the transportation tool and the real-time position of the closed civil explosive article to be picked up does not exceed a preset value, or the distance between the real-time position of the transportation tool and the real-time position of the closed civil explosive article to be picked up is consistent with an appointed route in the transportation process, or any combination of the real-time position of the transportation tool and the real-time position of the closed civil explosive article to be picked up is consistent with the appointed route in the transportation process.

Further, the conveyance comprises a human, a mechanical conveyance, or any combination thereof.

Preferably, the transport means is a person, the person holds a self-locking type fixing and positioning device with a self-locking function, the position of the self-locking type fixing and positioning device and the position of the civil explosive article which is subjected to the sealing treatment and is used for one-time drawing are transmitted to the server side in real time and compared, when the position of the self-locking type fixing and positioning device and the position of the civil explosive article which is subjected to the sealing treatment meet the preset range condition, the normal display is performed, and when the position of the self-locking type fixing and positioning device and the position of the civil explosive article which are subjected to the sealing treatment do not meet the preset range condition, the abnormal display or the alarm information is transmitted.

The self-locking function is that the contents in the closed processing self-locking type positioning identification component are similar or consistent.

According to an embodiment of the present invention, the operation point location information is preset information, when the closed civil explosive articles for picking up are transported to the operation point without damage, the real-time location of the closed civil explosive articles for picking up are compared with the real-time location of the operation point and within a preset operation range, a node is formed, the picking up user performs identity recognition and the parameters of the civil explosive articles for picking up, including but not limited to number type codes or any combination thereof, are corresponding to the identity of the picking up user and the identity of the supervising user and are uploaded to the service end, and simultaneously, the real-time location of the picking up user and the real-time location of the civil explosive articles for picking up are compared with the operation point location, and when the locations of the three meet the preset operation range condition, the normal display is performed, and when the positions of the three devices do not accord with the preset operation range condition, displaying abnormity or sending alarm information.

Further, the operation preset range condition comprises that the position distance among the user for picking up, the civil explosive used for picking up and the operation point accords with the operation preset distance.

According to some embodiments of the present invention, the S3 moving or using process further includes:

s3-1 library moving process: comparing the number of the civil explosive articles uploaded to the cloud database or the server in the step S1, if the comparison result is consistent, the comparison result is passed, and if the comparison result is inconsistent, abnormal conditions are displayed or alarm information is sent out;

or

S3-2 use process: and S1, comparing the quantity of the civil explosive articles uploaded to the cloud database or the server, if the comparison is consistent, the comparison is passed, and if the comparison is inconsistent, the abnormal condition is displayed or alarm information is sent out.

According to an embodiment of the present invention, the sealing process is to place the explosive substance in step S1 into a sealed chamber, where the sealed chamber includes a positioning system or a locking system or any combination thereof.

Further, the lockset system comprises an identity recognition system, or after the normal function is lost, the control system displays abnormity or sends alarm information.

According to one embodiment of the invention, the sealing process comprises a sealing chamber comprising a chamber positioning system, the transport vehicle is provided with a transport positioning system, the real-time positions of the sealing chamber and the transport vehicle are on a predetermined route, and the distance between the sealing chamber and the transport vehicle meets a predetermined requirement, if not, the control system displays an abnormality or sends out an alarm message.

According to some embodiments of the invention, the control system comprises a cloud database or a server or any combination thereof.

According to some embodiments of the invention, the dangerous explosive is an explosive or a detonator, the explosive is provided with an explosive identifier, the explosive information is obtained by photographing or scanning and image recognition, and is in one-to-one correspondence with the relevant participants subjected to identity recognition, and is transmitted to the control system;

or

The detonator is provided with a detonator mark, the explosive information is obtained by photographing or scanning and image recognition, and is in one-to-one correspondence with the related participants subjected to identity recognition and transmitted to the control system.

According to some embodiments of the invention, the explosive or detonator identification is a digital or barcode or digital or two-dimensional code or stereo or non-visible light identification.

According to one embodiment of the invention, a sealing device is adopted in the sealing treatment process for sealing treatment, a sealing device positioning system is installed on the sealing device, a transport vehicle positioning system is installed on the transport vehicle, and when the real-time position of the sealing device and the transport vehicle exceeds a preset value, an alarm signal is sent by the control system; the control system sends out an alarm signal when the real-time position of the closing device or the transportation tool deviates from the designated route.

According to one embodiment of the invention, opening the enclosure comprises identifying and transmitting to the control system the person opening the enclosure, the control system issuing an alarm signal when the identity of the person opening the enclosure is not consistent with the identity of the person reserved in the control system.

While a bench top embodiment of the hydraulic servo system of the present invention has been shown and described, those of ordinary skill in the art will understand that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (19)

1. A method for monitoring civil explosive in real time is characterized in that:

s1 warehousing and taking process: at a storage place of the civil explosive, carrying out identity recognition on primary related participants for warehousing, ex-warehouse and getting use of the civil explosive, carrying out one-to-one correspondence on inventory-changed parameters of the primary related participants, including but not limited to quantity type codes, and the identity of the civil explosive, which are related to the primary related participants, and uploading the parameters to a control system, and carrying out sealing treatment on the ex-warehouse or the warehousing or getting use of the civil explosive at the storage place of the civil explosive;

s2 transportation process: transporting the closed explosive goods in the step S1 to a warehouse or an operation point in a specified time period and along a specified route by using a specified transport means, wherein the transport process is subjected to whole-process real-time positioning monitoring by the control systemThe sealing treatment comprises a sealing treatment self-locking type positioning identification component The position identification component comprises a unique identification code and a positioning component, the position identification component comprises a transport tool during the transportation process, and the transport tool bag Including a transport positioning device with a unique identification code, the real-time position of the transport means and the pick-up after the sealing treatment The used civil explosive articles are transmitted to the server side in real time and compared, and when the positions of the civil explosive articles and the server side accord with the preset range of the transportation process When the transportation process is not in accordance with the preset range condition, the abnormal display or the alarm signal is sent out Information processing device；

S3 procedure for moving or using

S3-1 library moving process: conveying the civil explosive articles in the step S1 to the sub-warehouse, removing the sealing treatment, performing sub-warehouse warehousing, performing identification of warehousing participants in the sub-warehouse warehousing process, and performing one-to-one correspondence between warehousing participant parameters including but not limited to number type codes or any combination of the above and warehousing participant identities and uploading the warehousing participant parameters to the control system;

or

S3-2 use process: and (4) transporting the civil explosive articles in the step (S1) to an operation point, removing the sealing treatment, carrying out secondary distribution and secondary picking use participant identity recognition, and carrying out one-to-one correspondence between the parameters of the civil explosive articles used for secondary picking, including but not limited to number type codes or any combination of the number type codes and the secondary picking use participant identities and uploading the parameters to the control system.

2. The method for real-time monitoring of civil explosives in claim 1, wherein in S1, the warehouse comprises a fixed warehouse, a temporary warehouse, a mobile warehouse, or any combination thereof, the warehouse is affiliated to a specific business or non-business enterprise for civil explosives, and has a unique marking and positioning component, the unique marking and positioning component has a unique identification and a positioning function module, during the picking and using process, when the picking and using participant performs identification, the picking and using current position is transmitted to the control system, the control system compares the picking and using current position with the warehouse position, when the two positions meet the preset range condition, the display is normal, and when the two positions do not meet the preset range condition, the display is abnormal or alarm information is sent.

3. The method for real-time monitoring civil explosive according to claim 1, wherein in S1, the participants comprise custodians, escorts, blasters and security personnel who are legally certified for post work.

4. The method for real-time monitoring of civil explosives in claim 1, wherein in S1, the identification comprises password input identification, signature identification, fingerprint identification, face identification, voice print identification, vein identification, iris identification, odor identification, DNA identification, or any combination thereof.

5. The method for real-time monitoring of civil explosives in accordance with claim 1, wherein, in S2, the sealing treatment comprises the step of integrally packaging the civil explosive materials which are delivered from the warehouse or put in the warehouse or used for one-time picking, the integral package comprises a closed processing self-locking type positioning identification component which comprises a unique identification code and a positioning component, the transportation process comprises a transportation tool, the transportation tool comprises a transportation positioning device with a unique identification code, the real-time position of the transport tool and the real-time position of the civil explosive articles which are obtained and used after the sealing treatment are transmitted to a server side in real time and are compared, when the two positions are in accordance with the preset range condition of the transportation process, the display is normal, and when the two positions are not in accordance with the preset range condition of the transportation process, the display is abnormal or alarm information is sent out.

6. The method for monitoring the civil explosive in real time according to claim 5, wherein the preset range conditions in the transportation process include that the distance between the real-time position of the transportation tool and the real-time position of the civil explosive picked up after the sealing treatment does not exceed a preset value, or the distance between the real-time position of the transportation tool and the real-time position of the civil explosive picked up after the sealing treatment is consistent with an appointed route in the transportation process, or any combination of the two.

7. The method for real-time monitoring of civil explosives in accordance with claim 5, wherein the transportation means comprises a human, a mechanical transportation means or any combination thereof.

8. The method for real-time monitoring of civil explosives in claim 7, wherein the transportation means is a person, the person holds a self-locking type fixing and positioning device with self-locking function, the position of the self-locking type fixing and positioning device and the civil who is subjected to the sealing treatment and used for one time of getting

And the positions of the explosive objects are transmitted to the server side in real time and compared, when the positions of the explosive objects and the positions of the explosive objects accord with the preset range condition, the explosive objects and the positions of the explosive objects and the preset range condition are displayed normally, and abnormal or alarm information is sent out.

9. The method for real-time monitoring of civil explosives in claim 1, wherein the operating point location information is preset information, when the closed and picked up civil explosives are transported to the operating point without damage, the real-time location of the closed and picked up civil explosives is compared with the real-time location of the operating point and is within a preset operating range, a node is formed, the picking up user performs identity recognition and sends the parameters of the picked civil explosives, including but not limited to number type codes, corresponding to the identity of the picking up user and the identity of a supervising user and uploading to a service end, and simultaneously, the real-time location of the picking up user and the real-time location of the picked up civil explosives are compared with the operating point location, when the locations of the three meet the operating preset range condition, and displaying to be normal, and displaying to be abnormal or sending alarm information when the positions of the three are not in accordance with the preset operation range condition.

10. The method for real-time monitoring of civil explosives in claim 9, wherein the preset range of operation conditions includes that the position distance between the user for picking up, the civil explosives for picking up and the operation point conforms to a preset operation distance.

11. The method for real-time monitoring of civil explosives according to claim 1, wherein the step of S3 is further comprised in the process of moving or using:

s3-1 library moving process: comparing the number of the civil explosive articles uploaded to the cloud-end database or the server in the step S1, if the comparison is consistent, the comparison is passed, and if the comparison is inconsistent, abnormal conditions are displayed or alarm information is sent out;

or

S3-2 use process: and S1, comparing the quantity of the civil explosive articles uploaded to the cloud-end database or the server, if the comparison is consistent, the comparison is passed, and if the comparison is inconsistent, the abnormal condition is displayed or alarm information is sent out.

12. The method for real-time monitoring of civil explosives in claim 1, wherein the sealing process is to place the civil explosives in step S1 into a sealed chamber, and the sealed chamber comprises a positioning system or a lock system or any combination thereof.

13. The method for real-time monitoring of civil explosives in accordance with claim 12, wherein the lock system includes an identification system, or the control system displays an anomaly or sends an alarm message after losing normal function.

14. The method for monitoring civil explosives in real time according to claim 1, wherein the sealing treatment comprises a sealing chamber, the sealing chamber comprises a chamber positioning system, the transportation tool is provided with a transportation positioning system, the real-time positions of the sealing chamber and the transportation tool are on a preset route, the distance between the sealing chamber and the transportation tool meets a preset requirement, and if the real-time positions of the sealing chamber and the transportation tool do not meet the preset requirement, the control system displays an abnormity or sends out an alarm message.

15. The method for real-time monitoring of civil explosives in claim 1, wherein the control system comprises a cloud database or a server or any combination thereof.

16. The method for monitoring the civil explosives in real time according to claim 1, wherein the civil explosives are explosives or detonators, the explosives are provided with explosive marks, the explosive information is obtained by photographing or scanning and image recognition, is in one-to-one correspondence with the related participants subjected to identity recognition and is transmitted to the control system;

or

The detonator is provided with a detonator mark, the explosive information is obtained by photographing or scanning and image recognition, and is in one-to-one correspondence with the related participants subjected to identity recognition and transmitted to the control system.

17. The method for real-time monitoring of civil explosives in claim 16, wherein the explosive or detonator identifier is a digital identifier, a bar code identifier, a digital identifier, a two-dimensional code identifier, a three-dimensional identifier or a non-visible light identifier.

18. The method for monitoring the civil explosives in real time according to claim 1, wherein a sealing device is adopted for sealing in the sealing treatment process, a sealing device positioning system is installed on the sealing device, a transport vehicle positioning system is installed on the transport vehicle, and when the real-time positions of the sealing device and the transport vehicle exceed a preset value, an alarm signal is sent by a control system; the control system sends out an alarm signal when the real-time position of the closing device or the transportation tool deviates from the designated route.

19. A method for real-time monitoring of explosives in accordance with claim 18 wherein opening the closure comprises identifying and transmitting to the control system the identity of the person opening the closure, the control system sending an alarm signal when the identity of the person opening the closure is inconsistent with the identity of the person in the control system.

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