CN104502952A - Source drive control device and source drive control method for explosive source - Google Patents

Abstract

The invention provides a source drive control device and a source drive control method for an explosive source. The device comprises a source drive controller and a protocol converter, wherein the source drive controller is connected with a decoder of a to-be-excited shot point; the protocol converter is connected with a main machine of a seismic apparatus, and data exchange and time synchronization are performed between the protocol converter and the source drive controller; the source drive controller comprises a GPS (global positioning system) module, a first information input module, a first CDMA (code division multiple access) communication module and a microcontroller module; the protocol converter comprises a second CDMA communication module, a serial communication module and a second microcontroller module. According to the technical scheme, the construction efficiency of seismic exploration of the explosive source is increased, the seismic data quality is improved, the labor strength of working personnel is obviously reduced, and the source drive technology for the explosive source is applied by conveniently utilizing the existing equipment.

Description

Explosive source source driving control device and control method

Technical field

The present invention relates to oil, rock gas, coal resources exploration development technique field, particularly a kind of explosive source source driving control device and control method.

Background technology

In the seismic prospecting of routine, staff is generally behind arrival sp location to be excited, manually searches the pile No. of shot point to be excited and reports seismic instrument.Seismic instrumentation person finds corresponding collection arrangement according to this pile No. from shot point list, then activates to arrange and start focus to start to gather.

Source Drive Control Technique refers in seismic prospecting, transmits shot point coordinate make seismic instrument automatically select the control method of shot point by excitaton source control device to seismic instrument.Possessing source during work drives the excitaton source control device of function to utilize the position of satellite positioning tech determination shot point, then the wireless station's communication system of self is sent to seismic instrument.

Along with the development of seismic exploration technique, higher requirement be it is also proposed to the operating efficiency of explosive source seismic prospecting and quality monitoring, in the urgent need to source Driving technique being applied in explosive source construction, so inventor considers that whether utilize satellite positioning tech to check shot point physical location consistent with planning location, avoid artificial nucleus to the mistake of pile No..In addition, existing conventional explosives focus control device does not have active matrix driving function, and drive the excitaton source controller of function also not possess versatility due to the technical limitation of manufacturer even if possess source, the coordinate information that wireless station transmits simultaneously is also easily interfered.

Therefore, the technical problem to be solved in the present invention is that conventional explosives focus control device does not have active matrix driving function, in seismic prospecting construction, application source can not drive operating technique, existing excitaton source controller uses wireless station to carry out exchanges data and is synchronously vulnerable to interference.

Summary of the invention

The invention provides a kind of explosive source source driving control device, in order to improve the operating efficiency of explosive source seismic prospecting, improve earthquake data quality, and reduce the labour intensity of staff significantly, utilize existing equipment application explosive source source Driving technique easily, this device comprises: driving governor, is connected with the code translator of shot point to be excited; Protocol converter, is connected with seismic instrument main frame; Wherein:

Source driving governor comprises:

First information load module, for the number information of receiver decoder;

GPS module, for receiving satellite signal, and obtains the co-ordinate position information of shot point to be excited;

First cdma communication module, for by cdma network the number information of co-ordinate position information and code translator sent or be used for having an agreement the time by cdma network receiving belt open quick-fried order, obtain the cdma network time as the basis of time opening quick-fried order simultaneously;

First micro controller module, with first information load module, GPS module and the first cdma communication model calling, for according to opening quick-fried order with the designated time, controlling code translator and open bursting charge and control first information load module, GPS module and the first cdma communication module work;

Protocol converter comprises:

Second cdma communication module, be connected with the first cdma communication module communication, for the number information by cdma network reception co-ordinate position information and code translator or for the quick-fried order of opening with the designated time being sent to the first cdma communication module by cdma network, obtaining the cdma network time simultaneously and sending;

Second micro controller module, with the second cdma communication model calling, for the number information of co-ordinate position information and code translator being converted to source driving request protocol information or being used for receiving the communication network time, and according to the cdma network time, the quick-fried order of opening obtained from seismic instrument main frame is converted to and opens quick-fried order with the designated time;

Serial communication module, is connected with the second micro controller module, for source driving request protocol information being sent to seismic instrument main frame or being used for receiving from seismic instrument main frame opening quick-fried order; Serial communication module comprises two RS232 serial ports, and a RS232 serial port is connected with the source control interface of seismic instrument main frame, and another RS232 serial port is connected with the encoder interfaces of seismic instrument main frame;

Second micro controller module is further used for control second cdma communication module and serial communication module work.

In one embodiment, the second micro controller module is further used for sending startup acquisition instructions in the moment of opening bursting charge, and serial communication module is further used for startup acquisition instructions to send to seismic instrument main frame.

In one embodiment, first information load module is further used for the status information of receiver decoder, and the first cdma communication module is further used for the status information of code translator to send;

Second cdma communication module is further used for the status information of receiver decoder, and serial communication module is further used for the status information of code translator to send to seismic instrument main frame.

In one embodiment, source driving governor comprises further: the first display module, is connected with the first micro controller module, for passing through the number information of the first micro controller module display decoder and the co-ordinate position information of shot point to be excited.

In one embodiment, source driving governor comprises further: the first data memory module, is connected with the first micro controller module, for passing through the number information of the first micro controller module storage decoder and the co-ordinate position information of shot point to be excited.

In one embodiment, source driving governor comprises further: the first power management module, is connected with the first micro controller module, for by the first micro controller module for driving governor each module in source provides power supply.

In one embodiment, protocol converter comprises further: the second MIM message input module, is connected with the second micro controller module, for being carried out the communication protocol configuration information needed for protocol conversion by the second micro controller module reception protocol converter.

In one embodiment, protocol converter comprises further: the second display module, is connected with the second micro controller module, for the work state information by the second micro controller module display protocol converter.

In one embodiment, protocol converter comprises further: the second data memory module, is connected with the second micro controller module, for being carried out the communication protocol library information needed for protocol conversion by the second micro controller module storage protocol converter.

In one embodiment, protocol converter comprises further: second source administration module, is connected with the second micro controller module, for by the second micro controller module for each module of protocol converter provides power supply.

The embodiment of the present invention also provides a kind of control method of above-mentioned explosive source source driving control device, and the method comprises:

The information of source driving governor receiver decoder;

Source driving governor receiving satellite signal, obtains the co-ordinate position information of shot point to be excited;

Source driving governor sends the co-ordinate position information of shot point to be excited and the number information of code translator to protocol converter;

Protocol converter receives the co-ordinate position information of shot point to be excited and the number information of code translator, converts thereof into source driving request protocol information, and according to seismic instrument host communication protocol to seismic instrument main frame transmission source driving request protocol information;

What protocol converter received that seismic instrument main frame sends opens quick-fried order, converts to and opens quick-fried order with the designated time, and send to source driving governor by opening quick-fried order;

What source driving governor receiving belt had an agreement the time opens quick-fried order, and controls code translator open bursting charge according to the quick-fried order of opening with the designated time.

In one embodiment, before the information of source driving governor receiver decoder, comprise further:

Source driving governor and the communication protocol type of protocol converter are arranged to consistent with communication protocol type in seismic instrument main frame.

In one embodiment, said method comprises further:

Protocol converter, when opening bursting charge, sends startup acquisition instructions to seismic instrument main frame.

In one embodiment, said method comprises further:

The status information of source driving governor receiver decoder, and send to protocol converter;

The status information of protocol converter receiver decoder, and the status information of code translator is sent to seismic instrument main frame.

Technical scheme of the present invention utilizes satellite positioning tech, based on cdma network, improve the operating efficiency of explosive source seismic prospecting, improve earthquake data quality, and reduce the labour intensity of staff significantly, utilize existing equipment application explosive source source Driving technique easily.

Accompanying drawing explanation

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

Fig. 1 is the structural representation of explosive source source driving control device in the embodiment of the present invention;

Fig. 2 is the structural representation of source driving governor in the driving control device of explosive source source in the embodiment of the present invention;

Fig. 3 is the structural representation of protocol converter in the driving control device of explosive source source in the embodiment of the present invention;

Fig. 4 is the schematic flow sheet of the control method of explosive source source driving control device in the embodiment of the present invention.

Embodiment

For making the object, technical solutions and advantages of the present invention clearly understand, below in conjunction with embodiment and accompanying drawing, the present invention is described in further details.At this, exemplary embodiment of the present invention and illustrating for explaining the present invention, but not as a limitation of the invention.

When inventor considers in prior art the information such as the coordinate position utilizing wireless station to transmit, the problem be easily interfered, and CDMA technology is the english abbreviation (Code Division Multiple Access) of CDMA, it is the branch in digital technology--spread spectrum technic grows up a kind of brand-new and the wireless communication technology of maturation.When in January, 2009, the Chinese government provided 3G license, China Mobile obtains TD-SCDMA, and CHINAUNICOM obtains WCDMA, and China Telecom obtains CDMA2000.End 2012, global CDMA2000 user, more than 2.56 hundred million, spreads all over 70 national 156 operators and has started provider's 3G cdma service.CDMA technology is as a kind of spread spectrum technic, and it has that antijamming capability is strong, transmission speed is fast, confidentiality is high and the good characteristic such as transmitting power of equipment is low.Based on the advantage of above-mentioned CDMA technology, adopt cdma network to transmit the information such as the coordinate position of shot point to be excited in embodiments of the present invention, thus can realize accurately and efficiently transmitting, ensure earthquake data quality, improve operating efficiency.

Technical solution of the present invention provide a kind of light, be suitable for that city and field complex environment use, can the seismic prospecting explosive source universal source driving control device of long-time reliable and stable work.Compared with the source control technology of routine, source Drive Control Technique greatly can improve operating efficiency, and has fundamentally stopped because artificial nucleus to slip up the blown-out shot phenomenon caused to pile No..Specifically described below.

Explosive source source driving control device in the embodiment of the present invention, is made up of source driving governor and protocol converter two parts.During work, source driving governor is positioned at shot point to be excited, and work together with the code translator in existing any model excitaton source controller, protocol converter is connected on seismic instrument main frame; Data transmission and time synchronized is completed by CDMA commercial network between source controller and protocol converter.

Fig. 1 is the structural representation of explosive source source driving control device in the embodiment of the present invention, as shown in Figure 1, embodiments provide a kind of explosive source universal source driving control device based on CDMA commercial mobile network, as shown in Figure 1, this device comprises: source driving governor 20, is connected with the code translator of shot point to be excited; Protocol converter 30, is connected with seismic instrument main frame, and carries out exchanges data and time synchronized with source driving governor 20; Wherein:

Fig. 2 is the structural representation of source driving governor 20 in the driving control device of explosive source source in the embodiment of the present invention, as shown in Figure 2, source driving governor 20 comprises: first information load module 206, GPS module 202, first cdma communication module 203 and the first micro controller module 201; Fig. 3 is the structural representation of protocol converter 30 in the driving control device of explosive source source in the embodiment of the present invention, and as shown in Figure 3, protocol converter 30 comprises: the second cdma communication module 303, serial communication module 302 and the second micro controller module 301;

First information load module 206, for the number information of receiver decoder; GPS module 202, for receiving satellite signal, and obtains the co-ordinate position information of shot point to be excited; First cdma communication module 203, for sending by the number information of cdma network by co-ordinate position information and code translator; Second cdma communication module 303, communicates to connect with the first cdma communication module 203, for being received the number information of co-ordinate position information and code translator by cdma network; Second micro controller module 301, is connected with the second cdma communication module 303 and serial communication module 302, for converting the number information of co-ordinate position information and code translator to source driving request protocol information; Serial communication module 302 is for sending to seismic instrument main frame by source driving request protocol information;

Second micro controller module 301 is further used for the quick-fried order of opening received from seismic instrument main frame by serial communication module 302 to convert to and open quick-fried order with the designated time; Second cdma communication module 303 is further used for the quick-fried order of opening with the designated time to send, and provides the cdma network time to the second micro controller module 301 simultaneously; What the first cdma communication module 203 was further used for having an agreement the time by cdma network receiving belt opens quick-fried order, obtains the cdma network time as the basis of time opening quick-fried order simultaneously; First micro controller module 201, is connected with GPS module 202, first information load module 206 and the first cdma communication module 203, for according to opening quick-fried order with the designated time, controlling code translator and opening bursting charge.

Serial communication module comprises two RS232 serial ports, and a RS232 serial port is connected with the source control interface of seismic instrument main frame, and another RS232 serial port is connected with the encoder interfaces of seismic instrument main frame.

In one embodiment, the second micro controller module 301 is further used for sending startup acquisition instructions in the moment of opening bursting charge, and serial communication module 302 is further used for startup acquisition instructions to send to seismic instrument main frame.

In one embodiment, first information load module 206 is further used for the status information of receiver decoder, and the first cdma communication module 203 is further used for the status information of code translator to send;

Second cdma communication module 303 is further used for the status information of receiver decoder, and serial communication module 302 is further used for the status information of code translator to send to seismic instrument main frame.

In one embodiment, as shown in Figure 2, source driving governor 20 comprises further: the first display module 207, is connected with the first micro controller module 201, for control, the number information of display decoder and the co-ordinate position information of shot point to be excited by the first micro controller module.

In one embodiment, as shown in Figure 2, source driving governor 20 comprises further: the first data memory module 204, is connected with the first micro controller module 201, for passing through the number information of the first micro controller module 201 storage decoder and the co-ordinate position information of shot point to be excited.Certainly, the first data memory module 204 is also for storing shot point to be excited and having excited pile No. and the co-ordinate position information of shot point.

In one embodiment, as shown in Figure 2, source driving governor 20 comprises further: the first power management module 205, is connected with the first micro controller module 201, for by the first micro controller module for each module of source driving governor 20 provides power supply.

In one embodiment, as shown in Figure 3, protocol converter 30 comprises further: the second MIM message input module 306, is connected with the second micro controller module 301, for being received the communication protocol configuration information that protocol converter carries out needed for protocol conversion by the second micro controller module 301.

In one embodiment, as shown in Figure 3, protocol converter 30 comprises further: the second display module 307, is connected with the second micro controller module 301, for the work state information by the second micro controller module 301 display protocol converter.

In one embodiment, as shown in Figure 3, protocol converter 30 comprises further: the second data memory module 304, is connected with the second micro controller module 301, for being carried out the communication protocol library information needed for protocol conversion by the second micro controller module 301 storage protocol converter.

In one embodiment, as shown in Figure 3, protocol converter 30 comprises further: second source administration module 305, is connected with the second micro controller module 301, for by the second micro controller module 301 for each module of protocol converter 30 provides power supply.

During concrete enforcement, as shown in Figure 2, source driving governor 20 comprises: the first micro controller module 201, GPS module 202, first cdma communication module 203, first data memory module 204, first power management module 205, first information load module 206 and the first display module 207.Wherein:

First micro controller module 201, is connected with other each modules, is responsible for the work such as the initialization of each module of whole source driving governor, management and information processing.GPS module 202, for receiving satellite signal, obtains time and tested point three dimensional local information (longitude, latitude, height above sea level), for source driving governor provides coordinate and temporal information from satellite-signal.First cdma communication module 203, for with protocol converter 30 communication, the state position that will excite shot point is sent to protocol converter 30, be provided for the synchronous standard time simultaneously, first cdma communication module 203, set up network by CDMA commercial communications network with protocol converter to be connected, the coordinate of shot point and decoder state information are sent to protocol converter from source driving governor, and CDMA communication module provides the temporal information of cdma network to protocol converter.First data memory module 204 is for storing the shot point information in required GPS file, and comprise shot point pile No. to be excited, coordinate and excited the information of shot point, it is also for storing the information such as production task book and production daily record.First power management module 205, for providing power supply for GPS module 202, first display module 207, first information load module 206, first data memory module 204, first cdma communication module 203 and the first micro controller module 201.First information load module 206, by user by information such as key-press input code translator numberings, is made up of one group of button and corresponding process chip, for inputting the parameters such as code translator numbering.First display module 207, selects LCDs to realize, for showing gps satellite lock-out state, shot point gps coordinate positional information and the information such as code translator numbering by first information load module 206.

During concrete enforcement, as shown in Figure 3, protocol converter 30 comprises: the second micro controller module 301, serial communication module 302, second cdma communication module 303, second data memory module 304, second source administration module 305, second MIM message input module 306 and the second display module 307.Wherein:

Second micro controller module 301 is connected with other each modules, be responsible for the work such as the initialization of whole protocol converter each several part, management and information processing, after its function of tonic chord is to receive the coordinate of shot point to be excited, send to seismic instrument according to optimum configurations synthetic source driving request agreement, then receive the agreement being converted into code used device after instruction of blowing out of seismic instrument.Serial communication module 302 has two RS232 serial ports, connect the tool interface system of seismic instrument source control interface and scrambler (this scrambler and described code translator are corresponding relation) respectively, serial communication module 302, for connecting instrument host excitaton source control unit interface, provides the status information such as shot point coordinate, code translator numbering according to seismic instrument host communication agreement to instrument host.Second cdma communication module 303, set up network by CDMA commercial network with source driving governor to be connected, for source driving governor 20 communication, receive the status information that source driving governor 20 sends, send operational order to source driving governor 20, be provided for the synchronous standard time simultaneously; Simultaneously for receiving the coordinate information of shot point, provide the temporal information of cdma network.Second data memory module 304, for information such as the serial communication protocol storehouses needed for stored parameter setting and protocol conversion.Second source administration module 305, for providing power supply for the second micro controller module 301, serial communication module 302, second cdma communication module 303, second data memory module 304, second MIM message input module 306 and the second display module 307 etc.Second MIM message input module 306, is made up of one group of button and corresponding process chip, for the software design patterns information such as INSTRUMENT MODEL, communications protocol inputted.Second display module 307 selects LCDs to realize, for the duty of display protocol converter 30 and the parameter information such as INSTRUMENT MODEL, communications protocol that inputted by the second MIM message input module 306.

Fig. 4 is the schematic flow sheet of the control method of explosive source source driving control device in the embodiment of the present invention, as shown in Figure 4, the embodiment of the present invention also provides a kind of control method of above-mentioned explosive source source driving control device, in order to improve the operating efficiency of explosive source seismic prospecting, improve earthquake data quality, and reduce the labour intensity of staff significantly, utilize existing equipment application explosive source source Driving technique easily, the method comprises the steps:

Step 101: the number information of source driving governor 20 receiver decoder;

Step 102: source driving governor 20 receiving satellite signal, obtains the co-ordinate position information of shot point to be excited;

Step 103: source driving governor 20 sends the co-ordinate position information of shot point to be excited and the number information of code translator to protocol converter 30;

Step 104: protocol converter 30 receives the co-ordinate position information of shot point to be excited and the information of code translator, converts thereof into source driving request protocol information, and according to seismic instrument host communication protocol to seismic instrument main frame transmission source driving request protocol information;

Step 105: what protocol converter 30 received that seismic instrument main frame sends opens quick-fried order, converts to and opens quick-fried order by opening quick-fried order with the designated time, and send to source driving governor 20;

Step 106: what source driving governor 20 receiving belt had an agreement the time opens quick-fried order, and control code translator open bursting charge according to the quick-fried order of opening with the designated time.

In one embodiment, the method, before the information of source driving governor 20 receiver decoder, comprises further:

Source driving governor 20 and the communication protocol type of protocol converter 30 are arranged to consistent with communication protocol type in seismic instrument main frame.

In one embodiment, the method comprises further:

Protocol converter 30, when opening bursting charge, sends startup acquisition instructions to seismic instrument main frame.

In one embodiment, the method comprises further:

The status information of source driving governor 20 receiver decoder, and send to protocol converter 30;

The status information of protocol converter 30 receiver decoder, and the status information of code translator is sent to seismic instrument main frame.

Be described with example more below, adopt the source of above-mentioned explosive source source driving control device to drive construction method, how to implement so that understand, the method specifically describes as follows:

Step 1: one end of protocol converter 30 connects seismic instrument main frame excitaton source control unit interface;

Step 2: the respective type scrambler communication protocol in seismic instrument being set to support source drive pattern;

Step 3: the power supply opening protocol converter 30, is set to the scrambler communication protocol type identical with seismic instrument main frame by the encoder type in protocol converter 30 optimum configurations;

The information such as step 4: source driving governor 20 is connected to decoder data communication interface, opens source driving governor 20 power supply, the numbering of input code translator;

Step 5: arrive after shot point, with source driving governor 20 at shot point station acquisition gps coordinate storing on schedule;

Step 6: carry out guarding against, connecting the work such as big gun line, arrival safety zone according to safety regulation for operations;

Step 7: shooter presses code translator charge button, presses arm button after charging complete, sends the coordinate position of to be excited shot point and the information of code translator by CDMA commercial network to protocol converter 30 with source driving governor 20 simultaneously;

Step 8: after protocol converter 30 receives the co-ordinate position information of the shot point to be excited of numbering with corresponding code translator, the source that is converted into drives and excites request protocol information and send to seismic instrument main frame;

Step 9: seismic instrument main frame receives source driving and excites request protocol information, according to the coordinate position of the shot point to be excited wherein comprised, arrange in corresponding relation file from the shot point that excites database be associated with corresponding shot point to be excited with reception, then activate corresponding reception and arrange;

Step 10: seismic instrumentation person observes arrangement, then sends to seismic instrument main frame when arranging normal and opens bursting charge order;

Step 11: after protocol converter 30 receives open bursting charge order from the excitaton source control unit interface of seismic instrument main frame, that has an agreement the time to source driving governor 20 transmit band opens bursting charge order;

Step 12: source driving governor 20 receive with the designated time open bursting charge order after, start code translator release high voltage according to the cdma network time in corresponding time and open bursting charge;

Step 13: protocol converter 30, when decoder enable, sends startup acquisition instructions by the excitaton source control unit interface of seismic instrument main frame to seismic instrument main frame and starts collection;

Step 14: explosive source open quick-fried after, all kinds of status information of source driving governor 20 receiver decoder record also issues protocol converter 30.

Compared with prior art, explosive source universal source driving control device of the present invention and control method, have following obvious advantage and beneficial effect:

(1) when adopting source driving construction, be not subject to the restriction of source controller model and version number, existing equipment application source can be made to drive operating technique, eliminate the obstacle of New technical use and reduce costs.

(2) embodiment of the present invention transmits the mode of sp location coordinate and decoder state with CDMA commercial network, operation distance between seismic instrument and code translator is increased to hundreds of even thousands of kilometer by less than 12 kilometers, under the complex environments such as city, eliminates the operation interference because landform causes.

(3) embodiment of the present invention acquires position coordinates and the temporal information of each big gun in blowing out, the error of each big gun physical location and design attitude can be measured, carry out statistics and the storage of data, effectively can improve the quality of geological data, improve the operating efficiency of explosive source seismic prospecting, and reduce the labour intensity of staff significantly.

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

Claims (14)

1. an explosive source source driving control device, is characterized in that, comprising: source driving governor, is connected with the code translator of shot point to be excited; Protocol converter, is connected with seismic instrument main frame; Wherein:

Described source driving governor comprises:

First information load module, for the number information of receiver decoder;

GPS module, for receiving satellite signal, and obtains the co-ordinate position information of shot point to be excited;

First cdma communication module, for by cdma network the number information of described co-ordinate position information and described code translator sent or be used for having an agreement the time by cdma network receiving belt open quick-fried order, obtain the cdma network time as the described basis of time opening quick-fried order simultaneously;

First micro controller module, with described first information load module, GPS module and the first cdma communication model calling, for opening quick-fried order according to described with the designated time, controlling code translator and open bursting charge and control described first information load module, GPS module and the first cdma communication module work;

Described protocol converter comprises:

Second cdma communication module, be connected with described first cdma communication module communication, for received by cdma network described co-ordinate position information and code translator number information or for the quick-fried order of opening with the designated time being sent to described first cdma communication module by cdma network, obtain cdma network time sending simultaneously;

Second micro controller module, with described second cdma communication model calling, for the number information of described co-ordinate position information and code translator being converted to source driving request protocol information or being used for receiving the described cdma network time, and according to the described cdma network time, the quick-fried order of opening obtained from seismic instrument main frame is converted to and opens quick-fried order with the designated time;

Serial communication module, is connected with the second micro controller module, for described source driving request protocol information being sent to seismic instrument main frame or being used for receiving from seismic instrument main frame opening quick-fried order; Described serial communication module comprises two RS232 serial ports, and a RS232 serial port is connected with the source control interface of seismic instrument main frame, and another RS232 serial port is connected with the encoder interfaces of seismic instrument main frame;

Described second micro controller module is further used for controlling described second cdma communication module and serial communication module work.

2. control device as claimed in claim 1, it is characterized in that, described second micro controller module is further used for sending startup acquisition instructions in the moment of opening bursting charge, and described serial communication module is further used for described startup acquisition instructions to send to seismic instrument main frame.

3. control device as claimed in claim 1, it is characterized in that, described first information load module is further used for the status information of receiver decoder, and described first cdma communication module is further used for the status information of described code translator to send;

Described second cdma communication module is further used for the status information receiving described code translator, and described serial communication module is further used for the status information of described code translator to send to seismic instrument main frame.

4. control device as claimed in claim 1, it is characterized in that, described source driving governor comprises further: the first display module, be connected with described first micro controller module, for being shown the number information of described code translator and the co-ordinate position information of described shot point to be excited by described first micro controller module.

5. control device as claimed in claim 1, it is characterized in that, described source driving governor comprises further: the first data memory module, be connected with described first micro controller module, for storing the number information of described code translator and the co-ordinate position information of shot point to be excited by described first micro controller module.

6. control device as claimed in claim 1, it is characterized in that, described source driving governor comprises further: the first power management module, is connected with described first micro controller module, for by described first micro controller module for driving governor each module in source provides power supply.

7. control device as claimed in claim 1, it is characterized in that, described protocol converter comprises further: the second MIM message input module, be connected with described second micro controller module, for being carried out the communication protocol configuration information needed for protocol conversion by described second micro controller module reception protocol converter.

8. control device as claimed in claim 1, it is characterized in that, described protocol converter comprises further: the second display module, is connected with described second micro controller module, for the work state information by the second micro controller module display protocol converter.

9. control device as claimed in claim 1, it is characterized in that, described protocol converter comprises further: the second data memory module, be connected with described second micro controller module, for being carried out the communication protocol library information needed for protocol conversion by described second micro controller module storage protocol converter.

10. control device as claimed in claim 1, it is characterized in that, described protocol converter comprises further: second source administration module, is connected with described second micro controller module, for by described second micro controller module for each module of protocol converter provides power supply.

The control method of 11. 1 kinds of explosive source source driving control devices as described in any one of claim 1 to 10, is characterized in that, comprising:

The information of described source driving governor receiver decoder;

Described source driving governor receiving satellite signal, obtains the co-ordinate position information of shot point to be excited;

Described source driving governor sends the co-ordinate position information of described shot point to be excited and the number information of described code translator to described protocol converter;

Described protocol converter receives the co-ordinate position information of described shot point to be excited and the number information of described code translator, convert thereof into source driving request protocol information, and send described source driving request protocol information according to seismic instrument host communication protocol to seismic instrument main frame;

What described protocol converter received that seismic instrument main frame sends opens quick-fried order, opens quick-fried order and converts to and open quick-fried order with the designated time, and send to described source driving governor by described;

Described source driving governor receives and describedly opens quick-fried order with the designated time, and opens bursting charge according to the described quick-fried order control code translator that opens with the designated time.

12. control methods as claimed in claim 11, is characterized in that, before the information of described source driving governor receiver decoder, comprise further:

Described source driving governor and the communication protocol type of described protocol converter are arranged to consistent with communication protocol type in seismic instrument main frame.

13. control methods as claimed in claim 11, is characterized in that, comprise further:

Described protocol converter, when opening bursting charge, sends startup acquisition instructions to seismic instrument main frame.

14. control methods as claimed in claim 13, is characterized in that, comprise further:

The status information of described source driving governor receiver decoder, and send to described protocol converter;

Described protocol converter receives the status information of described code translator, and the status information of described code translator is sent to seismic instrument main frame.