RU25355U1 - SYNCHRONIZATION SYSTEM - Google Patents

Description

The proposed utility model relates to automatic control systems for geophysical surveying in the coastal (transit) zone.

The proposed utility model is designed to synchronize the operation of the source vessel following the geophysical profile with the receiver vessel anchored with the seismic station and buoy seismic sensors collecting information from them and the coastal seismic station with their seismic sensors during seismic exploration in the coastal (transit) zone .

When conducting seismic exploration in the coastal zone, two vessels, one of which is a source vessel, is equipped only with pneumatic sources, the other receiver vessel is equipped with a seismic station and displacer seismic sensors, as well as a seismic station with its seismic sensors located on the shore, the task is to ensure synchronous operation of the navigation system located on the source vessel, with the operation of the seismic station on the receiver vessel and the seismic station with its seismic sensors located on the shore, start the pneumatic source controller in the test divided by time, and record the coordinates of the position of the center air gun on sudneistochnike.

The well-known priority приоритет priority from 10. 01. 1997., containing the main computer, with interfaces for connecting sensors (satellite receivers, gyrocompass, doppler sensors, echo sounders, induction log and inclinometers) and actuators (autopilot, steering monitor and seismic station), the main function of which is the control of geophysical surveys with a floating towed seismic cable, connected to another computer, with a printer, a plotter and a digital table connected to it l quality of work performed.

This navigation system does not allow geophysical surveying in the coastal (transit) zone.

The main technical problem, which the proposed utility model is aimed at, is to synchronize the work of seismic stations located on the receiving vessel and on the shore of the reservoir according to the signals of the navigation system.

The main task is solved by the fact that the synchronization system is equipped with a timer, modems for transmitting radio signals for launching seismic stations (source ship), a modem for receiving the radio signal for launching seismic stations, and a matching device located on the receiving vessel, it is also equipped with a modem for receiving the launch radio signal seismic stations, and a coordination device with it located on the shore of a reservoir.

Comparative analysis with the prototype allows us to conclude that the proposed synchronization system contains a timer, modems for

transmitting radio signals for launching seismic stations (source ship), a modem for receiving a radio signal for launching seismic stations and a matching device located on the receiving vessel, a modem for receiving a radio signal for launching seismic stations, and a matching device located on shore, which allows geophysical surveying coastal (transit) zone.

The essence of the proposed utility model is illustrated by graphic materials, where in FIG. 1 is a block diagram of the connection of a navigation system, air source controller, timer, receiver modems, transmitter modems, matching devices, and seismic stations.

The proposed synchronization system contains (Fig. 1), a matching device (timer) 3, modem transmitters 4, 6 and a pneumatic source controller 5 located on the source ship 1. On the receiver 7 there is a modem receiver 9 and matching device 11. On the shore 8 are the receiver modem 10 and matching device 12. It is designed for synchronous operation of the navigation system 2 located on the source vessel, from the seismic stations 13 located on the receiver vessel 7, and from the seismic stations 14 located on the shore.

In this case, on the source ship 1, the start output of the navigation system 2 is connected to the input of the modem transmitter 4 and the input of the matching device 3, the first output of which is connected to the input of the controller of the air sources 5, and the second to the input of the modem transmitter 6. The output of the controller of the air sources 5 is connected with input Answer

connected on the receiver-vessel 7 to the input of the modem-receiver 9, the output of which is connected to the input of the matching device 11. The output of the matching device 11 is connected to the input of the seismic station 13. The modem-transmitter 6 is connected via a radio channel to the input of the modem-receiver located on shore 8 10, the output of which is connected to the input of the matching device 12. The output of the matching device 12 is connected to the input of the seismic station 14.

The proposed synchronization system receiving the signal “Start from the navigation system through the modem transmitter 4, modem receiver 9, matching device 11 starts the seismic station 13. The seismic station 13 starts polling the buoyant seismic sensors (not shown in FIG. 1), which takes time T. The signal "Start delayed by time T in the matching device (timer) 3, through the modem transmitter 6, modem receiver 10, matching device 12 starts the seismic station 14c with seismic strips (not shown in Fig. 1) and after the time T1 the matching device ( half p) 3 starts the air gun subarray controller 5 which performs undermine air gun subarray (in Figure 1 not shown). A signal confirming the operation of the pneumatic sources is supplied to the navigation system 2 to fix the position of the center of the group of pneumatic sources.

Using the proposed synchronization system allows seismic exploration in shallow water, in which the source vessel controls the launch of the seismic station located on the receiving vessel and the seismic station located on the shore, generates a trigger signal for the pneumatic source controller, the response signal of which

controller of pneumatic sources, the operation signal of which fixes in the navigation system the position of the center of the group of pneumatic sources.

Claims (1)

Navigation system for marine geophysical surveys, containing the main computer, with interfaces for connecting sensors (satellite receivers, gyrocompass, doppler sensors, echo sounders, induction log and inclinometers) and actuators (autopilot, steering monitor and seismic station), the main function of which is to control the geophysical shooting and navigation, connected to another computer, with a printer, a plotter and a digital table connected to it, performing quality control of the work performed Work, characterized in that it is equipped with a timer, a modem for transmitting the radio signal of the launch of the seismic station and a modem for receiving the radio signal of the launch of the seismic station, as well as a matching device located on the receiving vessel, as well as a modem for transmitting the radio signal of the launch of the seismic station and a modem for receiving the radio signal launch of a seismic station, as well as a coordination device with it located on the shore of a reservoir.