RU2025746C1 - Field recording seismic prospecting system - Google Patents

Abstract

FIELD: seismic prospecting. SUBSTANCE: field seismic prospecting system has digital N-channel seismic station, including analog-to- code converter, recorder, excitation moment check point circuit, control unit. Control unit has modulus operating mode selection unit and controlling generator. The seismic station is connected to seismic prospecting N-channel receiving line, comprising field n-channel floor-mounted moduli. The moduli have decoders of control instructions and instructions for modulus operating mode setting. Field n-channel moduli are introduced in each information channel of seismic N-channel receiving line with N being equal to or more than n. Control system for field moduli has programmable timer with inputs being connected to outputs of excitation moment check point circuit and recorder. Controlling generator and modulus operating mode selection unit are connected to timer outputs. Outputs of controlling generator and modulus operating mode selection unit are connected to inputs of control and information channels. Control system for field moduli has also address change unit introduced in the seismic station and connected to analog-to-code converter and recorders, and made in the form of microprocessor program controlled buffer memory. EFFECT: field analysis of seismic response. 2 dwg

Description

 The invention relates to seismic exploration and can be used when working by the method of multiple overlapping (IMF).

 Known equipment for recording reflected seismic signals [1], containing field modules controlled from a central station.

 However, they implement the usual constant mode of reception and registration of seismic waves through telemetry channels and do not allow the registration of seismic waves in the automatically changing during recording mode of reception, including determining the location of receiving installations, their size and distance from the source of oscillations, which does not allow the efficient use of such technology and equipment during the operations of the IMF.

 The closest in technical essence to the claimed device is a complex [2] for recording seismic waves, which is an N-channel seismic station containing a circuit for marking the moment of excitation, an analog-code converter and a registration unit, and connected through a control unit containing a module mode selection unit and a control generator, with a seismic N-channel receiving line containing field n-channel floor modules connected to seismic receivers and containing control command decoders and A team installing the module mode, and the switching unit.

 The known device does not provide high-performance and efficient seismic surveys according to the method of multiple overlap, including the MOGT, in areas with difficult seismic and geological conditions.

 The aim of the invention is to increase the productivity and geological and economic efficiency of seismic surveys in areas with complex seismic and geological conditions by simultaneously continuously tracking multiple reflecting and refracting horizons in the upper part of the section and deep reflecting horizons.

 The goal is realized by a field recording seismic complex, in the information channels of the seismic streamers, field n-channel modules are introduced, consisting of decoders for commands for setting module modes, switching units for seismic receivers and decoders for control commands for modules, and the control system for field modules at the seismic station contains the excitation moment and the registration unit programmable timer, the outputs of which are connected to the control generator, the mode selection unit m modules, connected by their outputs to the inputs of the control and information channels, as well as a forwarding unit entered into the seismic station connected to an analog-code converter and a recording unit and made in the form of a buffer memory program-controlled by a microprocessor.

 In FIG. 1 shows a block diagram of a complex; in FIG. 2 shows a block diagram of a field module.

 The complex (Fig. 1) consists of seismic streamers 1, forming with bundles of 3 geophones 4 connected to them via field n-channel modules 4 N-channel receiving line of unlimited length, consisting of several series-connected sections, each of which contains N field modules moreover, N ≥ n, and connected to the inputs of amplifiers 5 of the recording of the seismic station 6, control system 7, comprising a programmable timer 10 connected to the circuit 8 of the time stamp of the excitation and the recording unit 9, to the outputs of which I control the generating generator 11 and the module mode selection unit 12, connected by their outputs to the inputs of the control 13 and information channels 14, as well as the forwarding unit 15 connected to the analog-code converter unit 16 and the registration unit 9 and made in the form of a buffer programmable by a microprocessor memory.

 The field module (Fig. 2) consists of a transformer 17, a power supply unit 18, a decoder 19 of the module control commands, a decoder 20 of the module mode setting commands, and seismic receiver switching units 21 and 22 (key blocks).

 The complex works as follows.

 When the seismic station is turned on, the control system 7 through a programmable timer 10 issues a command to turn on the control generator 11, which generates a sinusoidal signal with a variable frequency in the control channel 13, at the same time energizing and controlling the field modules. By the "Section Selection" command, all decoders of the module mode installation commands connected to the corresponding section are connected via the electronic keys included in them to the information channels 14 of the receiving line: the 1st module to the 1st channel, the 2nd to the 2nd etc. Through the information channels 14, pulses are received from the unit 12 for selecting the mode of the modules to the field modules, which program the operating mode of the module (mode of "small" or "large" base). The operating mode of the field module is determined by the number of pulses received through the information line: 1 pulse - work in large base mode, 2 pulses - work in small base mode, 3 pulses - work in large and small base mode. When the control generator 11 feeds into the control channel 13 a sinusoidal signal of variable frequency, the decoders 19 of the module control commands recognize and connect the geophones to the streamers according to the selection of the operating mode of the module by the switching circuits of the receiving installations. The information received from the geophones 3 for recording on magnetic tape in the recording unit is ordered by the forwarding unit 15 in accordance with the accepted recording format (for example, C-1) according to a predetermined program recorded in the microcomputer memory (for example, of type КР1816 BE048).

 The proposed technology for conducting seismic surveys using the multiple overlap method, including the OGT method, makes it possible to increase the productivity and informativeness of primary field seismic materials in areas with complex surface seismic and geological conditions while simultaneously releasing technical means and saving labor costs.

Claims (2)

 1. FIELD RECORDING SEISMIC EXPLORATION COMPLEX, including a digital N-channel seismic station, containing an excitation moment marking circuit, an analog-code converter, a recording unit and connected via a control unit containing a module mode selection unit and a control generator, with an N-channel reception seismic line, containing field n-channel floor modules connected through a switching unit to geophones and containing a decoder for module control commands connected to the decoder by the input and output m commands for setting the module mode, characterized in that, in order to increase the productivity and geological and economic efficiency of seismic surveys in areas with difficult seismic and geological conditions by simultaneously continuously tracking multiple reflecting and refracting horizons in the upper part of the section and deeply lying horizons, field n-channel floor modules introduced into each channel of the seismic exploration N-channel receiving line, with N ≥ n, and the control system field n-channel floor the modules additionally contains a programmable timer connected by inputs to the outputs of the circuit for marking the moment of excitation and the registration unit, to the outputs of which a control generator and a unit for selecting the mode of the modules are connected, connected by their outputs to the inputs of the control and information channels, as well as a forwarding unit connected to the output of the converter analog code and input block registration.  2. The complex according to claim 1, characterized in that the forwarding unit is made in the form of a buffer memory programmatically controlled by the microprocessor.

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