RU168303U1 - UNIVERSAL CHARGE SEISMIC - Google Patents

Abstract

The utility model is designed to excite seismic waves and can be used in seismic exploration, as well as in geophysical surveys. A universal seismic charge is proposed, including a cylindrical plastic case with locking elements at the ends and a cylindrical explosive block with a blind hole mounted inside, in which an electric detonator is installed, connected by a wire to an explosive station, the case is made of two parts connected by a thread, and the locks the elements on the ends are made in the form of a bayonet connection. Moreover, the covered part can be connected with the female, which allows you to connect with each other the required number of cases and adjust the power of the seismic wave. Above and below, the interconnected bodies are closed by covers, on which bayonet connections are also made, and on the side surface of one or two covers, expansion anchor plates are made, which tend to occupy a position perpendicular to the axis of the cover. At least three anchor plates are installed in one section. At the junction of each anchor plate with the side surface of the lid, its cross-sectional area is reduced by the groove. Spacer anchor plates can be made on the top cover. Spacer anchor plates can be made on the bottom cover. Spacer anchor plates can be made on the upper and lower covers. The thread profile connecting the individual parts of the body is made round. In the transport position, to reduce the dimensions, the anchor plates are pressed against the body. On the side surface of the housing are made

Description

The device is designed to excite seismic waves and can be used in seismic exploration, as well as in geophysical surveys.

The known method of seismic exploration according to the patent of the Russian Federation for the invention No. 2542635. The invention relates to the field of geophysics and is intended for a detailed study of the structure of the geological environment. To influence the studied geological structure, detonating cord is used. The length of the detonating cord is set equal to the wavelength reflected from the studied layers of the earth's crust, selecting it according to the best value of the dynamic resolution of the observing system. The technical result consists in increasing the information content of the separation of rocks with similar physical properties, having low reservoir thickness and minimal differences in density values, by increasing the detected useful signal. The disadvantage of the method of seismic exploration is the low safety of operations with explosives.

The known seismic method (options), a geophysical exploration system and a method for producing explosive composition for these methods of exploration according to the patent of the Russian Federation for invention No. 229236. The group of inventions relates to the field of geophysical exploration for oil and gas exploration. The invention is based on an explosive source of seismic signals that contains an oxidizable metal substance. The seismic method consists in generating seismic waves by detonating an explosive composition in an underground formation. An explosive composition contains a first explosive and an oxidizable metal substance. Seismic waves and / or their reflections are recorded by seismic detectors. Geophysical exploration systems contain a source of seismic signals containing a first explosive and an oxidizable metal. The source of seismic signals is located in the underground formation. Many seismic detectors are designed to register seismic waves generated by the explosion of a source of seismic signals, and reflections of these waves. A method for producing an explosive composition is also described. The disadvantage of the seismic exploration method is the complexity of the method.

A known system for seismic exploration according to the patent of the Russian Federation for the invention No. 2298207. The invention relates to seismic exploration, and more specifically to systems for conducting field seismic exploration. The system includes a main receiving and recording system consisting of seismic receivers connected by communication channels to a seismic station containing a command signal encoder, a blast hole located at its bottom, the main explosive charge and an explosive station station located on the vehicle, and including a main command signal decoder, the main explosive line, and an additional receiving and recording system, including a conveyor of seismic receivers and a recording device. What is new is that the system is equipped with an additional explosive charge located near the mouth of the blast hole, and the blast station station is equipped with an additional command signal decoder and an additional explosive line connected to an additional explosive charge, and the control input of the recording device is connected to the output of the additional command decoder signals. The disadvantage of the system for seismic exploration is the lack of fixation of charges in the well.

Known transportable complex of equipment for conducting three-dimensional 3D seismic exploration according to the patent of the Russian Federation for utility model No. 61894. The utility model relates to seismic methods for exploring oil and gas fields, in particular, to mobile devices for year-round seismic exploration in hard-to-reach areas, and can be used to study oil and gas prospective objects without disturbing the environmental situation. The technical result provided by the proposed utility model is to increase the reliability and efficiency of the complex in all-weather conditions with minimal impact on the environment and to reduce operating costs. The transportable complex of equipment for conducting 3D seismic exploration in hard-to-reach areas includes a vehicle, a source of seismic vibrations and portable equipment for recording signals, and it additionally contains a drilling rig, the complex is equipped with an explosive source of vibrations in the form of charges of ultra-low weight up to a source of seismic vibrations up to 0.1 kg, and as a drilling rig and a vehicle, the complex contains small-sized equipment. As a small-sized drilling rig, the complex contains a UB SHM-1-13M rig based on a small-sized chassis up to 1 m wide, made with the possibility of drilling single or group wells of small diameter up to 60 mm and a depth of 3-12 meters, and as a small-sized vehicle it It contains small-sized, low-loader wheeled or tracked vehicles, such as Neva motor-blocks or Buran snowmobiles. The disadvantage of the transportable complex of equipment for conducting three-dimensional 3D seismic exploration is the lack of charge fixing in the well.

Known seismic explosive system according to the patent of the Russian Federation for the invention No. 2457510. Explosive system for seismic charges that are protected from the danger of detonation by means of a radio frequency signal (RF) and electrostatic discharge (ESD). A seismic explosive module, a system for use in seismic exploration, as well as a method for conducting seismic exploration are claimed. A seismic explosive module designed for use in seismic exploration, and for the detonation of the specified module it is necessary to use a selection signal, a start signal and an initiating signal, all of which are obtained from the base unit, contains a seismic charge, an addressable key that receives a selection signal for selecting a seismic charge for detonation, an ignition device, in working condition connected to an addressable key for receiving a trigger signal and responsible for generating an output voltage and a detonating device, in working condition connected to the output of the ignition device, and the detonating device is responsible for the initiating signal for detonation of the seismic charge when a response voltage is applied to the detonating device. The system for use in seismic exploration contains many seismic explosive modules, each of which has an addressable key having a unique address, and a base unit for supplying the appropriate selection signal, trigger signal and initiating signal to the seismic module. A method of conducting seismic exploration using the system consists in distributing, at intervals, explosive seismic modules on the surface of the area over which it is necessary to conduct seismic exploration, and detonating each module individually with the corresponding first selection signal, a start signal, and an initiating signal from the base unit. The technical result consists in safer transportation and storage of the explosive module, together with its schemes for initiation, as well as in protecting the system from accidental initiation of an explosion caused by the usual random voltages, currents, electrostatic discharge and simply human errors. The disadvantage of a seismic blasting system is the lack of fixation of charges in the well.

Known borehole source of seismic signals according to the patent of the Russian Federation for the invention №2012022. The source contains series-connected housings. They are equipped with upper and lower bottoms. On the outside of the eponymous, for example, lower, bottom there is a contact of an electrically starting device insulated from the housing. In the other bottom, a through hole is made. It is placed with the possibility of longitudinal movement, for example due to the pusher, an additional contact. The latter is connected to the phase of the explosive line isolated from the housing, consisting of individual conductors. This design allows for a consistent detonation of explosive charges placed in each of the buildings. The disadvantage of a borehole source of seismic signals is the lack of fixation of charges in the well.

Known charge for the excitation of seismic vibrations ZSB-A and a method of manufacturing a charge according to the patent of the Russian Federation for invention No. 2420502 (prototype). The charge for exciting seismic vibrations includes a cylindrical block of explosive composition with a through axial channel and a blind hole made from one of its ends parallel to the axis, in which an intermediate initiator with a socket for an electric detonator is placed, additionally at the mouth of a blind hole between the upper ends of the checker and the intermediate initiator a fixing element is placed, made in the form of a cylindrical ring with an internal convex or straightened chamfer at the upper end and an inner diameter equal to etru nests under the EB. The lack of charge for the excitation of seismic vibrations ZSB-A is the lack of charge fixing in the well.

The task of creating a utility model is to increase the reliability of the seismic charge, as well as to increase the safety of operations with explosives due to the reliable fixation of the charge in the well.

The solution to these problems was achieved due to the fact that the seismic universal charge includes a cylindrical plastic case with locking elements at the ends and a cylindrical explosive block with a blind hole mounted inside, in which an electric detonator is installed, connected by a wire to the explosive station, the body is made of two parts connected by a thread, the locking elements at the ends are made in the form of a bayonet connection, and the covered part can be connected to the female, This allows you to connect the required number of cases to each other and adjust the power of the seismic wave, and the top and bottom of the interconnected cases are closed with covers, which also have bayonet connections, spacer anchor plates are made on the side surface of one or two covers, which tend to occupy the axis perpendicular to the axis of the cover position. At least three anchor plates are installed in one section. At the junction of each anchor plate with the side surface of the lid, its cross-sectional area is reduced by the groove. Spacer anchor plates can be made on the top cover. Spacer anchor plates can be made on the bottom cover. Spacer anchor plates can be made on the upper and lower covers. The thread profile connecting the individual parts of the housing is made round. In the transport position, to reduce the dimensions, the anchor plates are pressed against the body. On the side surface of the casing, annular protrusions are made, which, with the protrusion formed by a thread connecting the two parts of the casing, are designed to fix the wire. The wire passes through an opening in the upper cover, an opening in the enclosing part of the housing and is laid outside along its axis, fixed by turns perpendicular to the axis, and passed through an opening in the enclosing part of the housing to the detonator. Between the annular protrusion and the protrusion formed by a thread connecting the two parts of the housing, the wire is fixed on top with duct tape.

The proposed technical solution has novelty and industrial applicability, i.e. all the criteria of a utility model. The novelty of the technical solution is confirmed by patent research. Industrial applicability is due to the fact that non-deficient materials and well-known technologies are used in the manufacture of a universal seismic charge.

The essence of the utility model is illustrated in FIG. 1 ... 8, where:

in FIG. 1 shows a universal seismic charge in a well, with anchor plates below,

in FIG. 2 top view A,

in FIG. 3 shows the expansion anchor plates in the transport position,

in FIG. 4 shows the universal seismic charge in the well, with anchor plates at the top,

in FIG. 5 shows a collapsible case of a universal seismic charge,

in FIG. 6 shows a collapsible case of a universal charge of seismic type B,

in FIG. 7 shows a section BB of a bayonet coupling,

in FIG. Figure 8 shows the fastening of the wire going to the detonator on the housing. The seismic universal charge consists of a cylindrical plastic case of 1, with locking elements at the ends, with a cylindrical block 2 made of explosives installed inside it with a blind hole 3, in which an electric detonator 4 is installed, connected by a wire 5 to an explosive station (not shown), the case 1 is made up of two parts 6 and 7 connected by a thread 8, the locking elements at the ends are made in the form of a bayonet joint 9, and the male part 10 can be connected to the female 11, which allows interconnect the necessary number of cases 1 with each other and adjust the power of the seismic wave, and the bodies 1 connected to each other above and below are closed by covers 12 and 13, on which bayonet connections 9 are also made, spacer anchors are made on the side surface of one or two covers 12 and 13 plate 14, tending to occupy a position perpendicular to the axis of the cover 12 or 13. At least three anchor plates 14 are installed in one section. At the junction of each anchor plate 14 with the side surface of the lid 12 or 13, its cross-sectional area is reduced by the groove 15. The expansion anchor plates 14 can be made on the top cover 13. The expansion anchor plates can be made on the bottom cover 12. Spacer anchor plates can be made on the top 13 and bottom 12 covers. The thread profile 8, connecting the individual parts 6 and 7 of the housing 1, is made round. In the transport position, to reduce the dimensions, the anchor plates 14 are pressed against the housing 1. On the side surface of the housing 1, annular projections 16 are made, which, with the protrusion 17 formed by a thread 8 connecting the two parts 6 and 7 of the housing 1, are used to fix the wire 5. Wire 5 passes through the hole 18 in the upper cover 13, the hole 19 in the enclosing body part 11 and laid outside along its axis, fixed by turns 20 perpendicular to the axis and passed through the hole 19 in the enclosing body part 11 to the electric detonator 4. Between the front projection 16 and the projection 17 formed by a thread 8 connecting the two parts of the housing 6 and 7, the wire is fixed on top with adhesive tape 21.

A universal seismic charge works as follows.

The components 6 and 7 of the housing 1 are assembled along the thread 8 and between them with a fixation from axial and radial movement, a cylindrical bomb 2 of explosive is installed. The wire 5 is drawn through the hole 18 in the upper cover 13 and the hole 19 in the enclosing body part 11, is laid externally along its axis, between the ring protrusion 16 and the protrusion 17 formed by the thread 8, and is fixed by turns 20 of the wire 5 perpendicular to the axis, after which the turns 20 are fixed with adhesive tape 21, which is wound between the annular protrusion 16 and the protrusion 17, and the wire 5 is again pulled through the hole 19 and connected to the electric detonator 4, after which the electric detonator is installed in a through hole made in cylindrical checker 2, and is closed by a top cover 13, which is connected by a bayonet connection 9 to the housing 1. The fastening of the wire 5 on the outer side surface of the housing 1 between the annular protrusion 16 and the protrusion 17 prevents the coils 20 of the wire 5 from sliding off the housing 1, as well as their separation electric detonator 4. Housings 1 are made with bayonet connection, which allows you to connect with each other the required number of buildings 1 and adjust the power of the seismic wave. From below, the interconnected bodies 1 are closed by a cover 12, on which spacer anchor plates 14 are located around the circumference, designed to fix the charge in the well. Anchor plates can be made on the lower 12, on the upper 13 and on the upper 13 and lower 12 covers. After assembly, a universal seismic charge descends into the well. The expansion anchor plates 14 are bent at the junctions of each anchor plate 14 with the side surface of the cover 12 or 13, where its cross-sectional area is reduced by the groove 15. After the descent into the well, the anchor plates 14 abut against the walls of the well and prevent charge extraction from the well, which increases safety carrying out work with explosives and reduces the likelihood of their theft and misuse.

Application of the utility model allowed:

1. To increase the productivity of seismic surveys.

2. Provide reliable fixation of charge in the well.

3. Improve the safety of explosives.

4. Quickly change the power of charges, changing their number.

5. To simplify the assembly of the device before use.

Claims (11)

1. A seismic universal charge, including a cylindrical plastic case with locking elements at the ends and a cylindrical explosive block with a blind hole mounted inside, in which an electric detonator is installed, connected by a wire to the explosive station, characterized in that the body is made of two parts connected by a thread, the locking elements at the ends are made in the form of a bayonet connection, and the male part can be connected with the female, which allows you to connect other g other necessary number of cases and adjust the power of the seismic wave, and the top and bottom of the interconnected housings are closed by covers, which are also made bayonet connections on the side surface of one or two lids made expansible anchor plate, perpendicular to the axis tending to occupy the position of the cover. 2. The universal seismic charge according to claim 1, characterized in that at least three anchor plates are installed in one section. 3. The universal seismic charge according to claim 1, characterized in that at the junction of each anchor plate with the side surface of the lid, its cross-sectional area is reduced by the groove. 4. The universal seismic charge according to claim 1, characterized in that the expansion anchor plates are made on the top cover. 5. The universal seismic charge according to claim 1, characterized in that the expansion anchor plates are made on the bottom cover. 6. The universal seismic charge according to claim 1, characterized in that the expansion anchor plates are made on the upper and lower covers. 7. The universal seismic charge according to claim 1, characterized in that the thread profile connecting the individual parts of the body is made round. 8. The universal seismic charge according to claim 1, characterized in that in the transport position, to reduce the dimensions, the anchor plates are pressed against the body. 9. The seismic universal charge according to claim 1, characterized in that annular protrusions are made on the side surface of the housing, which are designed to fix the wire with a protrusion formed by a thread connecting the two parts of the housing. 10. The seismic universal charge according to claim 9, characterized in that the wire passes through the hole in the upper cover, the hole in the enclosing part of the body and laid outside along its axis, fixed by turns perpendicular to the axis, and passed through the hole in the enclosing part of the body to the detonator . 11. The universal seismic charge according to claim 9, characterized in that between the annular protrusion and the protrusion formed by a thread connecting the two parts of the housing, the wire is fixed on top with adhesive tape.

Images