UA31967U - Device for seismic investigations in well - Google Patents

Abstract

Device for seismic investigations in well consists of cylindrical body and impact mechanism placed in it, emission unit with support shoes arranged as wedges, those have at outer side teeth, lever-springy pressing mechanism connected to the lower part of support shoes by means of rods. In the body slots are provided, there support shoes are installed with possibility of slide over surfaces of those, and between the upper part of support shoes and body springy element are installed.

Description

Description of the invention

The useful model refers to the geophysical technique used in borehole geophysics and 2 is intended for the excitation of elastic waves in boreholes during seismic research.

Known devices (1-4) for seismic research in wells, including the use of mechanisms that ensure their pressing against the walls of the well.

In the borehole seismic source (1|) electromagnetic motors of various types are used to excite seismic waves in the wells, the movable anchors of which are suspended on springs fixed in the casing, and a hydraulic pressure mechanism is used to press the source against the walls of the well.

The disadvantage of the technical solution |1) is the complexity of the device and its unreliability due to the use of the hydraulic system of the clamping mechanism.

A well-known pressing device of a well device for use in seismic research |21), which has a pressing lever with an axis of rotation on the body of the device, a sealed case, and an electromechanical drive 72, a lead screw and a rod are located in it.

Disadvantages of the device (21) are the impossibility of providing sufficient pressure to the walls of the well for effective work due to the use of a lever as a pressure element and unreliability due to the use of an electromechanical drive, the electrical power of which is limited by the electrical parameters of the logging cable.

A known device for excitation of elastic waves in wells |Z), which has a housing with a drive with a falling load placed in it, rods, springs and a wedge device for fixing the housing at a given point in the well, consisting of spacer and contact elements, made with the possibility of sliding one relative to the other.

Disadvantages of the device |Ж) - lack of sealing of the drive in the case due to the fact that the spacer element 22, on which the force of the seismic impact acts, is made with the possibility of movement relative to the case, which reduces the efficiency and reliability of the drive, as well as insufficient operational reliability in connection with the possibility of jamming of the device in the process of rising to the surface.

The closest technical solution to the proposed useful model in terms of purpose and technical essence is device I4), which has a cylindrical body in which an electromagnetic shock mechanism is placed - guide rods, a rod, a radiation unit consisting of a lever-hinged rhombic link, "se thrust shoes, which are made in the form of wedges and installed with the possibility of sliding on their surface of the lever-hinged link, and to the lower part of the thrust shoes, a passive lever-spring pressure mechanism is hinged with the help of Me rods. --

Disadvantages of the technical solution |4| - the impossibility of providing sufficient pressing force to the walls of the 3o well for effective work in connection with the use of a multi-element construction of a lever-hinged rhombic link for pressing the thrust shoes and the impossibility of using it to create torsional forces in the well.

The useful model is based on the task of improving the device for seismic research in the well by installing thrust shoes directly on the casing and fixing them with 70 elastic elements, which ensures an increase in the clamping force, the reliability of the device and an increase in seismic efficiency. z" The task is solved by the fact that in the device for seismic research in the well, which consists of a cylindrical body and a shock mechanism placed in it, a radiation unit with thrust shoes made in the form of wedges, which have teeth on the outside, a lever-spring mechanism clamp, attached to the lower part of the thrust shoes with the help of rods, grooves are made in the body, in which the above-mentioned thrust shoes are installed with the possibility of sliding on their surface, and elastic elements are installed between the upper part of the thrust shoes and the body.

Compared with I4| the proposed device is distinguished by the presence of the following features: r) - grooves are made in the body, in which the above-mentioned thrust shoes are installed with the possibility of sliding on their b 20 surface; - elastic elements are installed between the upper part of the support shoes and the body. that These distinctions are essential and ensure the achievement of the set task of a useful model.

Due to the fact that grooves are made in the housing, in which thrust shoes are installed with the possibility of sliding on their surface, the pressing force is transmitted to the walls of the well through the thrust shoes directly from the device body 29, which increases the pressing force while increasing the contact surface and reducing the contact forces on wedge sliding surface of thrust shoes, thanks to which the possibility of transmitting torsional forces from the casing to the walls of the well is also achieved by creating contact between the wedges of the thrust shoes and the walls of the grooves of the casing, which gives an additional opportunity to create torsional waves in the well, expanding the technical capabilities of seismic exploration. 60 Due to the fact that elastic elements are installed between the upper part of the thrust shoes and the housing, a more reliable fixation of the thrust shoes to the device body is achieved, elastic contact of the thrust shoes with the body is ensured both in the mode of pressing against the walls of the well and in the mode of moving the device in the well, which reduces the possibility of jamming of the device in the well and ensures high reliability of its operation. because the proposed useful model is explained by drawings Fig. 1 and Fig. 2. Figure 1 shows the general view of the device for seismic research in the well, Figure 2 shows the device in the process of being lowered into the well. The device has a cylindrical body 1, an impact mechanism 2, thrust shoes 3 located in grooves 4 of the body 71, elastic elements 5 attached to the upper part of the thrust shoes З and the body 1, a lever-spring clamping mechanism 6, hingedly connected to the lower part of the thrust shoes With the help of rods 7, which has a pressure lever 8 with a spring 9, a locking capsule 10.

The shock mechanism 2 can create shock pulse or alternating vibrations of the body 1 in arbitrary directions, for example, linear or torsional vibrations, as shown in Fig.1. The thrust shoes C are made in the form of wedges, which have teeth on the outside, and the grooves 4 in the housing are made with an inclination relative to the axis of the cylindrical 7/0 Housing 1 with the possibility of sliding on their surface the thrust shoes 3. The elastic elements 5 are springs with limited deformation , for example, flexible steel cables. In the above design of the device, a passive clamping mechanism b is used, in which to fix the lever 8 in the process of lowering it into the well, for example, a replaceable ceramic or glass locking hermetic capsule 10, filled with air under atmospheric pressure, whose strength is calculated so that under pressure of well fluid in/5B At a certain depth, which is the maximum in the research range, it will be destroyed.

The device works like this. First, before lowering into the well, the pressure lever 8 in the pressure mechanism 6 is in a pressed state and is fixed with the help of the capsule 10, accordingly, the spring 9 is in a compressed state (Fig. 2).

Before the start of seismic exploration work, the source is lowered into the well, while under the influence of the weight of the clamping mechanism 6, the thrust shoes C during the lowering are in the lowest position and are held on the housing 1 by elastic elements 5, which press them into the grooves 4 of the housing 1 in such a way that that the serrated outer surface of the thrust shoes Z does not protrude beyond the outer cylindrical surface of the housing 1. Under the pressure of the well fluid at a certain depth, which is the maximum in the range of research, the capsule 10 collapses and releases the pressure lever 8, which is pressed against the wall of the well under the action of the spring 9. The further movement of the clamping mechanism 6 stops, and the housing 1 continues its downward movement, while the stop shoes Z slide along the surface of the housing 1 upwards until they are pressed against the machine and the well. Further downward movement of housing 1 stops, the cable is loosened and the device is in working condition (Fig. 1).

To carry out seismic exploration works, shock pulse chn. is created using shock mechanism 2

Zo or alternating oscillations of the body 1 in arbitrary directions, for example, linear or torsional oscillations. These vibrations of the housing 1 are transmitted to the walls of the well through the thrust shoes Z, creating seismic vibrations in the space around the well. b

To transfer the device to another point of observation, it is lifted, while the body 1 moves relative to the thrust shoes Z and the clamping device 6 until the thrust shoes Z are in the extreme (or LOWER) position relative to the body 1, then the clamping mechanism 6 rises and the lever 8 slides along the wall of the well. At a given depth, lifting is stopped, the cable is loosened, while the clamping mechanism remains in place, the thrust shoes are pressed against the walls of the well under the weight of the casing, after which seismic surveys are conducted again.

Pressing may not occur if the diameter of the well in the place where pressing is carried out exceeds the "maximum allowable distance between the outer surfaces of the thrust shoes in the design of the device, with c, for example, in the cavern zone on the walls of the well. The maximum working stroke of the wedge thrust shoes (as shown in Fig. 1) is limited by the maximum permissible length of the elastic elements 5, which is selected to ensure the impossibility of solid particles getting into the grooves 4 of the body, thereby eliminating the possibility of the device jamming in the well. In this case, the device is moved to the place where it is pressed

Possible. c Since the positive effect of using the proposed device consists in increasing the reliability and efficiency of the source, therefore the task of a useful model is set - the improvement of the device is achieved. Sources of information: "c 1. Oomuproie eiesigotaodpeiis zeiztis zoshgse. OZ Raiyepi 4715470, 501M1/40. Yues. 29, 1987. 2. The clamping device of the wellbore device. Patent KY 2232886, 501M1/40. Publ. 20.07.2004. (22) 3. Device for excitation of elastic waves in a well. Ass. USSR Mo1226382, 501М1/147. Publ. 1986, "m bull. Mo15. 4. Borehole electromagnetic source of seismic waves. Patent TsOA 42209, 501M1/40. Publ. 15.10.2001, Bull. Mo9 (prototype). with

Claims (1)

The formula of the invention A device for seismic research in a well, which consists of a cylindrical body and a shock mechanism placed in it, a radiation unit with thrust shoes made in the form of wedges, which have teeth on the outside, a lever-spring clamping mechanism attached to the lower part of the thrust shoes with the help of rods, which is distinguished by the fact that grooves are made in the body, in which thrust shoes are installed with the possibility of sliding on their surface, and elastic elements are installed between the upper part of the thrust shoes and the body. b5