KR200200714Y1 - Televiewer logger centralizer - Google Patents

Abstract

The present invention relates to a borehole acoustic scanner (Televiewer), more specifically a centralizer for positioning the televiewer logger in the borehole central axis during televiewer exploration. ).

The centralizer 10 of the present invention has upper and lower fixing frames 12 and lower fixing frames 14 formed on the upper and lower, respectively, and a plurality of bow fixing parts 18 and 18 'of the upper and lower fixing frames 12 and 14, respectively. Bows 16 are combined.

The upper fixing frame 12 is composed of three parts of A, B, and C again, and the A portion of the upper fixing frame 12 is manufactured in the form of a male screw 20 so as to be combined with the B and C parts. The inside of the C portion is formed in the form of a female screw 22.

When the bow 16 is inserted into the bow fixing part 18 of the A part and the B part is coupled to A, the plurality of bows 16 are fixed to the upper fixing frame 12. In addition, the male screw 20 on the top of the A portion is formed with a plurality of gaps, which is the upper fixing frame 12 is in close contact with the logger 400 when the C portion is coupled thereto.

The lower fixing frame 14 is composed of D, E parts, and similarly to the upper fixing frame 12, the D part is manufactured in the form of a male screw 20 'to be combined with the E part, and an internal thread 22' is formed inside the E part. ) Form.

Apply the bow 16 to the bow retainer 18 'in part D in the same way as in the upper retainer 12. Inserting and engaging the E part, a plurality of bows 16 are fixed to the lower fixing frame 14. Since the inner diameter of the lower fixing frame 14 is slightly larger than the diameter of the logger 400, the lower fixing frame 14 can move freely even when the centralizer 10 is fixed to the logger 400.

Description

Televiewer Logger Centralizer

The present invention relates to a borehole acoustic scanner (Televiewer), more specifically a centralizer for positioning the televiewer logger in the borehole central axis during televiewer exploration. ).

In general, the televiewer is a kind of advanced physical logging technology that can identify the physical properties and joint development state of the rock exposed on the empty wall by scanning the borehole wall with an ultrasonic beam. That is, from the borehole center to the hollow wall The amplitude and gaze of the ultrasound beam, which radiates the ultrasound beam almost vertically, reflects off the cavity wall and returns back to the borehole center, are the key data for televiewer measurements. However, if the ultrasonic sensor is slightly out of the borehole axis during the measurement process, the amplitude of the ultrasonic wave reflected from the cavity reacts sensitively, so the ultrasonic sensor should always be located at the borehole center during the televiewer measurement. .

The ultrasonic sensor is attached to the lower end of the televiewer logger (40 mm in diameter, about 2.3 m in length) as shown in FIG. Therefore, when the logger is located at the borehole center, the ultrasonic sensor is also placed at the borehole center.

The centralizer 100 developed by the conventional German DMT company is formed in the upper and lower fixing frame 120 and the lower fixing frame 140 at the upper and lower, respectively, as shown in Figure 1 between the upper and lower fixing frame (120,140) It is composed of a plurality of bows (160). When a cylindrical logger of about 2.3 m in length is inserted into the borehole, a plurality of centralizers are required to fix the logger to the borehole center. That is, by installing the centralizer 100 in the upper and lower ends of the logger 400 as shown in Figure 2 to support the borehole wall by the bow of the centralizer 100 so that the logger 400 is always in the center of the borehole. . The upper and lower fixing frames 120 and 140 are made of copper and zinc alloy, and the bow 160 is made of steel having good elasticity.

The upper fixing frame 120 of the centralizer 100 is fixed to the logger 400 and the lower fixing frame is designed to move freely, so that the diameter of the borehole is changed. As the bow moves elastically in response to anger or flexure, the logger 400 is always at the borehole center. Since the length of the logger 400 reaches 2.3m, the centralizer 100 should be installed at the top and bottom of the logger 400, respectively.

One of the important functions in televiewer exploration is to find out the exact inclination of the joints on the borehole wall. To this end, since it is necessary to know the exact direction in which the ultrasonic beam is emitted (angle from magnetic north), a three-component magnetometer 200 is installed at the lower end of the televiewer logger 400 capable of measuring a geomagnetic field. The centralizer 10 directly installed at the lower end of the logger may be said to be efficient in locating the ultrasonic sensor 300 in the borehole center only when the magnetometer 200 is positioned at the position of the magnetometer 200. By the way, the centralizer (100) made by DMT company is made of copper, zinc alloy and steel (material) affecting the geomagnetic field, so that the lower end of the logger 400, that is, the magnetometer 200 Since it can not be installed at the position of the magnetometer 200 as shown in Figure 2 is spaced apart from about 50 cm and used. If the borehole is not bent and its diameter is also constant and the wall is smoothed, it can be seen that the ultrasonic sensor 300 is located at the center of the borehole even if the centralizer is installed as described above. However, since most of the boreholes are somewhat curved, the diameter of the bore varies greatly, and the wall is rough, so the location of the centralizer installed at the bottom is very important. In other words, the centralizer 10 at the lower end of the ultrasonic sensor 300 should be installed as close as possible to the ultrasonic sensor 300 so that the ultrasonic sensor 300 may be positioned on the central axis of the borehole. Therefore, existing DMT company The centralizer 100 has a problem that the ultrasonic sensor 300 is separated from the borehole central axis.

The present invention has been made to solve the above problems, the purpose of which is the ultrasonic sensor because the DMT's centralizer is made of a metal material affecting the geomagnetic field is installed at least 50 cm away from the bottom of the logger (magnetometer position) There is a problem that the part is separated from the borehole central axis. Therefore, to provide a centralizer made of MC Nylon (Monomer Cast Nylon) material does not affect the geomagnetic field.

Figure 1 is a photograph showing a conventional DMT company centralizer

2 is a position view of the centralizer installed in the televiewer logger.

Figure 3 is a photograph showing the centralizer of the present invention

4 is a front view showing the centralizer of the present invention;

5 is an enlarged view of the upper fixing frame of the present invention

6 is a detailed view of the upper fixing frame A portion of the present invention

7 is a detailed view of the upper part B frame of the present invention

8 is a detailed view of the upper fixing frame C portion of the present invention

9 is an enlarged view of a lower fixing frame of the present invention

10 is a detailed view of the lower part D frame of the present invention

11 is a detailed view of the lower part of the fixed frame E of the present invention

12 is an enlarged view of the present invention bow

<Explanation of symbols for main parts of the drawings>

(10): Centralizer

(12): upper fixing frame

14: bottom fixing frame

16: bow

18 '(18'): Bow fastener

(20) (20 '): Male thread

(22) (22 '): Female thread

Hereinafter, the configuration and operation of the present invention with reference to the accompanying drawings.

2 is a position diagram of the centralizer installed in the televiewer logger,

3 is a photograph showing a centralizer of the present invention,

4 is a front view showing a centralizer of the present invention,

5 is an enlarged view of the upper fixing frame of the present invention,

6 is a detailed view of the upper fixing frame A portion of the present invention,

7 is a detailed view of the upper fixing frame B of the present invention,

8 is a detailed view of the upper fixing frame C portion of the present invention,

9 is an enlarged view of the lower fixing frame of the present invention,

10 is a detail view of the lower portion D frame of the present invention,

11 is a detailed view of the lower portion E frame of the present invention,

12 is an enlarged view of the present invention bow, the centralizer 10 is the upper and lower fixing frame 12 and the lower fixing frame 14 is formed in the upper and lower, respectively, the upper and lower fixing frame (12, 14) A plurality of bows 16 are coupled to the bow anchors 18, 18 ′.

A plurality of ' 'Type active part 18 is formed in the upper part of the A part with the female screw 22 formed therein, respectively, the two parts are formed with the male screw 20 and the lower part consisting of two parts D and E. At the outer periphery of the fixing frame 14 a plurality of ' 'A part of the A and D is formed by forming a male screw 20', which is combined with the E part having the female screw 22 'formed at the lower part of the D part having the' type active part 18 'formed therein. It is a structure in which a bow 16 protruding from the upper and lower ends is inserted into the 'type slide part 18 and 18', and B and C are coupled to the upper part of the A part and E is coupled to the lower part of the D part. When the fixing frame 12 and the lower fixing frame 14 are coupled as the bow 16, the upper and lower ends of the bow 16 are protruded as shown in FIG. ' Inserting into the 'type slide section (18) (18') and screwing the B and E parts respectively, the upper and lower fixing frame 12, 14 is coupled as a plurality of bows 16 and the upper fixing frame 12 The upper part of the B portion is formed in the male screw 20 having a plurality of gaps, the upper fixing frame 12 is in close contact with the logger 400 when the C portion is coupled. The inner diameter of the lower fixing frame 14 is the diameter of the logger 400 Since it is made slightly larger than the centralizer 10 is fixed to the logger 400 even when the lower fixing frame 14 is designed to be free to move.

The bow 16 was manufactured in a bent form as shown in FIG. 12 by applying heat. This material is very elastic at room temperature, so it is deformed when it is temporarily applied from the outside and returned to its original state. The thickness of the bow 16 is about 4 to 5 mm in consideration of the elastic force, the width and height are determined according to the diameter of the borehole.

In the state in which the centralizer 10 of the present invention is assembled, the C part of the upper fixing frame 12 is slightly released to insert two centralizers 10 into the logger. One centralizer 10 is located at the top of the logger 400 and the other is located at the bottom of the logger 400, and then again tightens the C portion of the upper fixing frame 12, the two centralizers 10 upper fixing frame 12 is the logger 400. It will be fixed at. In this state, when the logger 400 is inserted into the borehole, the lower fixing frame 14 of the centralizer 10 can move freely, so even if the bow 16 is pressed by the borehole wall, the logger 400 smoothly follows the borehole. Will move. The bow 16 also has sufficient elastic force to position the logger 400 in the borehole central axis.

Referring to another embodiment of the present invention, the present invention is a centralizer designed to position the televiewer logger on the borehole central axis. However, there are many types of equipment for measuring various physical properties using boreholes such as radar probe antenna, speed logging logger, and density logging logger. Their shape is generally similar to a televiewer logger, and each measurement technique requires not only to place the logger on the borehole axis, Measurements are often difficult when using materials that affect the geomagnetic field or electromagnetic wave. Therefore, the centralizer of the present invention can be fully utilized not only for televiewer exploration but also for the above various logging techniques by only modifying the size of each logger.

(Variants, applications and legal interpretations)

The present invention is not limited to the above-described specific preferred embodiments, and any person having ordinary skill in the art to which the present invention pertains may make various modifications without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

Unlike the conventional DMT company's centralizer, which is made of metal, the centralizer of the present invention is manufactured using MC nylon which does not affect geomagnetic field measurement, and MC nylon is different from polymerization method and molding method compared to general nylon-6. Hana Caprolactam is a polymer of crystals prepared by using chemical components as catalysts. Its mechanical strength and self-lubrication are excellent, and it is widely used for heat resistance and metal replacement. The centralizer of the present invention manufactured by MC nylon is the lower part of the logger (magnetometer). Location) so that it can be said to be efficient to place the ultrasonic sensor on the borehole central axis. In addition, since the MC nylon material is about 1/7 lighter than metal and its strength and elasticity are comparable to those of the metal material, the centralizer of the present invention is inferior in function in comparison with the metal centralizer. Moreover, it is a very useful design that the manufacturing cost of the centralizer using MC nylon can be reduced to about 25% of the existing manufacturing cost.

Claims (1)

In the outer periphery of the upper fixing frame 12 consisting of three parts A, B, C 'Type active part 18 is formed in the upper part of the A part with the female screw 22 formed therein, respectively, the two parts are formed with the male screw 20 and the lower part consisting of two parts D and E. At the outer periphery of the fixing frame 14 a plurality of ' 'A part of the A and D is formed by forming a male screw 20', which is combined with the E part having the female screw 22 'formed at the lower part of the D part having the' type active part 18 'formed therein. Inserting the bow 16 protruding the upper and lower ends into the 'type active part (18) (18'), and combines B and C to the top of the A part, and E is combined to the bottom of the D part is formed of MC nylon material Televiewer Logger Centralizer