RU27154U1 - SHOCK ABSORBER OF ELEMENTS OF BOTH GEOPHYSICAL INSTRUMENT - Google Patents

Abstract

1. The shock absorber of the elements of the downhole geophysical instrument, comprising a housing in which the protected element and the vibration isolating element are placed with a gap, characterized in that the vibration isolating element is placed in the outer grooves and in the pairwise transverse grooves of the housing, the width of the jumpers between the grooves in the diametrical plane not exceeding the diameter protected element, and the axis of symmetry of each pair of grooves are offset from each other. 2. The shock absorber according to claim 1, characterized in that the vibration-isolating element is made in the form of a set of rings. The shock absorber according to claim 2, characterized in that the vibration-isolating element is made cord-shaped and placed in a spiral outer groove of the housing.

Description

OKO2114177

.JL.

MKI: Е21В47 / 01

SHOCK ABSORBER OF ELEMENTS OF BOTH GEOPHYSICAL INSTRUMENT.

The utility model relates to the field of geophysical studies of oil and gas wells during drilling with downhole geophysical devices embedded in a drill string, and more particularly, to means of vibration protection of individual elements of downhole geophysical devices that are characterized by increased fragility, such as gas-filled meters, scintillation detectors, photoelectronic multipliers used in the radioactive logging equipment made of glass and having, as a rule, a cylindrical shape.

In known devices (P. Zeltsman, Designing equipment for geophysical research of wells. - M .: Nedra, 1968), rubber gaskets mounted in a hollow cylindrical body were used to vibration isolate a gas-filled meter in geophysical instruments on a cable. This solution does not provide effective vibration protection with a significant length of the element to be protected, as well as with a high level of vibration, which is the case in equipment operating in the process of drilling.

A device is known for holding and damping shock in telemetry devices (German patent. No. 3032299 dated 03/26/1981), in which the protected element is vibration-proofed by means of a set of alternating spacer sleeves and rings of vibration-isolating material covering the protected element and placed inside the hollow cylindrical body . The set is axially preloaded

natural frequency. In addition, in this device, a set of rings and bushings protrudes beyond the housing, which leads to an increase in overall dimensions in the radial direction.

The proposed shock absorber provides effective vibration protection of the elements of the downhole geophysical instrument, characterized by increased fragility and a high frequency of natural vibrations with smaller overall dimensions.

The shock absorber includes a hollow cylindrical body, inside of which the protected element is placed with a radial clearance. The housing has external grooves in which transverse grooves are made in pairs. In the grooves and grooves are laid rings of vibration-isolating material. The width of the jumpers between the grooves in the diametrical plane does not exceed the diameter of the protected element. The axis of symmetry of each pair of grooves are offset relative to each other, for example, along a helical line.

Figure 1 shows a General view of the shock absorber.

Figure 2 shows a top view of the section BB.

The protected element 1 is placed with a gap in the hollow cylindrical body 2. The outer grooves “K” are made in the body, and the pairwise transverse grooves “P. In the grooves and grooves are placed rings 3 of vibration-isolating material, for example, rubber. The sections of the rings located in the grooves cover the protected element, as shown in the top view of the section B-B (figure 2). For this, in each pair of grooves, the width of the jumper "A between the grooves does not exceed the diameter" D of the protected element.

Thus, the sections of the rings 3 located in the grooves inside the housing 2 form a vibration-isolating spatial network that is in tension due to the elasticity of the tensile rings, in which the protected element is suspended.

another friend at 120 degrees. A particular embodiment of the shock absorber may have any number of pairs of grooves offset to any angle.

The placement of the rings in the grooves of the housing 2 can reduce the diameter of the shock absorber.

An additional advantage of the proposed shock absorber is the provision of self-alignment relative to each other of the two protected elements, such as a scintillation detector and a photoelectronic multiplier.

Another embodiment of the shock absorber is possible, in which the housing has an external helical groove in which the transverse grooves are made in pairs, and in the groove and grooves there is a cord of vibration-isolating material in a taut state, fixed by the ends in the housing.

The proposed solution provides vibration protection of the protected element from the radial component of vibrations. To protect against the axial component, other solutions can be used, for example, those given in the book. Zeltsman P.A. Design of equipment for geophysical research of wells. - M .: Nedra, 1968.3

Claims (3)

1. The shock absorber of the elements of the downhole geophysical instrument, comprising a housing in which the protected element and the vibration isolating element are placed with a gap, characterized in that the vibration isolating element is placed in the outer grooves and in the pairwise transverse grooves of the housing, the width of the jumpers between the grooves in the diametrical plane not exceeding the diameter protected element, and the axis of symmetry of each pair of grooves are offset from each other.  2. The shock absorber according to claim 1, characterized in that the anti-vibration element is made in the form of a set of rings. 3. The shock absorber according to claim 2, characterized in that the vibration-isolating element is made cord-shaped and placed in a spiral outer groove of the housing.