SU568923A1 - Means for arresting pendulum of long-period borehole seismometer - Google Patents

Description

one

This invention relates to seismometry. The device can be used for remote arresting of manhole borehole low-frequency seismometers.

A device for arresting a model of a low-frequency vibrometer 1 containing an electromagnetic arresting device is known. An auxiliary electromagnet is mounted on the sensor housing, the end of the arresting core is conical, and there is a conical recess on the master. This device is used arresting device with an electromagnetic drive.

However, the specified arresting device cannot be used for borehole measurements due to the lack of proper remote arresting.

A device for arresting a trough of a seismometer 2, comprising a threaded rod and two nuts, is known. However, this device may not be used in downhole measurements due to the lack of remote control capabilities.

Both devices described above are designed for use in devices used on the surface.

A device for remote arresting of a borehole short-period seismometer 3 is known, comprising a mechanism

a drive consisting of an electric motor with a gearbox, a friction clutch and a catch valve with a spindle. The arrester is connected with the reversible electric motor and arresting is carried out by moving the inertial mass of the rotary screen along the axis, i.e., moving the thumbwheel out of the working stroke and pressing it to the instrument case. In this case, the working (flat) springs that support the tiller, are output to a non-linear region, internal tension increases in them and residual deformations occur, changing such parameters of the seismometer as, for example, the period of natural oscillations of the tambourine and its attenuation. . Thus, this arrester introduces significant errors in downhole measurements.

The aim of the invention is to improve the accuracy by eliminating residual deformations of the springs of the pendulum during the arresting process and, as a consequence, to increase the accuracy of the borehole measurements.

The goal is achieved by introducing into the device a threaded connection between a rod with

threading and coupling-nut, and arresting the master seismometer in the working position.

Indeed, if the arresting device is installed in the center of the center or on the vertical axis passing through the center of gravity of the tartar, where

when the torque value is equal to or close to zero, it provides arresting of the core in all major directions and removes shock loads from the working springs of the master, which are unavoidable when the seuke and the seismometer rise in the wells. The working position of the tangent for seismometers of the radial type is taken such that the tambus farm is located parallel to the base of the instrument. In this case, the threaded screw easily and freely enters the thread of the coupling-nut and, while holding the valve in its working position, keeps the seismometer parameters unchanged by eliminating the occurrence of permanent deformations during the arresting.

Therefore, the purpose of the invention is achieved in that the arresting device is made in the form of a rod with four symmetrical threaded protrusions and a taika coupling mounted on the frame of the tambourine and made with four symmetrical slots, which are twice as wide as the projections, coaxially arranged on the vertical axis associated with a ratchet drive and a sliding slide fit with a bracket on the base of the seismometer body.

The drawing shows a device for fixing the face of a well-long-period seismic meter. It contains a rod 1, having four symmetric threaded protrusions, and a coupling nut 2, which has four symmetrical grooves, and the width of the protrusions is two times smaller than the width of the grooves of the coupling-nut. All Biests have the same multiple thread, and from the front sides of each thread turn, the chamfer is peeled off: the 1st thread and the light thread of the joint.

The nylon end of the figure bar 1 is fixed on the axis of the ratchet mechanism 3, controlled by the electromagnetic drive of the relay 4 niagokogo finder. Its upper end with a slip enters the hole in the hub of the bracket 5, fastened to the base 6 of the seismometer body. The hole of the gear of the ratchet mechanism and the hole of the sleeve of the bracket are located coaxially on the same vertical axis. The coupling nut 2, located sooono with the gear of the ratchet mechanism, is fixed by the master 7 of the seismometer.

The device works as follows.

When locking, the articulator of the seismometer is in the working position, and DC pulses are applied to the winding of the relay 4 of the stepping finder. When the stepping relay is activated, the shaped rod 1 is rotated around its axis. In this case, the thread of the protrusions of the rod enters the thread of the protrusions of the coupling-nut 2, fixed on the flange 7 of the seismometer. With the coincidence of the axes of symmetry of the protrusions of the rod and the coupling nut, a multi-turn threaded connection occurs, and consequently, the locking of the seismic meter.

When uncrossed, as well as when blocking the seismometer, direct current pulses are supplied to the winding of the horn relay 4. The device is uncaged if the axes of symmetry of the projections of the rod 1 coincide with the axes of symmetry of the slots of the coupling-nut 2.

Monitoring of the arresting is carried out with the help of a ground control panel.

The proposed device has a high reliability of arresting the downhole seismometer and eliminates the occurrence of residual deformations of the torsion spring during the arresting process.

Claims (3)

1. USSR Author's Certificate No. 280893, class, G 01V 1/18, 1969. 2. Equipment and methods of seismometric observations in the USSR, M., “Science, 1974, p. 55. 3. The author's certificate number 475581, class, G 01V 1/16, 1967 (prototype).