DD200035A1 - DEVICE FOR RETRACTING PROBES AT MEASUREMENTS IN FLAT DRILLING - Google Patents

Abstract

The invention can be used in all well probes in which, due to the nature of the measurement, pressing the probe against the borehole wall is required and which are used in flat bores and therefore must have a small probe diameter and small probe length. The object of the invention is to eliminate the problem of interference of the probe and to increase the effectiveness of the pressure in the interest of improving the quality of the measurement result. The task is to eliminate the coupling of compression spring and an angle lever in which horizontally acting forces occur, which reduce the effect of the pressure. The object is achieved in that the compression spring rotatably mounted on a position pin and the lower end of the compression spring is connected to the pressure arm directly movable in its lower third. Main field of application of the invention are the caliber measurement and radiometric measurements in flat bores. Fig. 1.

Description

Field of application of the invention

The invention is used in caliber probes for caliber measurement in flat bores. Their use in well probes for other types of measurement, e.g. radiometric measurements as a pure pressure system, is also possible and appropriate.

Characteristic of the known technical solutions

It is known a technical solution and is part of the practice in VEB geophysics, in which a compression spring via a guide pin, which sits in a guide bush and an angle lever is connected to the Andrückarm. When the probe is pressed against the borehole wall, ie when the pressure arm is spread in the direction of the borehole wall, horizontally acting forces act on the outlet opening of the guide bush, counteracting or weakening the vertical direction of action of the compression spring. As the probe leaks, water enters, causing it to become unusable. With the reduction of the spring force, which is also inversely proportional to the increasing spread angle due to the vertical action of the spring, the pressure of the probe is lowered to the borehole wall.

For use in deep wells, which also allow a much larger probe diameter due to their much larger hole diameter, other technical solutions for pressure devices are known. These solutions

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Although compensate the disadvantage of O.g. Solution, but have a very complicated mechanical structure / negatively affects both the probe diameter and the probe length. They can therefore not be used in small-caliber probes (small borehole diameter for flat bores).

Object of the invention

The object of the invention is to eliminate the susceptibility of the probe, i. also the high failure rate and the assurance of a high quality measurement result of the caliber measurement. At the same time, with the intended combination of the caliber measurement with the radiometric measurements by the secure pressing of the probes against the borehole wall, a substantial improvement in the quality of the relevant measurement results is achieved with this aim.

Explanation of the essence of the invention

The technical problem to be solved is to eliminate the coupling of compression spring and lever mechanism. The vertical direction of action of the compression spring and the guide pin in relation to the oblique position of the angle member after the Abspreizrichtung opposite direction are the causes of the deflection of the guide bush and for the most part for decreasing with increasing Abspreizwinkel spring force.

According to the invention the object is achieved in that the compression spring is rotatably mounted on a position pin in the probe body and the other end of the compression spring is connected to the pressure arm in its lower third directly movable. With this solution eliminates the lever mechanism and thus its coupling via a guide pin with the compression spring completely. The change in the position of the compression spring during spreading results in a reversal of the pressure ratio to the previous solution. With increasing Abspreizwinkel also decreases

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Pressure of the opening spring too. The Andrückarm is always under proper pressure on the borehole wall and in turn pushes the probe reliably to the opposite borehole wall. In the case of combination with radiometric measurements, the sources are also safely attached to the borehole wall.

From management example

An embodiment will be explained below with reference to FIG.

The Andrückarm 1 is pivotally mounted on the pin 2. The compression spring assembly 3 is pivotally mounted on the position pin 4 in its upper point of attack. The lower point of the compression spring assembly 3 engages the pressure receiving 5 of the Andrückarmes. The magnitude of the vertical compressive force F is influenced at an opening angle * C = 0 by the offset a between the pin 2 and the position pin 4 and the point of application to the pressure receiving line 5. The pressure force is relatively low at an opening angle oC = 0 and increases with increasing opening angle to a maximum value.

Claims (1)

232 138 O Invention claim: Device for pressing probes in measurements in flat bores, consisting of a compression spring and a pressure arm, characterized in that the compression spring rotatably mounted on a position pin in the probe body and the other end of the compression spring is connected directly and movably to the Andrückarm in its lower third For this 1 page drawing