RU2601206C2 - Linear displacement probe with a universal self-centering system - Google Patents

Abstract

FIELD: measuring equipment.

SUBSTANCE: invention relates to devices differentiating by mechanical measuring means. Linear displacement probe with a universal self-centering system comprising an internal base and external base with fixed internal and external rotation rollers, at least three on each base, serially connected to each other by a belt, chain or rope, wherein when the belt, rope or chain is moved along its perimeter, said rollers of the internal base can rotate in opposite direction relative to said rollers of the external base, spring-loaded roller is additionally inserted to tighten a section of the belt, chain or rope between external rollers, so that the above section of the belt, chain or rope does not touch the rollers arranged on other base.

EFFECT: linear displacement probe with a universal self-centering system has no temperature and time zero drift due to using the universal self-centering system as a targeted object of forces to be measured.

1 cl, 3 dwg

Description

The invention relates to devices characterized by mechanical means of measurement.

 A known linear displacement meter with a universal self-centering system, in which the measuring rod acts on the inner base of the universal self-centering system. The universal self-centering system contains an external and internal base on which external and internal rotation rollers are fixed. The number of rollers on each of the bases is equal to and at least three. The rollers of the external and internal bases are alternately and sequentially interconnected by a closed flexible cable, chain or belt. When the cable, chain or belt is displaced along its perimeter, all the rollers have the same linear velocity component, and the direction of rotation of the rollers of the outer base is opposite to the direction of rotation of the rollers of the inner base. If the rollers of the inner base are in volume V, then the rollers of the outer base must be outside this volume. One of the properties of a universal self-centering system is that after the termination of the external forces between the bases, the internal base always returns to its original central position, and this positioning does not depend on the tensile force of the springs inserted in series with the cable, chain or belt, and temperature. Another property of the universal self-centering system is that the force P acting between the bases is evenly distributed between the rollers. In a known linear displacement meter, tension springs are inserted into the gap of a closed cable, chain or belt. Under the action of alternating loads between the internal and external bases, the cable, chain or belt oscillate along its perimeter (DE202012008845U1).

 The disadvantage of this invention is that the tension springs can touch the rollers of rotation, which can lead to partial or complete loss of properties of a universal self-centering system.

 The aim of the invention is to eliminate this drawback.

 This goal is achieved in that one roller is replaced with a pair or more of the replacement rollers, provided that a portion of the cable, chain or belt connects these rollers directly and does not touch the rollers from another base. There can be several such replacements for rollers of any base. The portion of the cable, chain or belt connecting the replacement rollers is used to tension the cable, chain or belt. The impact of forces on these areas does not affect the properties of a universal self-centering system.

 In a specific embodiment, the linear displacement meter with a universal self-centering system comprises a housing 2, which acts as an external base, and an internal base 1, on which the measuring rod St. The rotation rollers 3,4, 5 are fixed on the inner base 1. The rotation rollers 6, 7, 8, 9 are fixed on the outer base 2. The rollers 6 and 7 replace one roller that would have occurred in a conventional universal self-centering system. The section of the belt S, cable or chain connecting the rollers 6 and 7 is used to tension the roller 10, spring-loaded with the spring F. The influence of external forces on this section does not affect the properties of the universal self-centering system. The movement of the measuring rod St relative to the guide bushings K1, K2 acts on the inner base 1. The inner base 1 is moved together with the toothed bar Zp. The translational movement of the gear rack is converted into the rotational movement of the gear Zr and the associated arrow 12, indicating the magnitude of the pressure difference on the scale 11. The measuring tip Sp is designed to contact with the measured object.

In FIG. 1 shows an upper cross section of a linear displacement meter.

In FIG. 2 shows a lower cross section of a linear displacement meter.

In FIG. 3 shows a longitudinal section of a linear displacement meter.

In FIG. 4 shows the appearance of a linear displacement meter.

Claims (1)

A linear displacement meter with a universal self-centering system, containing an internal and external base with internal and external rotation rollers fixed to them, at least three on each base, connected in series with each other by a belt, chain or cable, and when moving the belt, cable or chain along its the perimeter of these rollers of the inner base are made to rotate in the opposite direction relative to these rollers of the outer base, additionally introduced a reinforced roller used to tension a portion of a belt, chain or cable between the outer rollers so that the specified portion of the belt, chain or cable does not touch the rollers located on another base.

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