NL7808975A - METER SUITABLE FOR DETERMINING THE RADIUS OF THE PART OF AN OBJECT, OF WHICH THE CYLINDER CYLINDER IS THE GEOMETRIC BASIC FORM. - Google Patents

Description

'............... .... ·'; 'FPjjj | V * «• t VOB 5915

Hoekstra Technisch Handelsbureau B.V. Inventor: Oege Hoekstra

Groningen - The Netherlands

Meter, suitable for determining the radius of the part of an object, the circular cylinder of which has the geometric hasis shape.

The invention relates to a meter suitable for determining the radius of the part of an object, the circular cylinder of which is the basic geometric shape.

In practice, a meter with the capability described in the previous paragraph is of great use, especially in those cases where only a portion of the item in question is available or accessible, for example, only the top part of a burial in the ground tube. However, such a meter will lose much of its value if, on the one hand, its flexible applicability is not accompanied by a measuring method in which the measuring feeling of the operator of the meter is completely or almost completely switched off, so that the measuring results are not influenced by the skill of the operator.

The object of the invention is therefore to provide a meter with the above-described properties.

According to the invention a meter is now provided which is characterized by first means with which, when performing the measurement, a chord between two points of the circumference of a circle, belonging to the cross section of the object in the plane perpendicular to the axis of the object part, which has the basic geometric shape of the circle cylinder, can be delimited, second means for measuring the arrow of the chord, and third means for making the arrow size or the associated radius size detectable.

The invention is further elucidated with reference to the drawing. In the drawing, Fig. 1 shows in elevation an exemplary embodiment of the meter according to the invention, and in Fig. 2 a preferred embodiment of a chord limiter belonging to the meter.

In the drawing, 1 shows a part of the outer circumference of 7808975 * -2 a "tube whose radius r is to be determined, while 2 represents an embodiment of the meter according to the invention, comprising a dial gauge 3 with two scales relating to both the measurement of the outer radius, represented by scale k, and the measurement of the internal radius, represented by scale 5, of the tube and a pointer 6 rotatable via the central axis 7. The meter comprises furthermore, a support beam 8 with a square cross-section, at right angles to which chord boundary members in the form of congruent flat beams 9 and 10 with attachment ends 11 and 12, which are wedge-shaped with sharp edges 13 and 1U, are mounted. choose whose wedge-shaped end is obtained by beveling the respective end of the beam in two planes, which two planes n each other. cut at an angle x of about 120 ° and forming a 'sharp fatid' 23 (fig. 2). 1 ''

The connection of the beams 9 and 10 to the supporting beam 8 is effected by means of the detachable clamping members 15 and 16, whereby the beams are clamped against the end faces of the beam 8, and it is possible to position the beam 20 sets 9 and 10 by precisely adjusting their longitudinal displacement. The edges 13 and 11 are exactly parallel to each other and the distance between these edges, when the meter is placed on the base to be measured, represents the length of the bounded chord AB. This distance k can for instance amount to 10 cm. However, this is not essential and said distance is partly chosen depending on the radius range to be measured.

The probe is indicated by 17, provided with probe tip 18, the shape of which is variable and can be adapted to the accuracy requirement and the measurement.

The sensor 17 is axially resiliently displaceable within extreme limits in a manner known per se, not shown in more detail, the displacement movement being transferred to the pointer 6 for rotating it. For this purpose, the probe 17 engages the central shaft 7 via a rack and pinion system. The probe is returned to its initial position (rest position) after measurement by means of a spring system 7808975 xtf ^ 3%

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while this spring system also ensures that the probe tip 18 exerts a substantially constant measuring pressure on the object surface.

The axial displacement distance of the probe 17 is selected such that the pointer can rotate at least twice 5 through an angle of 360 ° from the detachable zero position. By choosing the position which is reached after one rotation through 360 ° as the lockable zero position of the pointer, the meter is suitable for measuring both the internal and external radius of the tube.

Although not necessary, partly due to symmetry considerations, it is preferable to select the position of the probe 17 relative to the chord boundary members 9 and 10 such that the probe axis connects the line connecting the centers of the edges 13 and Th intersects the center, of course the probe axis is perpendicular to the plane through the edges 13 and 14.

By designing the extension ends 11 and 12 of the chord boundary members in the form of two mutually parallel edges 13 and 1U, which have a certain length of, for example, 1 cm, an elimination of the influence of the operator of the meter on the measurement result is promoted - 0 third. The edges in question, through the interaction of the curved surface of the object on the straight edges, exert a self-aligning influence on finding the correct measuring position of the meter on the object surface, which is achieved if the edges 13 and 11 * coincide with the descriptive rights of the circular cylinder jacket.

In addition to the use of the meter according to the invention for direct radius measurement of curved surfaces of circular cross section, it is also applicable for performing comparative measurements of analog shaped surfaces in which the circular cylinder is not the basic geometric shape. For example, the meter could be used to transfer a shape of an aircraft wing in a wind tunnel from a pilot model to the actual wing to be built.

The embodiment of the meter shown in the drawing is that of a directly indicating radius meter. When the meter is placed on the outer surface of the tube 1, the probe will be pressed in relative to the plane by the edges 13, 11 * by a distance equal to the arrow p of the chord AB. For the direct indication of the 7808975 7 u radius, the scale k is based on the formula pr - V r2 - (Jk) 2, in which formula p, as stated, is practically determined and k if the bounded chord is a fixed meter constant is.

When the internal radius of tube 1 is measured, the probe will be driven outward under the influence of the spring tension beyond the surface passing through the edges 13, 1. The radius can then be read directly on the scale 5, which is of course also based on the aforementioned formula.

Although the embodiment of the meter described above is extremely practical and handy in practice, the meter according to the invention is not limited thereto. It is thus possible to provide the meter with a scale that directly indicates the arrow size, with the corresponding radius size in one. table equipped for this purpose can be found. '·· ··. *

As other important embodiments, one can also mention those in which the radius size can be read directly mechanically-digitally or electronically-digitally by means of devices known per se for this purpose.

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Claims (4)

1. Meter suitable for determining the radius of the part of an object, the circular cylinder of which is the geoiaetric basic shape, characterized by first * means which, when performing the measurement, require a chord between two pegs of the extraction of a circle. 5 ran to the cross section of the object in the plane perpendicular to the axis of the object part of the circle cylinder having a basic geometric shape, can be delimited, second means for measuring the arrow of the chord, and third means for detecting * the arrow size or the associated radius size. Meter according to claim 1, characterized by a dimensionally stable rigid draw beam, provided with two laterally extending rigid chord limiting members to be placed on the object to be measured, of which chord limiting members the end to be placed on the object is chamfered, thereby forming a sharp edge, wherein the two sharp edges are mutually parallel, and displaceable axially under spring tension by means of a probe which is movable within the area between the sharp edges or the extensions thereof and in the middle of the distance between the sharp edges at right angles to the plane through the sharp edges by the draw beam is guided, while the displacement of the probe as a measure of the arrow is observable through coupling of the probe with the third means. 3. Meter according to conclusion. 2 »characterized in that the chord boundary members are two separate congruent members in the form of flat beams of rectangular cross-section, the ends of which are to be placed on the object to be measured are analogously Mjjï: · | 25, which chord limiting members are connected at right angles to them by means of clamping members at right angles: ... ...::. Slidably connected on the draw beam and the probe axis according to which the probe can move the connecting line between the r : · Ϊ́ intersects the center of the sharp edges of the chord boundaries in the middle. 30. Meter according to claims 2-3, characterized in that "1 1" is that the meter is constructed as a dial gauge for direct clock reading Si of the arrow gauge or the associated radius gauge with the probe connected according to the rack-and-pinion principle with the central ΐ -:. tl :, 7808975; r axis of a pointer movable along a pointer scale, as known per se.