DE322143C - Precision measuring device for determining the coupling ratios of locomotive axles - Google Patents

Description

Precision measuring device for determining the coupling ratios of locomotive axles. There are already precision measuring devices for determination. the coupling ratios of locomotive axles became known, in which V-shaped Measuring jaws by means of a spindle with right-hand and left-hand thread in opposite directions Senses moved and pressed against a crankpin or shaft; these known facilities are also provided with a graduated on a Sliding centering element for measuring the distances between the crankpin and the rod Axis 'as well as' - equipped with a 'finite graduation' - Limbus, on which a rotatably mounted arm moves to the. Inclination of the crankpin to be determined with the line connecting the center of the axis against the horizontal.

The subject matter of the present invention differs from these ' known apparatus by a special arrangement of the above-mentioned main parts, for the purpose of obtaining more accurate measurement results in a simpler way than before. this is achieved by the fact that the measuring jaws and the centering element are aligned in a straight line and slide the same hollow rod, which has the diameter of a large semicircular Limbus - forms, with the rotating arm moving on this limbus with two Is provided with spirit levels. The distance between the center of the axles and the center of the crank pin is measured from the plane of symmetry of the two movable measuring jaws and can can be read directly on the guide tube without any arithmetic activity. The fact that the guide tube has the diameter of the <semicircular limbus forms, allows: the latter to be carried out with a large radius without the apparatus this becomes bulky. The large diameter also makes it comfortable and precise reading of the angle of inclination possible; it also increases the accuracy of the readings increased by the arrangement of the spirit levels on the rotating arm because this an exact horizontal position of the arm independent of any frictional resistance allow. The centria. It is advisable to transfer the device to the axle center with help of a. Stell = cross, which has several points lying on a circular line which has been inserted into a circular line previously attached to the end of the axis and have the advantage that they are always easily visible: Of the The present invention is shown in two examples on the drawing Embodiments explained in more detail.

Fig, z shows the one embodiment in elevation, while Fig. Figure 2 illustrates a section along line A-A of Figure i.

Fig. 3 shows schematically the way the device is used, while Fig. q. represents a second embodiment of the device.

In Fig. I b_s 3, i denotes a tube in the interior thereof a right-hand and left-hand threaded spindle 2 in an unchangeable position is held. On the spindle 2 sits a handwheel 3, the rotation of which is de longitudinal displacement two V-shaped jaws q. and 5 with the help of nuts 6 and 7 causes the on the jaws are attached and slide in a slot guide 8 of the tube i.

By longitudinal displacement of the jaws moving against one another is it is possible to vary the cylinder between the jaws within certain limits Clamp the diameter. 'A second tube g, which is above the main tube i two supports are attached, one of which, io, in the middle and the other, ii, seated on the left side of the main tube, serves along with the main tube as a guide for a carriage or slide 12, at the upper end of which a pierced one Eye 13 is attached, the axis of which is parallel to the axis of one between the measuring jaws q, and 5 held by the cylinder, the two axes established in this way are at the same height above the axis of the main tube.

In this eye 13 is a tube r4. slidably arranged which at its end, carries a ring on which four needles 15 are screwed, the tips of which are all equidistant from the center of the eye.

A vernier 1.6 on the lower part of the carriage 12, its zero line the axis of the eye = 3 is attached opposite, allows the exact lengths on on the main tube, with the zero line of the division on the main tube of the is arranged opposite certain axis by the measuring jaws.

A semicircular arc with graduation, on which also half degrees can be read is fixed by means of the supports 1r, i8 and ig connected to tube i. The diameter of this semicircular arc is parallel to the Axis of the tube i. The graduation begins on the left and right sectors with o ° on this diameter, around with go ° on the vertical axis of the semicircular arc to end.

On the central support 18, a pivot 2i is attached, the The axis passes through the center of the graduated semicircular arc. This pin serves as a Dreachse for an arm 22, which has an openwork plate 23 wears. which moves along the graduation of the semicircular arc, where a vernier 24 at one edge of the opening of this plate reading the angle Allowed in degrees and minutes.

The plate 23 as well as the carriage 12 can with locking and Micrometer device can be provided, which allows precise adjustment of these parts on the circular arc 17 or on the tube, these devices each can have appropriate training and z. B. the usual for precision measuring instruments Devices can be the same.

The arm 22 carries two superimposed spirit levels 25 and 26, one of which is reversed from the other, and which is perfectly horizontal axis of the tube i is adjusted.

In Fig. 3 a mounted coupling axle is shown schematically, on which the offset of the coupling pins to each other and their distance from the wheel axis is to be measured, regardless of the position which this wheel occupies on the rail: This is done in the way, that one describes first around the center of the wheel axis at the end of the same a circle 27 from the diameter of the distance between the tips 1.5. (This circle is usually already present for constructional reasons.) Then the measuring jaws q are brought. and 5 to rest against the coupling pin 28 and moves the carriage 12 so that the four needle tips 15 come to rest on the circle 27.

On the set in this way, the scale on the Tube i the zero line of the vernier. On the slide 12 opposite the number read real distance of the crankpin center point from the axis center point.

The arm 22 is then adjusted so that the spirit level in question 25 or 26 is horizontal. The opposite of the zero line of the vernier 24 of the plate 23 The number read then gives the inclination of the axis in degrees and minutes of the crank pin and the center point of the wheel axis in relation to on the hoxi, zontal line.

If you do the same work a4_ df second crank pin the same axis, one obtains its distance from the center in the same way the axis (length of the crank arm) and the inclination of the crank arm with respect to the Horizontal.

If, because of the position of the mounted axle on the rail, the two Crank pin 28 are on one and the same side of the horizontal, so is the Angles that the crank arms form with each other (the offset of the cranks), the supplement of the sum of the two angles read; on the other hand lie the two The crankpin is on the same side with respect to the vertical Angle or the offset of the two pegs equal to the sum of the angles read.

The essential characteristics of the coupling ratios of a wheelset (the length of the crank arm and the offset of the crank pin) can be applied to this Way can be determined very quickly.

The degree arc can. form one piece with said rotatable arm and in relation to one on the support for the measuring jaws and the centering element move a fixed vernier. This prop can. have different shapes themselves, according to the changing position which one gives to the straight rule. The position this scale is only subject to the condition that the scale is parallel to Line connecting the center points established by the measuring jaws and the centering element is. This scale can either be a piece with the measuring jaw system without a difference form, d. H. have their zero line opposite the axis of the measuring jaws, as in the illustrated embodiment, or he can on the centering on the Axis be fixed, i.e. have their center opposite this organ.

Finally, the screw device for moving the measuring jaws in opposite sense by any equivalent gear, lever or the like. Mechanism be replaced, which. symmetrical displacements of the measuring jaws in the same way causes.

The embodiment of the device shown in FIG. 4 differs differs from the one previously described mainly in that the axis of symmetry the measuring jaws 4 and 5 passes through the center of the arc 17 so that the Device is better balanced and therefore easier to handle; the arm 12 is then guided without the aid of a special rod g (Fig. I and 2), so that the corresponding supports io and ix are omitted.

Claims (2)

PATENT CLAIMS: i. Precision measuring device for determining the coupling ratios from locomotive axles, from in opposite directions through a spindle with right and left Left-hand thread on a straight ruler moving measuring jaws, one on the same ruler sliding centering element and one with a rotatable arm for measuring inclinations provided limbus, characterized in that the measuring jaws (4,5) and the centering element (i2, 15) carrying the hollow rod (i) the diameter of a large one semicircular limbus (i7) forms on which a rotatable arm (22) with two spirit levels (25, 26) is arranged. 2. Precision measuring device according to claim i, characterized in that that the centering element consists of a standing cross (i5) with several pointers, whose Axis (i4) is displaceable in a carrier (i2), the pointer so on the axis are arranged so that their tips lie on a circle concentric to the axis.