DE852457C - Method and device for testing the flanks of involute teeth with tooth flanks set back on the head and on the foot of the tooth - Google Patents

Description

Method and device for checking the flanks of involute teeth with covered tooth flanks on the head and on the foot of the tooth The invention relates to eiti method and device for precisely determining the extent of the so-called Relocation of the tooth flank on the head and on the foot More recently it has been common practice for gears that transfer large forces and consists in an additional device for such flank testing devices, in which a stylus connected to a ruler that, when rolling the ruler on a corresponding to the base circle of an involute toothing. with the bike to be tested firmly connected disk describes an involute. Drives the person sitting on a lever Spring-loaded feeler along the flank of a tooth, the exact involute shape it will not move because its movement path coincides with the tooth flank curve covers. If, on the other hand, the tooth flank shows deviations, e.g. wear bells, in the the stylus sliding over it can sink under the pressure of the spring, so it strikes the lever carrying the stylus. A pen connected to this draws then a characteristic curve corresponding to the real tooth shape. Such a characteristic but not without further ado and not descriptive enough the exact one Recognize the position and size of the covering on the tooth flank, on the one hand because of the Scale in which it appears in the characteristic is too small, and on the other hand the characteristic does not reflect the tooth shape itself, because it is z. B. with more precise The involute shape of the tooth is a straight line, and thirdly there is the starting point the coverage curve is not clear enough, especially if this is like, for example merges into the usual roundness at the tooth root.

According to the invention, the known edge checker is now in the manner adds that the amount of coverage at certain points on the tooth curve by an accurate measuring instrument can be determined so that by entering the Measurement result in the corresponding points of the tooth curve in enlarged Measure the position and size of the covering clearly can be illustrated.

In the drawing, an embodiment of the invention is shown, namely shows Fig. I and 2 elevation and floor plan of a flank tester with the new one Device, Al) l). 3 a section according to a-c of Fig. 1, Abl). 4 a measuring sheet for a gear with 54 teeth and module 6.

Sit on a rotating mandrel I mounted on a slide fixed the gear to be examined 2 and the replaceable roller disk 3, whose Diameter equal to that of the base circle of the involute toothing to be examined is.

The disk 3 can be rotated with the aid of a handwheel 4 Screw spindle 5 are pressed against the roller ruler 6 under spring pressure, so that with each displacement of the slide 7 carrying the ruler 6, the disk 3 is entrained with the gear 2 by friction and set in rotation. The sled 7, which is moved by a screw spindle 9 when the handwheel 8 is turned, carries a vertical sliding guide I0 on which a slide II with the sensing and measuring device can be adjusted in height. This is housed in the housing 12, in which a lever I3 is rotatably mounted about a vertical axis 14. The lever carries at one end the exchangeable probe tip 15 in the form of a ball, whose diameter is adapted to the shape of the teeth to be examined. Of the The center of the probe ball is above the rolling edge of the ruler 6. The other end of the lever I3 lies between an adjustable stop I6 and the feeler needle I. 7 of the dial gauge I8 attached to the housing 12. On the slideway of the slide 7 is still a second manually displaceable holder or bracket 19 out through a cord screw 20 can be clamped. He wears a dial indicator 2I, whose Feeler needle 22 rests against a step gauge 23 which is supported on slide 7 and when it is adjusted, it is carried along against the feeler needle 22. The ruler 6 is held on the lower side of the carriage 7 by means of two guide plates 24 andl adjustable in its guide by means of a cord screw) e 25.

The device described is used for testing in the following manner used to relocate involute teeth.

The basis), forms that in Al) b. 4 the measurement sheet shown in enlarged scale shows the exact involute shape of the tooth flank for a gear with 54 Teeth and module 6 reproduces. The tooth height is on a scale of 10: I, which is the distance between the teeth the tooth flank reproduced on a scale of 200 1. The entire active tooth profile has one I height of I2.2 mm and is indicated by lines parallel to the pitch circle in strips of each 10 mm wide, which corresponds to an actual height of 1 mm on the tooth. The bottom strip is 12 mm high, corresponding to 1.2 mm of the real tooth profile.

Every intersection of a transverse line with the tooth flank should be checked Be the point at which the probe ball is applied. Parallel to the exact involute are at equal intervals z. B. of 2 mm curves drawn for relief of reading and recording the measured values of the involute displacement serve in the height divisions of the tooth.

In order to pass from one measuring point to the other with the tactile organ I3, 15, According to the peculiarity of the involute, the ruler 6 must move all the greater the closer the point in question is to the base circle. Accordingly are on the edge of the measuring sheet in the individual horizontal stripes the amounts for the example considered in each case required shifts of the ruler 6 and thus the carriage 7 is inscribed. This is how l) becomes, for example, the topmost strip at the head of the tooth from the probe tip 15 already with a ruler displacement of 2.28 mm drive over, while the penultimate strip requires 3.55 mm splicing.

The above documents can now be used to measure the distance covered to be gone.

As a basis from which the individual values of the distance covered are measured the exact involute curve that comes from a point on the ruler edge is used Ahwälzen on the base circle is described opposite this.

To clarify the procedure, the extension is shown in Fig. 4 the involute drawn in dash-dotted lines.

The gear to be tested 2 and the roller disk 3 are rotated of the handwheel 4 in the direction of the arrow A so far, I) is the disk 3 with the ruler 36 is in frictional contact and the probe ball 15 in a Tooth gap has occurred. Then the carriage 7 must by turning the handwheel 8 so moved. that the stylus ball t5 is in the area N (Fig. 4) of the pure involute shape, so roughly in the partial circle, stands. For this purpose, the ruler 6 first becomes independent from the probe ball I5 by means of the adjusting screw 25 so far in its guide 7, 24 (Lead>. 3) adjusted until the feeler ball 15 under pressure al the Tooth flank is applied. The other arm of the feeler lever 13 therefore presses against the feeler needle I7 Dial indicator Ig, the pointer deflects. The rash must be set to be somewhat larger are considered to be the largest amount of reserve required to keep the ball at any time Relocation can follow. The zero point on the dial of the dial gauge is then displayed t8 adjusted to the articulated pointer. The probe ball 15 is now in the measuring range N is the exact involute shape of the tooth. All by shifting the slide 7 brought about positions of the probe ball I5, in which the pointer of the dial gauge I8 is at the set zero point, points must be the involute. Any deviation from this curve in the sense of the covering then has a deflection of the pointer of the dial gauge I8, which corresponds to the exact size of the distance covered. As a starting point The tip circle of the gear is used for measurements, the diameter of which is measured by measuring can be accurately detected, d. H. the measurement must start from the tooth tip. But since the Ball as a result of its career in an involute that is extended beyond the tooth flank (dash-dotted line in Fig. 4) cannot come into contact with the tooth tip, a corresponding gauge block 26 must be placed on the tooth head, its thickness is determined by invoice or drawing. In the exemplary embodiment this is Final dimension 6 mm (.-X1) 1). 4).

To place the gauge block 26, the hand wheel 8 is moved in the direction of the Arrow B rotated and thereby the carriage 7 moved in direction C so long, until the lncl dimension 2G can be inserted between the tooth tip and the probe ball (Position II Fig. 4). If you now pull the carriage 7 back until the probe ball I5 is applied to the gauge block 26 in such a way that the dial gauge I8 shows zero again, the key is stopped ball Ig in the involute.

With the carriage 7 in this position, the largest step is then set of the step gauge 23 to the front edge of the slide, represents the other dial gauge 21 supporting bracket 19 on the slide guide by means of the screw 20 in a Fixed position in which the dial gauge needle against the highest step (65, oo) of the gauge block below low preprocessing, e.g. 13. 0.1 mm, rests and rotates the number l) latt der Dial indicator 2I so that its zero point coincides with the pointer position. Well removed one held between probe ball 15 and tooth head 26 with the result that the probe ball 15 under the action of the bias of the dial gauge IS by the dash-dotted line Line shown leaves the Livolventenbahn and swings into the dashed position (Position III Fig. 4).

Then you bring the next step by moving the step gauge 23 sideways Step 49, 59 in front of the needle of the dial gauge 24, then pulls the carriage 7 by turning of the handwheel 8 in the direction D together with the adjacent step gauge 23 so far back until the dial gauge 21 returns to zero. Got during this movement the stylus ball 15 from the ITI position initially to the IV position, both of them just touches the tooth tip, and finally takes the dial indicator 21 at zero position position V. The ruler 6 is around the difference between the first two Steps of gauge block 23 (65, oo - 49.59 = 15.41 mm) have been moved.

The position V determines the first measuring point a at the head of the retracted one Tooth flank. Since the measuring point a is not on the normal flank because of the covering the pointer of dial gauge I8 does not go back to zero. The amount of variance shows due to the selected ratio of the arms of the pushbutton lever I3 of 2: I the covering of the flank in double size, namely to 0.20 mm. The real one Distance is then 0.10 mm and is based on the uppermost limit of the tooth placed transverse line of the measuring blade entered (point a). For determination of the point b to be entered on the next transverse line, the carriage 7 must follow Retracted 2.28 mm in direction D according to the measuring sheet. Silane shifts for this purpose, by turning the handwheel 6 in the direction E, the slide 7 to the dial gauge 21, which was still at zero, shows the specified dimension 2.28. The from of the probe ball 15 moving pointers of the other dial gauge I8 then moves to o, I4 mm corresponding to an actual covering of 0.07 mm, which is on the second The transverse line of the measuring sheet is noted (point 3).

For the next measuring point c there is a ruler shift of 2.4I mm required. But you set the dial gauge 21 by turning the dial from the value 2.28 mm back to zero, in order to now withdraw the slide 7 again so far that until the pointer of the dial gauge 21 indicates the dimension 2.4I. In this position it arises a distance of 0.04 mm. Then the dial gauge 2I is turned back to zero and the process continued in the same way until all points of the tooth profile are measured.

Since the necessary for the entire length of the active profile (here 12.2 mm) Ruler shift (here 17.82 + 17.97 = 35.79 mm) is generally greater than the available stroke of the dial indicator 2I, which is usually 10 mm, is after the available stroke is used up by the sum of successive linear shifts is to use its next step (40.59) instead of step 49.50 of step gauge 23 and, as described above, readjust the dial gauge 21, etc.

In the manner described, are all the measuring points taken into consideration found and entered in the measuring sheet, then enters the curve laid through it Distorted in relation to the tooth profile, but therefore just vivid picture of the Laying back, in detail with regard to their size and the location of the starting points can be compared directly with that prescribed for the tooth flanks.

The method enables the determination of the extent to which the Involute oherhall) and under the reverberation of the pitch circle normal and covered runs. This benefit is essential as the pitch circle forms the basis.

Claims (4)

PATENT CLAIMS: 1. Method for checking the flanks of involute teeth with covered tooth flanks on the head and on the foot of the tooth by means of a probe, which is connected to a ruler, which is connected to the gear to be examined on a rotary axis seated disk with the diameter of the base circle of the involute toothing is rolled, characterized in that the flanks by means of a probe ball (I5) and the points to be checked (a, b, c) of the tooth flank Linear displacements determined by the shape of the involute with the aid of a measuring device (21) set and the associated deflections of the probe ball (15) on a second Measuring device (I8) determined. 2. A method for testing the flanks of involute teeth according to claim 1, characterized in that as the starting point of the measurements, the tip circle of the Gear is used and the necessary contact with the probe ball (I5) the tooth tip by a gauge block (2I) inserted between the tooth tip and probe ball will. 3. The method according to claim I and 2, characterized in that in in the event that the total displacement required for scanning the entire tooth flank of the carriage (7) greater than the available stroke of the measuring device in question (21), a step gauge (23) is switched on between this and the slide. 4. Apparatus for performing the method according to claim I with a on an adjustable slide rotatably mounted mandrel for receiving the test Gear and the roller disc, furthermore with a perpendicular to the slide of said The second slide, which is guided by the slide, contains the rolling ruler and a two-armed, provided at one end with the tactile element and at the other end on a display device acting tactile lever, characterized in that the display device in a dial gauge (cracked) attached to the feeler lever housing (I2) or another suitable one There is a measuring device, which in itself very small amounts of the covering of the tooth flank compared to the exact involute on a larger scale, and that too for setting the ruler displacements associated with the individual measuring points (a, b, c) another of the slide (7) carrying the ruler (6) with the interposition a step gauge (23) influenced dial gauge (2I) or some other precise measuring device is provided, which is expediently on the slide of the ruler slide (7) Slidable and lockable elbow (I9) is worn.