DE913360C - Auxiliary measuring device independent of the actual measuring device - Google Patents

Description

Auxiliary measuring device independent of the actual measuring device The invention refers to an auxiliary measuring device that is independent of the actual measuring device with self-adjusting probes for measuring the diameter of parts with non-parallel surfaces using conventional measuring devices with plane-parallel probes.

An essential feature of the invention is that the auxiliary measuring device formed from a measuring block with two flat surfaces at right angles to one another is, the one groove for the support of a semi-cylindrical button on at least two form its generators, and in that the button rotatable in the groove below Keeping the distance between the stylus axis and the reference surfaces of the measuring block constant is kept in contact with the wall of the groove. In a further embodiment of the Invention are measuring block and probe on their respective transverse surfaces with pins provided, which are connected to each other in pairs by an elastic, ring-shaped band are.

Further features of the invention emerge from the claims.

Semi-cylindrical styli are already used in measurement technology been. So is z. B. a calliper became known that with such, itself adjusting buttons is rigidly connected. However, this design only allows measuring the small base circle of a truncated cone or the large base circle a tapered bore. To the exact size of a conical part or a conical To determine the hole, you have to have at least the diameter of one of the base circles and know the angle of inclination of the cone or the diameters of both base circles and their distance from each other. the known facility permitted so not the measurement of the conicity. Finally, the measurement accuracy is due to the Use of a calliper is limited.

The invention achieves the following advantages. The auxiliary measuring device is completely independent of the measuring device used and makes the ones previously used Measuring cylinder for measuring truncated cones, conical bores or workpieces dispensable with curved profiles. The auxiliary measuring device according to the invention is used with gauge blocks with parallel measuring surfaces or any other precision measuring device used together. So she can z. B. together with hand-held measuring devices such as slide calipers, Micrometer screws, etc., or are used with measuring machines known per se, in general with any measuring instrument, the plane-parallel probe surfaces having. The selection of the measuring device can accordingly be made according to the required Measurement accuracy.

The semi-cylindrical buttons automatically adjust to the measuring surfaces under the simple effect of the measuring pressure of the used Measuring instrument. The vertical component exerted by this pressure usually pushes the auxiliary measuring device against its support.

The device according to the invention has the further advantage that any calculation, both trigonometric and geometric, is to be determined of the measured value is dispensable. This avoids the possible errors here. The use of the auxiliary measuring device according to the invention results in an essential one Reduction of the measuring time for conical surfaces or for inner or outer diameters for bodies with non-parallel faces. It also enables the measurement of workpieces, which have tangents at the measuring point which are at an angle between o and go ". The auxiliary measuring device can be used both in the office and in the workshop Find.

In the drawing is an exemplary embodiment of the invention shown. FIG. I shows an auxiliary measuring device in use for measuring a conical bore, Fig. 2 is a side view of part of the auxiliary measuring device, FIG. 3 shows a corresponding view, FIG. 4 shows a side view of two touching one another Button of the auxiliary measuring device, Fig. 5 the measuring device in use for measuring a cone body, FIG. 6 is a plan view of part of the device according to FIG Fig. I and Fig. 7 and 8 the measuring device in use for measuring particular Work pieces.

As shown in FIG. I, the auxiliary measuring device consists of holders C, which lie with their lower flat surfaces on the reference plane. Rest on them Measuring blocks J, each of which contains a groove. At the V-shaped to each other A semi-cylindrical button E is supported on surfaces of this groove.

The probe E and measuring blocks J have pins on both ends (Fig. 2 and 3), which via an elastic member, e.g. B. an endless elastic band with each other are connected. The buttons E are thereby permanently in contact with their support surfaces held on the measuring block.

The probes E lie with their flat surfaces on the workpiece to be measured A at. But you can, as the embodiment shows (Fig. 6), on these surfaces have at least one elevation e1, whereby the exact contact with the wall is made possible by hollow workpieces. This elevation advantageously has a convex shape curved outer surface e2.

As can be seen from FIG. I, the height H of the measuring point results above the reference plane from the sum of the height of the bracket to be selected C and the height h of the center point of the button E above the upper level of the holder C. These parts are manufactured with the accuracy of conventional measuring blocks or gauge blocks. The buttons E are pressed by any measuring device F against the surfaces to be measured.

Any device with plane-parallel probes can be used as a measuring device Find use, so slide calipers, micrometer screws, gauge blocks or the like. As well as Measuring machines. The choice of this device depends on the desired measurement accuracy hold true.

The diameter D of a conical bore to be measured here (Fig. I) is the sum of the measured value M of the measuring device and the length k of the two Touch organs, which can be determined once according to FIG. 4 with the desired accuracy is. To determine the measured value, in this case the diameter in height H above the reference plane, so only additive calculations are required, which can be carried out quickly and without any errors.

In Fig. 5, the measurement of the diameter of a cone body is illustrated. The higher is determined in the same way as in the previous case. The diameter results here as the difference between the measured value M of the measuring device F and the length k the measuring blocks J of the button E.

In Fig. 7 the measurement of an external dimension is shown, here is only a holder C with measuring block J and button E is necessary because the other measuring surface is vertical to the reference plane, i.e. the immediate attachment of the measuring device's buttons F permitted. The height H of the measuring point results in the same way as in the case of Fig. 1 as a sum. The dimension D is the difference between the measured value and the value k / 2 found.

Finally, FIG. 8 shows that even with any shape the circumference of the workpiece is a simple, sufficient and flawless one Measurement is possible. Finding the distances, and D2 from a vertical Reference lines are also determined with the help of the basic arithmetic operations.

Of course, structural changes can be made, so for example with regard to the design of the storage of the buttons E in the measuring blocks J.

Claims (4)

PATENT CLAIMS: I. Auxiliary measuring device independent of the actual measuring device with self-adjusting probes for measuring the diameter of parts with non-parallel surfaces with the help of conventional measuring devices with plane-parallel probes, characterized by having two planar surfaces standing at right angles to one another Measuring block (J) that has a groove to support a semi-cylindrical probe (e) form at least two of its generatrices, and in that the one rotatable in the groove Probe while keeping the distance between the probe axis and the reference surfaces constant of the measuring block is held in contact with the wall of the groove. 2. Auxiliary measuring device according to claim I, characterized in that Provide measuring block (J) and button (e) with pegs on their respective transverse surfaces are connected to each other in pairs by an elastic, ring-shaped band (L) are. 3. auxiliary measuring device according to claim I, characterized in that the flat surface of the button (E) lying in the direction of the cylinder at least one Elevation (e,), which serves as a system when measuring hollow workpieces. 4. auxiliary measuring device according to claim 3, characterized in that the elevation (e,) has a convexly curved outer surface (e2). Reference documents: French patent specifications No. 954 8I5, 933 587.