DE661230C - Profile measuring device - Google Patents

Description

Profile measuring device There are devices for measuring profiles known from elongated bodies that allow, from a pattern profile, that runs synchronously with the profile to be measured, the deviations in the to to determine the measuring profile.

In these known devices, both are rotating synchronously Profile pieces on parallel displaceable measuring rulers or measuring rollers that are attached to slides are attached, their shifts against each other only if the two profiles are unequal occur and act on a measuring device indicating the difference.

These devices have the disadvantage that the display device constantly moved in relation to the viewer, making reading difficult and is imprecise.

The invention is intended to avoid this disadvantage by that the slide on which the two measuring rulers or rollers are attached, over a differential gear or lever gear connected to the display device stand.

The object of the invention is shown in the drawing in an exemplary embodiment shown.

Fig. I shows the device in elevation. Fig. II shows the side view of the measuring slide in section.

Fig. III is the measuring slide in plan, cut through the Differential gear. As an example of a measurement on an elongated one Profile piece was chosen -a propeller i (Fig. I). The device consists mainly from a turning spindle carrier 2, a counter bearing carrier 3, a Main bed q. and a measuring slide 5. The rotating spindle support contains two horizontally Synchronously running spindles arranged one behind the other (middle 6 and 7). In the middle 7 becomes a sample profile piece, i. H. z. B. here is a propeller that is finished is clamped. The clamping can be done with two- or three-jaw chucks. In the middle 6, the profile piece to be measured is clamped in the same way so that a profile cross-section with the same cross-section of the sample profile piece parallel runs (lines 8 and 9).

At the handwheel io on the bed q. displaceable measuring slide 5 are located under the synchronously rotating blades, two perpendicularly displaceable measuring angles ii and 12. These are balanced so that they easily rest against the rotating profile pieces. The measuring angles contain measuring rulers 13 and 14, which can also be replaced by rollers. If the two profile pieces now rotate, the difference in the vertical movements at the measuring angles can be used to deduce the inequality of the two profiles. When the profile pieces are rotated, both measuring angles move. The difference between the two movements is transmitted to a stationary display device. This is done through a differential gear. For example, this is shown in Fig. II by a gear drive. A toothed segment 16 rotatable about point 15 engages in the toothed measuring angle ii. A toothed segment 17, which engages in the toothed measuring angle 12, pivots about the same point 15. The toothed segment 17 is designed as a bevel gear segment 18 on the side opposite the measuring angle 12 with respect to the point 15. The segment 16 also carries a bevel gear segment. The differential bevel gear 2o, which is pivotably arranged with its axis of rotation about 15, yaws into these two bevel gear segments. The bearing pin 21 of the bevel gear 2o is in joint connection with the profile difference pointer 23, which is movable around the fixed pivot point 22 Both profile pieces move the measuring angle and thus the toothed segments 16 and 17 up and down by the same amounts, but the differential gear 2o will remain quietly in one place with the bolt 21 and the pointer 23. At a division 2.4 one can now read off by how much the positions of the two measuring rulers 13 and 14 may deviate from one another in the vertical direction and thus determine the change in profile. By choosing the lever arm length between 21 and 22, the scale 24 can be enlarged as desired and the reading accuracy can be improved. If the profile in center 6 now deviates from the pattern profile in center 7, the respective difference between the two profiles is always at the division 2q. are displayed enlarged by the pointer 23. Since the graduation is stationary with respect to the viewer, the difference can be read off easily and reliably even when the profiles are rotated rapidly. If you have the opportunity to z. B. using levers 2-5 to turn the rotary movement on and off, the profile deviation on the piece to be measured can be marked in the correct size at any time. You can also replace the measuring ruler 13 with a paint drum that is rotated by hand when z. B. a minus value is displayed on the profile to be measured. By moving the measuring slide 5 on the bed 4, a measurement is possible at every point in the profile; a scale allows the profile distances to be read off.

A writing drum 26 can be attached to the measuring slide 5, which also rotates synchronously with the two profile pieces. The movement can go through Shaft shafts or similar elements are guided onto the writing drum. Will a pen 27 is now attached to the pointer 23, so that it records on the circumferential Recording drum on the respective profile distortion. This is for the control of the Measurement is important because it means that the deviation from the profile is automatic and in writing is determined. It is often necessary to determine the center line of the profile after the measurement to correct, for example the propeller center 6 to: relocate. To this Purpose, the clamping fütter28 is set up so movably that it follows all Can move coordinates of a plane perpendicular to the propeller axis. The same is provided on the chuck of the counter bearing bracket 3.

Is an axis displacement detected during the first measurement and then has been corrected by the above-mentioned device, then by means of centering devices, the z. B. are driven by motors 29 and 3o and axially by levers 31 and 32 can be moved, a centering of the centering in the profile piece to be measured be attached on both sides. The centering motor axes are of course there in the center of the turning spindle.

To carry out a correction of the profile piece in the axial direction To be able to, the rotating spindle 6 with the clamping element 28 is through, the lever 33 is axial adjustable. The bolt of the lever 33 expediently receives a toothing that is in a Gear teeth of an axially displaceable sleeve for mounting the rotating spindle engages. This sleeve can be clamped by lever 34. The bearing pin 35 in the counter bearing bracket is loosely inserted so that it can be moved axially.

With the subject matter of the invention it is possible in particular to be elongated shaped profile pieces by means of a sample profile piece at every point in the simplest way Way to measure and read the differences on a stationary graduation. That written, automatic recording of the difference increases the security of the control, and prevents the possibility of a subsequent relocation of the axis of the profile piece the committee.

Claims (3)

PATENT CLAIMS: i. Device for measuring, profiles using a sample profile, with both synchronously rotating profile pieces in parallel sliding measuring rulers or measuring rollers that are attached to slides are in contact, whose shifts against each other only occur if the two profiles are inequality and act on a measuring device indicating the difference, characterized in that that the slide on which the two measuring rulers or rollers are attached, over a differential gear or lever transmission in communication with the display device stand. 2. Apparatus according to claim i, characterized in that in the slide engage pivotable tooth segments and that these two segment carriers form two parts of a differential gear, while the third part of the differential controls the display member. 3. Apparatus according to claim i and z, characterized in that that the bearings of the axis of rotation of the profile piece to be measured at .den clamping points can be moved transversely to the axis of rotation. .4-. Device according to claims i to 3, characterized characterized in that the profile piece to be measured opposite the sample profile piece is displaceable in the axial direction.