DE942541C - Device for checking the diameter and roundness of cylindrical and conical bodies - Google Patents

Description

Device for checking the diameter and roundness of cylindrical and conical bodies Around bodies of revolution, such as cylinders, cones and the like, for roundness and diameter to be checked, & ie, in a V-shaped prism under the stylus of a precision measuring instrument lying, evenly or intermittently turned by hand, at the same time the pointer deflection of the instrument is observed. At the same time Checking the cylindrical rollers for cylindricity, the test objects must also be in the axial direction be moved. The immediate turning of the test specimen by hand is laborious and time consuming.

A device has become known in which the between the Touch organs to be inserted test specimen by driving one of the touch organs, which act as rollers are designed, can be rotated mechanically. This drive wise enlarged but those already present in themselves through the use of roles as tactile organs Measurement uncertainty.

An institution has also become known where the in A test object mounted on a prism is rotated around its axis by suitable drive wheels and at the same time is shifted in the axial direction. Here is the axial feed Achieved by the special design of the feed wheels, which is only ever for one very specific feed are to be used and when changing it need to be replaced.

The feed can neither be changed nor interrupted during the run.

A device is also known in which the test specimen is moved by tangential displacement of the push button under the wide blade-shaped push button of Measuring instrument is rolled through. Since the button of the instrument is so wide must be like half the circumference of the test item, this type is only available for very small ones Diameter in question.

The test item is also measured in only a certain cross-section.

A device was missing in which the one lying in a prism Test object (three-point measurement) mechanically by motor or manual drive around its Axis is rotated and axially shifted as required.

This device is the subject of the invention.

She solves the problem by using two at the appropriate distance adjacent friction rollers that rest on the test object under spring pressure and whose axis can be set at any angle to the axis of the test object can.

If both axes are in the same plane, the test item becomes only rotated when rotating the friction wheels; but do the axes cross, then it shifts at the same time according to the sine of the angle, which these to each other form. The feeler lever is between the two transport rollers, so that these the Slide the test item under the button over its full length.

The drawing illustrates the invention in one embodiment. It shows Fig. 1 a cross section through the device, Fig. 2 a plan view, Fig. 3 the device set up for testing cylindrical rollers seen from the front, while Fig. 4 explains the testing of tapered rollers.

In the base plate I is rotatable in an annular groove on its outside on part of its circumference toothed ring 2 is embedded. Engages in this interlocking a pinion 3 a. On the axis of the pinion passing through the cover disk 4 sits a ball handle 5. In the middle of the base plate I is a screwed on U-shaped saddle 6 in which the receiving prism 7 is attached. 8 represents a pickled Test item.

The support bracket 9 is screwed onto the ring 2, on which the two arms 10 pivotable in a vertical plane are articulated. In her free end is the shaft ii bearing the two friction wheels 12 in the middle. Both ends the shaft passing through the arms 10 each have a gear I3, which is shown in an intermediate gear 14 engages. One intermediate gear meshes with a drive gear I5, the other with a wheel I6, which is operated by a handwheel via a claw coupling I7 I8 can be operated. A cardan shaft 19 connects the drive gear 15 with of the drive pulley 20. On the one hand, the two arms 10 acting as rockers are engaged one coil spring 2I each, on the other hand the arms lie against the one on the support frame 9 arranged adjusting screws 22. The feeler lever 23 is not shown in the drawing Support of the indicated measuring instrument 24 stored.

On the ring 2 is a fixed stop 25 and one according to a degree scale 27 adjustable stop 26 is arranged. The associated stop pins are with 28 and 29 denotes and limit the angle of rotation of the ring to o to 100. In the Drawing is the adjustable stop 26 at oO. The friction wheels I2 are therefore right-angled to the axis of the test object, so that it only rotates when the friction wheels are rotated is taken, but does not experience any axial movement. When testing cylindrical bodies the stop 26 is set as required. You can then by panning of the Kugelgrilfes 5 the friction wheels alternately on simple or screw limges Adjust the rotation of the test item. The cylindrical specimens are placed over the channel 30 supplied to the measuring point and fall after they have passed through it the channel 31 out again.

For testing tapered rollers, a tiltable receiving prism is in the saddle 6 32 (Fig. 4) used, the one end face an adjustment arm 33, on the other carries an adjustable stop screw 34a.

The device works as follows: The cylindrical test objects are filled into the channel 30. Due to their weight, they slide up to the first Friction wheel that detects the first test item.

By actuating the ball handle 5, the pair of friction wheels is pivoted something that causes the test item to roll under the button 23. Should be on roundness are checked, the friction wheels are swiveled back to pure rotary motion and left only transport lengthways in stages. If the test for diameter and cylindricity is sufficient, then the specimens are allowed to run through continuously. When setting the device it is advisable to use handwheel I8 to move the test object, which is carried out by Pushing inwards is coupled.

When testing tapered rollers, axial travel is not possible. The test items must be inserted individually, for which purpose the friction wheels 12 are raised slightly. In order to be able to insert the test item from the front and place it in his To guide the axial position, the stop screw 34a is in a closed, non-returnable position Flap 34 arranged.

Claims (3)

PATENT CLAIMS I. Device for checking the diameter and the Roundness of cylindrical and conical bodies, the one in a V-shaped Prism under the probe of a measuring instrument lying test object during measurement z.forcibly rotated about its axis or at the same time displaced in the axial direction is, characterized in that on an axis (II) at a small distance from each other two friction wheels (I2) are arranged, which are pressed by spring force on the test object (8) and for the purpose of achieving and regulating the axial feed around that of their center Plumbs precipitated on the longitudinal axis of the test object can be pivoted. 2. Device according to claim I, characterized in that for testing tapered body a tiltably mounted in a saddle (6) V prism (32) is used, the slope of which can be adjusted with the aid of a pointer (33) on a scale (33a) is. 3. Device according to claim 2, characterized in that the definition the axial position of the test object a stop (34a) adjustable in a flap (34) serves. References: U.S. Patent No. 2,584,714.