DE1984306U - DEVICE FOR CHECKING THE ROUNDNESS OF ROTATING BODIES. - Google Patents

Description

P.A.110 565 * 23.2.68

VEB Feinmeßzeugfabrik Suhl

Device for checking the roundness of bodies of revolution

The invention relates to a device for checking the roundness of rotating bodies, in particular rolling bearing parts.

Rotary bodies, but especially roller bearing parts, require the best possible roundness, i.e. the exact same distance between all points of their circular Surface to the common center point of the same plane perpendicular to the longitudinal axis, and their function over a wide area Dimensions of this shape, i.e. of the roundness, is dependent.

It is known that several measuring methods are used to check the roundness of bodies of revolution, in order to be able to reliably detect both deviations from the circular shape and the shape of the dimple thickness. That are the two-point and three-point measurements. Such measurements are carried out manually or mechanically. The devices for this have different Measuring bases. For the two-point measurement, the plane is and for the three-point measurement the prism is used as the measuring base known. The dimensional changes on the test item, from opposite the measuring base arranged measuring devices displayed or converted by this into control pulses for sorting the Test specimen, indicate directly or indirectly the deviations from the roundness of the test specimen. Both measurement methods must be used carried out to obtain the required precise roundness test. That requires that both procedures must be applied side by side or one after the other for each test item. That's with that Disadvantage associated with a relatively long test time and Also very expensive because of the double necessary measuring points or test devices.

The invention aims to use both measuring methods in one operation at a measuring point.

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The invention is based on the object of the plane and also to combine the prism as Hessbasen with the necessary measuring instruments.

According to the invention, the object is achieved in that a flat system of the known two-point measurement and the prismatic system of the well-known three-point solution be summarized in a prismatic system and with one level of the prism as the measurement base for the two-point measurement and with the prism as the measurement base for the three-point measurement the test for roundness of the test object is carried out in one operation, with a measuring device for two-point measurement opposite a plane of the measuring base and another measuring device for three-point measurement on the The straight line bisecting the angle is provided when using an additional leverage to increase the accuracy of the measured value display.

The invention achieves that the previously individual work ^{steps "two-point measurement" and "three-point measurement 11} can be carried out into one work process combined and therefore testing for health more economically up to now two only one measuring point is provided or instead of the previous two test devices only one is sufficient with the same performance as with the known measuring methods.

The invention is illustrated below using an exemplary embodiment explained:

The drawing shows in a schematic representation the inventive device in the axial direction of the Test specimen seen.

The device consists of a measuring base 1 in ü'orm of a prism, the two base surfaces of which are truncated Include angles and the system is for a test item 2, e.g. a cylindrical roller. Right in the direction of the Arranged straight line of an angle bisector 9 is a feeler pin 3, with which a lever 4 is movably connected and this is rotatably supported at a pivot point 5.

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A measuring device 6, e.g. a precision pointer or a contact precision pointer, "is used for two-point measurement and is arranged perpendicular to a plane of the measurement base 1. Another measuring device 7 is assigned to the lever 4, which is operated by means of a tension spring 8 so that that. the probe pin 3 is guided against the test item 2.

The mode of operation of the gate direction is as follows: The test object 2 is ^{guided to the measuring point in 1} and brought into contact with the two surfaces that form the obtuse angle of the measuring base 1 and rotated clockwise during the measuring process by means of a drive known per se, For example, a friction roller on the circumference of the test item or a frontal transmission of the rotary movement, which is not shown in the drawing. The measuring device is used to record and transform the measured values after the two-point measurement and scans the test item 2 perpendicular to a surface of the measuring base 1. The probe pin 3 scans the test object 2 in the direction of the bisector 9 and transfers the measurement result to the lever 4 and this to the measuring device 7, whereby the accuracy of the display of the measuring device 7 can be increased by determining the pivot point 5 for the lever 4 . The tension spring 8 has the effect that the feeler pin 3 is always held under pretension against the test object 2 'via the lever 4. The invention also proposes to interrupt the contact surfaces of the measuring base and instead of the contact points of the test object to arrange roller bearings with their outer ring as a contact for the test object or to interrupt the contact surfaces of the measuring base as far as possible and they also bal-

lig, so that only a point contact of the test item 2 exists. In both cases the friction of the test object during its rotation on the system reduced so that a light vibration-free Turning and a smooth, error-free measurement is achieved. Furthermore, the invention proposes as an extension, the contact surfaces to interrupt the measuring base 1 in the axial direction of the test piece so that for the test piece 2 on each contact surface a two-point support is created to prevent tipping

of the test item in the measuring system. These further features of the invention are in the drawing not specially shown.

The device according to the invention can both by hand operated as well as used in a test machine, the test specimen in a known manner automatically and intermittently guided into the measuring point, there mechanically driven and according to the measuring process from which Measuring point is derived and fed to the assigned sorting channels, with contact-fine pointer as measuring devices Find use, through which the control of the guide elements for the respective sorting channels takes place.

Claims (3)

- ■■. £ ■■ - Sohutζ claims before 1. Device for checking the roundness νο ^η Eotatlonskodies ,; especially of rolling bearing parts, thereby .. '■. It is shown that the place of life consists of a _: MeJi-Basis [A) with two Ii obtuse angles. Two-point and three-point measurement, a measuring device (6) - perpendicular to a contact surface and a fastbolz.en (3) in the setting of an angle half-way. (9) is assigned, which is movable. Connected to a lever (4.). . .. ; / - ^r: - '..' [._ ' 2. Device according to. Claim 1, characterized daduröh, daJ3 the lever is mounted at a pivot point (S>) (4), the positional is determined according to the erforderlicheh translation * _r 3. installation after. Claim .2, characterized in that daJ3 the lever (4) on the through, the required translation A measuring device (7) is assigned to a specific point -4 *: device after; Claim. ^1: - aadurch in daJ3 the angle forming inlagefläGhan Interrupt © - - ■ Chen and a crowned "are ^..: \". ■ .. ■ 3. To3? Direction according to claim 1, characterized in that ^: on the measuring base is (1) ^: Wälziägar., Whose outer rings; - .; ■ the system for, for. Test ling;, (2}; form, - " the angle of the measurement bases. -Are arranged.