DD267314A1 - COMBINED RECORDING AND DRIVE DEVICE FOR DISK FAIRED PARTS - Google Patents

Abstract

The invention relates to a combined receiving and driving device for scheibenfoermige parts of gauges for concentricity, Stirnlauf- and Ebenheitspruefung and thickness and center of gravity determination, which allows a position-specific recording and rotation of scheibenfoermigen parts for detecting the measured values. The essence of the invention is that the axial determination and the generation of the rotational movement of the Scheibenfoermigen parts made by engaging in an annular groove of a receiving ring Luftduese with radial Luftaustrittsoeffnung and the radial determination of scheibenfoermigen part by a arranged in the region of the lateral surface of scheibenfoermigen part Konkavluftduese is, whereby a non-contact recording and a non-contact drive of scheibenfoermigen part is achieved by means of compressed air. Fig. 2

Description

Title of the invention

Combined receiving and driving device for disc-shaped parts

Field of application of the invention

The invention relates to a combined recording and drive device for disk-shaped parts of measuring instruments for concentricity, Stirnlauf- and flatness test and thickness and center of gravity determination, with the disc-shaped parts in the axial and radial direction are recorded in a positionally determined and rotated.

The receiving and driving device according to the invention is also applicable to annular parts.

Characterio ¹ ' χ of the known prior art

To determine the round and end running accuracy and the thickness of annular parts, in particular Krei saw blades, a measuring device has been proposed, with the location determined the annular members in the axial and radial directions recorded and set in rotation and the axial and radial components of the ¹ Peripheral the rotating annular parts are detected (DD-WP G 01 Θ / 296 541).

The annular part to be tested is placed for this purpose on three support pins, which are arranged on a support plate and offset by a circular path by 120 ° to each other, and determined in the axial direction. The radial determination of the annular member is effected by two likewise arranged on the support plate, engaging in the inner bore of the annular member bearing pins in conjunction with an attacking on the lateral surface of the annular member, at the same time generating the rotational movement of the annular member belt drive, the belt parallel to the line connecting the The two investment pens run.

The stationary belt drive is thereby displaced perpendicular to the connecting line of the two contact pins until the inner bore of the annular member just touches the contact pins. For detecting the axial and radial components of the periphery of the annular part, two optical length measuring means, for example CCD cell cameras, which are in communication with light sources and whose optical axes intersect, are arranged on the side opposite the belt drive. The intersection of the optical axes of the cameras is preferably in the lateral surface of the annular part. By means of this camera arrangement, it is possible in a simple manner to check annular parts of different diameters by displacing the carrier plate and the belt drive perpendicular to the belt of the belt drive in the horizontal when the assortment changes, until the intersection of the optical axes of the cameras again in the lateral surface of the annular part reads.

Although this device has been proven in principle in the examination of circular saw blades in principle, with regard to the design and arrangement of the receiving and driving elements for the annular parts has some disadvantages. A disadvantage is that the axial determination by means of support pins is only suitable for those annular parts which have a relatively smooth surface in the contact area of the support pins. '·.

For parts with a structured surface or relatively large surface roughness in this area, these design elements are not suitable because the friction which arises between the bearing surface of the annular part and the support pins during the rotational movement can preclude axial reception.

Another disadvantage is that the radial determination of the annular part in the inner bore takes place by means of investment pins. Due to the manner of radial determination, this device is only suitable for receiving disc-shaped parts with an internal bore.

In addition, it is not very suitable for annular parts with little difference between the diameter of the inner bore and the outer diameter.

In addition, the production of the receiving and driving elements of the known testing device for annular parts requires a great deal of effort due to their relatively complicated design.

Another disadvantage is that a determination of the center of gravity of the annular member by means of this device is not possible by the structural design and arrangement of the receiving elements for the axial and radial determination of the annular part. The reason for this is that a positive guidance is performed by the bearing and abutment pins during the rotational movement of the annular member, so that a required for determining the center of gravity free movement of the annular member can not be done, whereby the scope of this device is limited.

Object of the invention

The object of the invention is to provide a combined recording and drive device for disk-shaped parts, in particular to measuring devices for concentricity, Stirnlauf ™ and flatness and thickness and gravity determination, which compared to the known device of this type allows a more universal use of the meter and requires a lower production cost.

Explanation of the essence of the invention

The invention has for its object to develop a combined recording and drive device for disk-shaped parts of measuring devices for concentricity, Stirnlauf- and flatness test and thickness and focus determination, for the axial and radial determination and for generating the rotational movement of the disk-shaped part with relative few, simply trained components manages their recording and drive elements during Prüfvorg ^ ng

are not subject to the accuracy of the test result affecting wear and allows the examination of disk-shaped parts with and without central bore.

This task is inventively achieved in that the axial determination and the drive of the disc-shaped part by a radially inserted into a receiving ring provided with an annular groove, acted upon with compressed air air nozzle arranged at the front, projecting into the annular groove of the receiving ring nozzle end, preferably in the direction of End face of the disc-shaped part directed radial air outlet opening and the radial determination of the disc-shaped part by a arranged at a smaller distance from the lateral surface of the disc-shaped part, acted upon with compressed air Konkavluftdüse with several, directed onto the lateral surface of the disc-shaped part air outlet openings is effected, wherein the receiving ring with Air nozzle and the concave air nozzle are pivotable together in the plane passing through the longitudinal axis of the concave air nozzle vertical plane. ·

Upon pressurization of the protruding into the annular groove of the receiving ring air nozzle is generated by the air flowing out of the air outlet opening in Jer groove an air flow, whereby the annular groove of the receiving ring covering disk-shaped part axially determined on an air cushion and simultaneously set in rotational motion.

The radial determination of the disk-shaped part is carried out at a pressurization of the concave air nozzle, wherein the air emerging from the air outlet openings is directed towards the outer surface of the disk-shaped part.

Thus, the dependent on the position of the air outlet opening in the projecting into the annular groove of the receiving ring nozzle end, acting on the disc-shaped part torque can be changed, the air nozzle is rotatably mounted in the receiving ring.

According to a further feature of the invention, the receiving ring with the air nozzle and the concave air nozzle are displaceable in the direction of the longitudinal axis of the concave air nozzle, so that disk-shaped parts having different diameters can be tested without changing the spatial position of the measuring means.

267-3 ^ f

In the testing of annular parts may be used for the radial determination in place of the concave air nozzle arranged in the central bore at a small distance from the bore wall convex air nozzle having a plurality of, directed to the bore wall air outlet openings.

The radial determination of an annular part in the central bore is particularly advantageous when a toothing is present on the lateral surface, which excludes a radial determination of the part on the lateral surface.

To increase the accuracy in the frontal examination of the disc-shaped part is immediately adjacent to the air nozzle radially inserted into the receiving ring, independently of the air nozzle switched on and off additional air nozzle arranged opposite the air outlet opening of the air nozzle larger air outlet opening. By a computer-aided Au.iwert mg of the measured value obtained at shutdown and connection of the additional air nozzle, the error caused by small tilting of the axis of rotation of the disk-shaped part can be eliminated.

The receiving and driving device according to the invention for disk-shaped parts has several advantages over the similar device of the prior art.

An advantage is that only three relatively simply formed components are required for the axial and radial determination and the generation of the rotational movement of the annular member, wherein both the axial determination and the generation of the rotational movement of the disc-shaped through the air nozzle in connection with the receiving ring Part is effected. As a result, a relatively low production cost for the production of the recording and drive elements is required.

The non-contact axial determination of the disc-shaped part has the advantage that no friction between the axial receiving elements and the bearing surface of the disc-shaped part can occur and therefore the device according to the invention is also applicable to parts with a slightly textured surface or relatively large surface roughness.

Due to the possibility of a radial determination of the disc-shaped part on its lateral surface disc-shaped parts can be taken idgebestimnit and rotated in rotation with the aid of the device according to the invention idgebestimnit.

A significant advantage of the device according to the invention is also that it allows a more universal use of the measuring device by the inventive arrangement of a compressed-air actuated nozzle system for axial and radial determination and to drive the disc-shaped part over the same device of the prior art.

With the aid of the recording and drive device according to the invention, it is possible to generate a free movement of the disk-shaped part required for determining the center of gravity. This is achieved by rotating the air nozzle arranged in the receiving ring so that the air outlet opening is in the direction of the base of the annular groove, whereby the drive of the disk-shaped part is switched off, but the axial guidance is maintained. With simultaneous shutdown of the concave or Konvexluftdüse aine mobility of the disc-shaped part is achieved, which can be determined by an evaluation of the change of the detected by corresponding measuring means radial components of the center of gravity of the disc-shaped part.

embodiment

The invention will be explained in more detail below with reference to an embodiment.

The drawing shows in

Fig. 1 is a plan view of a combined receiving and driving device for disc-shaped parts

Fig. 2 is a section along the line A-A in Fig. 1st

Fig. 3 is a plan view of a combined receiving and driving device for disc-shaped parts arranged in the central bore of the part convex air nozzle

The device for receiving and driving a disc-shaped part 1 is part einos measuring device for concentricity, Stirnlauf- and flatness test and thickness and center of gravity determination, the details of which are not shown in the drawing.

As is apparent from Figures 1 and 2, the device comprises a mounting plate 2, which is fastened in a suitable manner to a support plate, not shown in the drawing, in the upper end face 3 of which an annular groove 4 is incorporated. In the receiving ring 2 is a radially acted upon with compressed air air nozzle 5 is inserted, which protrudes with its front end of the nozzle 6 in the annular groove 4 of the receiving ring 2. In the region of the front nozzle end 6, the air nozzle 5 is provided with a preferably in the direction of the lower end face 7 of the disk-shaped part 1 directed air outlet opening 8. The air nozzle 5 is preferably rotatably arranged in the receiving ring 2 and provided for the purpose of adjustment by an operator with oinem adjustment pin 9.

At a small distance from the lateral surface 10 of the disk-shaped part 1, a concave air nozzle 11, which can also be acted upon by compressed air, is arranged with a plurality of air outlet openings 12 directed onto the lateral surface 10 of the disk-shaped part 1, the longitudinal axis 13 of the concave air nozzle 11 perpendicular to the longitudinal axis 14 of FIGS Air nozzle 5 is arranged.

As FIG. 3 shows, instead of a concave air nozzle arranged in the region of the jacket 10 of the disk-shaped part 1, a convex air nozzle 16 arranged in the central bore 15 at a small distance from the bore wall can also be provided with a plurality of air outlet openings directed towards the bore wall his.

By Aufnahm3fing 2 with air nozzle 5 and the Konkavluftd ": se 11 and convex 16 are pivotally together in the plane passing through the longitudinal axis of the Konkavluftdüse 11 vertical plane 18 pivotally.

The function of the device according to the invention will be described below.

If a disk-shaped part 1 is to be recorded in a position-specific manner for the purpose of concentricity, frontal running and flatness testing and determination of thickness and center of gravity, the compressed air generator, not shown, is connected in a suitable manner to compressed air nozzle 5, which is supplied via the air outlet opening 8 flows into the annular groove A of the receiving ring 2. As a result, an air cushion builds up under the disc-shaped part 1 covering the annular groove A, so that the part 1 is axially determined. At the same time an air flow is generated by the outflowing air in the annular groove 4, whereby on the lower end face '7 of the disk-shaped part 1 from the position of Lu.i lustrittsöffnung 8 dependent torque acts, resulting in a rotation of the disc-shaped part 1.

The radial determination of the disk-shaped part 1 takes place when the concave or convex air nozzle 1 1 or 16 is pressurized, by directing the air emerging from the air outlet openings 12 and 17, respectively, against the outer surface 10 or the wall of the disk-shaped part 1.

In this case, the receiving ring 2 with air nozzle 5, the concave or Konvexluftdüse 11 and 16 and the appropriately arranged measuring means, which are not shown in the Zeichnunq and may be, for example, CCD cameras, together in the through the longitudinal axis 13 of Concave or Konvexluftdüse 11 and 16 extending vertical plane 18 to the horizontal slightly pivoted, whereby the axially on the receiving ring 2 certain disc-shaped part 1 by the action of gravity against the concave or Konvexluftdüse 11 and 16 moves una in the radial direction without contact is determined.

To arrange the receiving ring 2 with the air nozzle 5 i'itd the concave air nozzle 11 slidably in the direction of the longitudinal axis 13 of the Konkavluftdüse 11, domit without changing the spatial position of the measuring means disc-shaped parts 1 can be tested with different diameters.

For (measurement of the accuracy of measurement in the frontal examination of the disc-shaped part 1 can immediately adjacent to the air nozzle * 5 a radially inserted into the receiving ring 2, independently of the air nozzle 5 switchable additional air nozzle 19 with a relation to the air outlet opening 8 of the air nozzle 5 larger air outlet opening angeordet be a computer-aided evaluation of the measured values obtained when switching off and switching on the additional air nozzle 19 can be eliminated by the error caused by slight tilting of the axis of rotation of the disk-shaped part 1.

A particular advantage of the receiving and driving device according to the invention is that it is able to produce a required for determining the center of gravity free movement of the disc-shaped part 1.

For this purpose, arranged in the receiving ring 2 Lüftdüse 5 is rotated by means of the adjusting pin 9 so that the air outlet opening 8 in the direction of the base of the annular groove A, whereby the drive of the disc-shaped part 1 is turned off, but the axial determination is maintained. By a simultaneous shutdown of the concave or Konvexluftdüse 11 and 16, a free movement of the disc-shaped member 1 is achieved, which can be determined by an evaluation of the change of detected by corresponding measuring means radial components of the center of gravity of the disc-shaped part.

In the case of very thin disc-shaped parts 1, the radial determination can also be effected by means of investment stiffness, against which the lateral surface or the bore wall of the disk-shaped part 1 never rests.

Claims (4)

ίο claims , Combined recording and drive device for disk-shaped parts, in particular to measuring devices for concentricity, forehead and flatness and thickness and gravity determination, with the disc-shaped parts in the axial and radial direction are recorded in position and rotated, characterized in that the axial Determination and the drive of the disk-shaped part (1) by a radially in a provided with an annular groove (A) receiving ring (2), acted upon with compressed air air nozzle (5) with at the front, in the annular groove (A) of the receiving ring (2) protruding nozzle end (6) arranged, preferably in the direction of Stirnfäche (7) of the disc-shaped part (1) directed radial Luftaustrittoöffnung (8) and the radial determination of the disc-shaped part (1) by a slight distance from the lateral surface (10) of the Disc-shaped part (1) arranged, acted upon by compressed air Konkavluftd the nozzle (11) with a plurality, on the lateral surface (10) of the disc-shaped part (1) directed air outlet openings (12) is effected, wherein the receiving ring (2) with air nozzle (5) and the Ko.ikavluftdüse (11) together in the by the longitudinal axis (13) of the Konkavluftdüöe (11) extending vertical plane (18) are pivotable. 2. Device according to claim 1, characterized in that in the receiving ring (2) used air nozzle (5) is rotatably arranged. 3. Device according to claim 1 and 2, characterized in that the receiving ring (2) with air nozzle (5) and the Konkavluftdüse (11) in the direction of the longitudinal axis (13) of the concave air nozzle (11) are displaceable. 11 26? Sinti. Device according to Claims 1 to 3, characterized in that radial determination of disc-shaped parts (1) with central bore (15) by a concave air nozzle (11) or a convex air nozzle (15) arranged at a small distance from the suction wall in the central bore (15). 16) is effected with a plurality of directed to the bore wall Luftaustrittsoffnungen (17). 5. Device according to claim 1 to 4, characterized .gekennzeichnet that immediately adjacent to the air nozzle (5) also radially in the receiving ring (2) used, independently of the air nozzle (5) switched on and off additional air nozzle (19) with an opposite the air outlet opening (B) of the air nozzle (5) is arranged larger air outlet opening. - 1 drawing of this drawing -