DE866401C - Measuring device for thin-walled bearing shells or similar workpieces - Google Patents

Description

Measuring device for thin-walled bearing shells or similar workpieces at the measurement of thin-walled bearing shells or similar workpieces is difficult that this z. B. easily warped and during processing and transport thereby cause incorrect measurements if they are measured in a warped condition. In order to rule out such incorrect measurements, the invention proposes a measuring device before, in which the bearing shell or some other corresponding workpiece is under pressure in one preferably by the shape of two receiving the bearing shell between them Receiving pieces brought predetermined, distortion-eliminating shape and the measurement is then made on the bearing shell. It is useful here at the same time the bearing shell in a position predetermined by stops on the receiving pieces set.

The measuring device, e.g. B. one or more dial gauges are here expediently arranged on the movable part of the device carrying the stamp, the stroke of this part in its end position at which the measurement is made is limited by a fixed stop. The stamp is advantageously made from a sliding piece in the movable part of the device and one at these steered pivotable piece, the axis, around which the pivotable pressure piece can be pivoted with respect to the slider can coincide with the axis of the clamped bearing shell.

To fix the bearing shell, the moving work, in particular resilient stop and the fixed stop with the opposing, in Longitudinal direction of the bearing shell extending end surfaces (parting surfaces) of the same in such a way together that the movable stop by placing it on one end face of the bearing shell this is displaced around its axis until the other end surface rests against the fixed stop and that the measuring device arranged on the movable part of the device determines the deviations the end surface of the bearing shell defined by the movable stop by one Measure setpoint.

In the drawing, an embodiment of the invention is shown, namely Fig. I shows a longitudinal section through the device and Section 2 shows a front view of the device partially in section along line A-B of Section 1.

The bearing block 2 is firmly screwed onto the frame I. He serves as a receiving device for the bearing shell to be measured 3 and is for this purpose provided with a recess 4 which is adapted to the exact shape of the bearing shell and whose diameter corresponds to the exact outer diameter of the bearing shell. On the bearing block 2 is also a plate; 6 screwed on with a stop lug 7.

The upper part of the frame has a vertical direction running, z. B. dovetail guide 8 in which a slide 9 is displaceable is stored. The latter is provided with a toothed rack 10 into which a toothed segment II engages, the one lever arm of a two-armed mounted at I2 in the frame Lever I3 forms.

The piston rod I5 is articulated to the other lever arm 14, which is firmly connected to a piston I7 sliding in the cylinder I16. The cylinder I6 is articulated on the frame at I8. By introducing compressed air or the like. on one or the other side of the piston of the piston lI7 this is up or pressed down, causing the tooth segment bI I clockwise or in the opposite direction Meaning pivoted and the slide g is lowered or raised.

In the carriage g a recess 19 is provided in which a Stamp is slidably mounted. This consists of the piston-shaped slider 20 and a pivotable pressure piece articulated to it by a transverse bolt 21 22, the outer surface 23 of which corresponds to the exact inner diameter of the bearing shell 3; the axis of the surface coincides with the axis of the bolt 21. The slider 20 is pressed downwards by a spring 24 under a certain suitable pressure, so that in the lowest position of the slide g the pressure piece 22 is the thin-walled Bearing shell 3 in this way against surface 4 that has been turned to an exact diameter presses that the bearing shell 3 receives its prescribed exact shape. Any one Stop, e.g. B. a pin 25 is used to make the slide 20 and pressure piece Take 22 existing stamps with you when the carriage g is upward and at the same time secure against turning.

Furthermore, a piston 26 is located in a bore of the slide 9 stored, which is under the action of a spring 27 and one as a stop serving approach 28 has. The latter lies against the one running lengthways End surface (separation surface) 29 of the bearing shell 3, while the other end surface 30 is lays against the fixed stop 7 in the measurement position shown in the drawing. Work with the same end face 29 on which the movable stop 28 rests the other two Füh] pins 3I and 32 of the dial gauges 33 and 34 together. To the The two handwheels 35 and 36 are used to move the feeler pins.

In the frame I below the mounting device serving as a bearing block 2 is a z. B. mounted manually operated lever 37, which with a pin 38 is articulated through a hole in the bracket 2 under the bearing shell 3 engages and serves as an ejector for this after the measurement has taken place.

The measuring process is summarized as follows: The bearing shell to be measured 3 is inserted into the exactly matching recess 4 of the bearing block.

The piston I7 is here in its lower one, the slide 9 accordingly in its upper position. Now compressed air is the lower side of the Piston t7 supplied so that it goes up and by means of the toothing II, 10 moves the carriage g downwards until it touches the stop piece 6 of the Bearing block 2 hangs up. At the same time, the inner surface of the bearing 3 has exactly adapted pressure piece 22 of the stamp is placed on the bearing shell 3, so that this is placed under pressure of the spring 24 and between the surfaces 4 of the bearing block and 23 of the pressure piece 3 is brought into the precisely prescribed form, so that possible distortions of the bearing shell are compensated and eliminated.

Before the slide g has reached its lower end position and during or before the bearing shell is pressurized by the pressure piece 22, the resilient stop 28 has placed itself against the end face 29 of the bearing shell, whereby this is displaced so far in the cylindrical recess 4 that the other end surface 30 rests against the fixed stop 7. The fact that the pressure piece22 around the central axis of the bearing shell, d. H. is pivotable about the pin 2I, can the displacement and the fixing of the bearing shell by means of the stops 28 and 7 also take place when the pressure piece 22 is already completely or completely the bearing shell partially pressured.

The dial gauges 33 and 34 are now set so that the Feeler pins 3I and 32 place the pointers against the end face 29 of the bearing shell set the dial gauges to the zero point, when the bearing shell brought into the exact shape by the receiving pieces (bearing block 2 and pressure piece 22) and is set by the stops 28, 7 in their position and the bearing shell corresponds to exact setpoints. Deviations from these target values can therefore be avoided without further and without i! Measurement errors on clocks 33 and 34 can be read.

After the measurement, compressed air is fed to the upper side of piston I7, whereby the carriage g is raised and the bearing shell 3 is exposed. To make things easier the removal, the lever 37 is pressed down, whereby the bearing shell 3 is thrown out of the recess 4 by the pin 38. Instead of hand can the ejection also take place automatically by the lever 37 z. B. with the lever 14 is coupled in such a way that the pin 38 is raised when the piston moves downward and in the last part of the stroke ejects the bearing shell.

The setting of the dial gauges is expediently done in such a way that Instead of the bearing shells to be measured, the exact dimensions of the bearing shell are given corresponding setting gauge is inserted, whereupon the same processes as when measuring itself, but the scales of the clocks that have not yet been set have been adjusted for so long until the pointers actuated by the feeler fingers 3ir, 32 are at zero.

The movable stop 28 can also be firmly connected to the carriage g be. In this case the stroke of the slide is caused by the contact of the stop limited to the measuring or workpiece itself, which is usually only permissible is if this does not cause any changes in shape of the measuring or workpiece to be feared are. However, it is also possible for the pressure piece 22 or the stamp to rest on the; or workpiece limit the stroke of the slide. In this case, one of the stops is 28 or 7 to be carried out resiliently, unless the type of measuring or workpiece or the type of measurement eliminates the need for such stops.

As a fixed stop 7 in the sense of the invention, a per se resilient or otherwise movable stop, e.g. B. also the carriage g itself or a stop piece attached to this, if the same only in the as Measurement position provided end position assumes a predetermined position.

Furthermore, the upper receiving piece can naturally in kinematic reversal (corresponding to the carriage g or the punch 20, 22) fixed, the lower receiving piece on the other hand, according to the bearing piece, movable or both receiving pieces movable be trained. Likewise, z. B. the type of operation of the device in another Manner as shown and described. Instead of a stamp 20, 22 can e.g. B. also two or more punches arranged next to one another in the carriage 9 be provided.

The receiving piece 2 and the pressure piece 212 can be exchanged in a simple manner are, so that various work or test pieces, especially bearing shells different size, can be measured. If necessary, the facility can in addition to or instead of the measurement, analogously also for the precise processing of a corresponding one Area of the measuring or workpiece, so z. B. the end face 29 of the bearing shell, are used.

Claims (10)

PATENT CLAIMS: I. Device for checking the outside diameter thin-walled bearing shells or similar measuring or workpieces, characterized in that that the bearing shells are brought into a predetermined shape that eliminates distortion, with one of the end faces (30) running in the longitudinal direction of the bearing shell against a fixed stop (7) and with the second, the end face to be measured (29), against a movable stop, so that the movable stop (28) through Apply to one end surface (29) of the bearing shell around its axis until it is in contact the other end surfaces (30) on the fixed stop (7) and that on the the movable stop (28) carrying movable part (9) of the device measuring devices, z. B. Meßnkren - (33, 34), are provided, which the deviations by the movable stop (128) fixed end surface (29) of the bearing shell of a Measure setpoint. 2. Apparatus according to claim I, characterized by a fixed Bearing block (2) with a correspondingly shaped recess receiving the bearing shell (3) (4) and by a correspondingly designed, resilient on a movable part (9) mounted pressure piece (22) such that the bearing shell in the recess of the bearing block brought into its shape and tightened by the spring raft (24) of the pressure piece will. 3. Device according to claims I and 2, characterized in that that with the movable, the pressure piece (22) carrying part (9) at the same time a z. B. resilient stop (28) is connected, which the bearing shell (3) before or during the tightening of the same by the pressure piece against a fixed stop (7) z. B. pushes on the fixed bearing block (2) and thereby determines its measurement position. 4. Device according to claims I to 3, characterized in that that the pressure piece (122) on a movable part (9) of the device Slider (20) is pivotably articulated. 5. Device according to claims I to 4, characterized in that that the axis about which the pivotable pressure piece (22) with respect to the slider (520) can be swiveled caml, coincides with the axis of the clamped bearing shell (3). 6. Device according to claims I to 5, characterized in that that the part of the device carrying the pressure piece (22) also includes the measuring device (33 or 3: +) for the storage shell carries and its end position is limited by a fixed stop (6). 7. Device according to Claims I to 6, characterized in that that the movable part (g) of the device with the pressure piece (22), the movable Stop (29) and the; measuring device (33, 34) by a z. B. hydraulic or pneumatically operated piston (I7) comes into working or empty position. 8. Device according to claims I to 7, characterized in that that the moving part (g) of the device by means of a two-armed lever (1-3, I4) is actuated, which is operated by a pivotable, hinged at one end (I4) from piston (I7) and cylinder (I6) existing device is pivotable. 9. Device according to claims I to S, characterized in that that the movable part (g) of the device is connected to a rack (IO) is, in the up and down movement of the movable part a pivotable tooth segment (11) intervenes. 10. Device according to Claims I to 9, characterized by an arbitrarily or automatically activated ejector (38) for ejecting the measured bearing shell (3) from the receiving device. Attached publications: German patent specifications No. 625 450, 3968I7; | U.S. Patent No. 1,611,441.