DE3024334A1 - Measuring internal contours if IC engine bores - using radially axially driven sensor and stored reference values - Google Patents

Abstract

An arrangement for measuring the internal contours of bored holes is esp. applicable to i.c. engine cylinder bores and involve use of an axial and radially driven measurement sensor. The measurements obtained on the subject bores are compared with those obtained using the same sensor on a reference bore and are stored along with different values associated with axial and radial positions in the reference bore. The stored difference values can be used as correction values. The measurement and reference values can be obtained using optional measurement patterns. This is accommodated by using interpolation of the actual measured values. Each sensor can have corresp. storage.

Description

Method and device for measuring the inner contour of bores

The invention relates to a method for measuring the inner contour of bores, in particular the cylinder bores of internal combustion engines, in which the inner contour axially and in the circumferential direction by means of an axially and radially drivable measuring sensor is measured, which can be introduced into the bore.

Such a process is known (IBP Pietszch company publication GmbH, Ettlingen "Inner contour measuring system for tubes and cylinders").

The invention aims to provide a method of the type mentioned at the beginning and a corresponding measuring device with improved accuracy of the measurement result be created.

To solve this problem, the method mentioned at the beginning is used in a method Kind according to the invention provided that the on the bore of the workpiece in question measured current measured values are compared with measured values obtained with the sensor were determined and saved on a measured reference bore.

According to an advantageous embodiment of the method, it is provided that difference values with assignment to the associated axial and radial positions in of the comparison hole can be saved and used to correct the difference between at the comparison bore with the measuring sensor and a high-precision laboratory measuring device obtained pairs of measured values are formed, and that these difference values from the current Measured values are deducted taking into account the assignment mentioned.

With the method according to the invention can be of measuring device to compensate for different measurement errors, in particular from result in out-of-round running of the measuring devices. According to the inventors' findings A single, highly precisely measured comparison hole is sufficient because the measurement inaccuracies of each measuring device than the diameter of the one to be measured Bore has proven independent.

The measurement of the reference bore with the respective probe takes place first of all at the manufacturer, whereby the obtained difference values for Result of the highly precise measurement of each sensor in the form of in a computer memory stored data are assigned. The correction is then made by the user automatically. Both the measurements on the reference bore and on the workpiece are made in two directions in any grid, whereby the number of grid positions depends on the available storage space. The rasterization is preferably carried out along jacket and circumferential lines of the bore wall.

Of course, the grid of the comparison hole agrees with the one do not match with the current measurement in the hole of the workpiece.

The difference values are therefore displayed for the current measurement the closest grid points are searched and the intermediate values, which are necessarily result from the measuring points in the current measurement, interpolated. This is conveniently done with a digital computer. such When using a / computer, which forms part of the measuring device, the difference values in the Store the memory belonging to the computer, with the computer then at the current Measurement of a bore automatically corresponds to the current position of the probe in the Hole associated differential value is determined and subtracted from the current measured value. The result is a corrected absolute value for the deviation of the hole from of the round ideal shape, with measurement errors of the the measuring device practically eliminated and thus very accurate values can be obtained. ~ ~ For the accuracy the measurement is the mounting of the measuring device relative to the one currently to be measured Drilling essential. A measuring device for measuring the inner contour of bores, in particular the cylinder bores of internal combustion engines, with one in the bore insertable measuring arm, which has a particularly axially and radially independently drivable Sensor for scanning the inner contour of the bore carries, as well as with a holder on the component to be measured, which is particularly useful for carrying out the Appropriate method, it is provided that the holder outside of the to be measured Bore is provided, and that the measuring device according to position and direction in the Bracket on a coincident with the desired axis of the bore to be measured Axis position is adjustable.

With the measuring device according to the invention it is achieved that a Out-of-roundness of the bore to be measured unimpeded and unadulterated by the bracket the measuring device is detected. In this case, however, the measuring device is to be measured Component, e.g. a cylinder housing or on a component connected to it, e.g. a cylinder head. This is advantageous compared to known devices, which either provide insufficient measurement information (inside micrometer) or not are transportably supported on their own table.

According to an advantageous development of the invention for the application in an internal combustion engine it is provided that the holder is in the crankshaft bearings of the engine block is supported. A constructive embodiment of this idea is characterized in that the holder surrounds a measuring device Ring, from which interchangeable journals protrude into the crankshaft bearings can be plugged in The bracket can also be attached to other parts of the component to be measured, in an internal combustion engine, for example, be supported on the cylinder head side.

A holder of the measuring device according to the invention outside the to be measured cylinder space is to increase the measurement accuracy also with a Measurement method suitable in which the correction according to the invention is not carried out will.

It is known per se (company publication of IBP Pietzsch GmbH, Ettlingen "Inner contour measuring system for tubes and cylinders"), the measuring device over to support a clamping jaw system on the wall of the cylinder space to be measured itself.

In a measuring device for carrying out the method according to the invention this known holder can also be used with advantage.

The invention is described below with reference to drawings with further Details of exemplary embodiments explained in more detail. They show: FIG. 1 a schematic View of a measuring device according to the invention; Fig. 2 is a longitudinal section through a modified measuring device according to the invention with a holder on the The crankshaft side of an internal combustion engine and FIG. 3 shows a corresponding partial longitudinal section by a further modified measuring device according to the invention with a holder on the cylinder head side of the engine block of an internal combustion engine according to the invention.

In the schematic representation of Fig. 1 is with the letter D denotes the inner contour of a cylindrical bore that is to be measured. A measuring device with a housing 1 is inserted into the cylindrical bore, in which a measuring arm 2 is arranged such that it can be driven in rotation. Along the measuring arm 2 is a Measuring slide 6 arranged to be axially displaceable. The measuring slide 6 carries a radial adjustable stylus 9 with measuring tip 10. The housing 1 is by means of the circumference Evenly distributed arranged clamping jaws 12 can be clamped in the bore D.

In Figure 1, the measuring device described is shown in the working position.

The probe tip 10 of the stylus 9 scans the inner contour D the hole point by point along the surface and circumferential lines of the hole. The measurement result is fed to a computer 30 with an attached memory 31. The memory contains stored difference values that are based on a comparison measurement with the shown Measuring device were obtained in a highly precisely measured comparison bore. These are differential values which by difference formation between the exact measured values of the inner contour of the comparison bore, not shown as well as those measured values obtained with the measuring device shown were obtained in the comparison well. The exact measured values of the comparison bore were obtained using a laboratory device.

The measured values for the inner contour obtained with the measuring device shown D are determined by the computer 30 as follows: The computer 30 calls depending on the current position of the measuring tip 10, the difference values closest to this position from the memory 31, interpolated to the intermediate position assumed at the measuring tip 10 and subtracts the interpolated difference value from the current measured value. Through this the current measured value is corrected in such a way that the radial run-out inaccuracies shown Measuring device or other measurement errors are compensated.

The computer 30 then sends an adjustment signal to a control device 32, which accordingly axially adjusts the measuring slide and, if necessary, rotates it of the measuring arm 2 in the circumferential direction to a new measuring point on the inner contour D triggers. The arrows indicate the directions of signal flow.

The measuring device is shown in detail in Figures 2 and 3, parts with the same effect are denoted by the same reference numerals.

The only difference to the measuring device according to FIG. 1 is in the differently designed holder without clamping jaws 12 outside the inner contour the bore D. This is advantageous in that the measurement is not made by clamping the measuring device is obstructed in the bore and possibly by clamping generated deformations of the bore are avoided.

The measuring devices shown in Figures 2 and 3, which are common to both Versions differ only with regard to the execution of the outside of the bore D arranged brackets have a multi-part housing 1 in which a measuring arm 2 is mounted by means of preloaded precision ball bearings 3.4. The measuring arm 2 is by means of a motor 5, the a stepper motor is advantageous, in Can be rotated. Along the arm 2 is a measuring slide 6 axially by means of a Drive 7 housed in the housing, preferably also a stepper drive, movable.

The measuring slide 6 carries a sensor housing 8, which is radially by hand can be sensitively adjusted to the respective cylinder inside diameter D. The sensor housing 8 contains a radially adjustable stylus 9 with a ruby tip 10. The displacement of this stylus g is converted into an electrical output signal converted, which is a measure of the deviation of the cylinder diameter from a given one Represents diameter.

In FIG. 2, the measuring slide 6 with the measuring sensor housing 8 is pulled through in its upper limit position and dash-dotted near its lower limit position shown, with the inner contour ~ of a cylinder liner 11 along a surface line scans. Due to the independent drives 5,7 in the radial and axial direction can of course also scan on circles instead of along surface lines or on Helical curves can be made pointwise or continuously.

The housing of the measuring device is held by a ring 12 '. In pins 13 are screwed into this ring. The journals 13 are in the crankshaft bearings 14 of the engine block 15 having the cylinders on the internal combustion engine.

The pins 13 are for example by means of threaded pins 16 in the Ring 12 screwed in. They are adapted to other diameters by means of tenons different bearing diameters of the crankshaft bearings exchangeable.

The embodiment according to FIG. 3 differs from that according to Fig. 2 in that the measuring device has a ring 20 of larger diameter than the ring 12 ′ is supported on the cylinder head side 21 of the engine block 15. The ring 20 has a ring of bores 22 near its outer periphery, their arrangement is selected according to the arrangement of stud bolts 23, the ones from Remove engine block 15 to secure the cylinder head (not shown). To the Mounting of the measuring device are first of all spacer sleeves 24 on the stud bolts 23 postponed. Then the on the measuring housing 1 as in the device according to Fig. 2 attached ring 20 pushed on and by means of the free ends of the stud bolts 23 screwed nuts 25 tightened. The spacer sleeves 24 allow that the entire possible stroke of the measuring slide 6 when measuring the cylinder warpage the cylinder liner 11 can be utilized.

The measuring device is in all shown embodiments according to position and direction in its holder, e.g. B. 13,14 in the execution of Figure 2, so adjustable so that its axis coincides with a desired, ideal axis of the bore D in Cover is coming. This adjustment creates the basis for the correction described, d. H. for subtracting the stored difference values from the currently measured ones Values. Adjustment can be made using adjusting screws (not shown). At the The embodiment according to FIG. 2 is made by screwing in at different depths the pin 13 can be achieved in the associated threaded bores on the ring 12.

Instead of on the crankshaft bearings or on the cylinder head side the measuring device can also be supported at another point on the engine block.

It is only important that the support is on the component to be measured respectively.

on an associated component.

Blank page

Claims (9)

Claims method for measuring the inner contour of bores, in particular of the cylinder bores of internal combustion engines, in which the inner contour axially and in the circumferential direction by means of an axially and radially drivable sensor is measured, which can be introduced into the bore, thereby g e k e n n n z e i c h n e t that the current measured on the hole of the workpiece in question Measured values are compared with measured values that were measured with the sensor on a Comparison bore determined and saved. 2. The method according to claim 1, characterized in that g e k e n n z e i c h n e t, that difference values with assignment to the associated axial and radial positions in of the comparison hole can be saved and used to correct the difference between at the comparison bore with the measuring sensor and a high-precision laboratory measuring device obtained pairs of measured values are formed, and that these difference values from the current Measured values are deducted taking into account the assignment mentioned. 3. The method according to claim 1 or 2, characterized in that g e k e n n z e i c It should be noted that the measurements were taken both on the reference bore and on the workpiece in any grid (radial and axial), and that for the current measurement intermediate values are interpolated from bores. 4. The method according to any one of claims 1 to 3, characterized g e k e n n z e i c h -n e t that the difference values in a computer associated with each sensor which is automatically saved during the current measurement of a borehole the difference value associated with the current position of the sensor in the bore is determined and subtracts from the current measured value. 5. Measuring device for measuring the inner contour of bores, in particular of the cylinder bores of internal combustion engines, with an insertable into the bore Measuring arm, which has a measuring sensor that can be driven axially and radially independently in particular for scanning the inner contour of the bore-carries, as well as with a bracket on the component to be measured, in particular for carrying out the method according to a of Claims 1 to 4, characterized in that the holder (12, 13; 20 to 25) is provided outside the bore to be measured (11), and that the Measuring device according to position and direction in the holder to one with the desired Axis of the bore to be measured coinciding axis position is adjustable. 6. Measuring device according to claim 5 for use in an internal combustion engine, in that the holder (12, 13) is in the crankshaft bearings (14) of the engine block (15) is supported. 7. Measuring device according to claim 6, characterized in that g e k e n n z e i c h n e t that the holder comprises a ring (12) surrounding the measuring device, of the replaceable pin (13) protrude, which can be inserted into the crankshaft bearing (14) are. 8. Measuring device according to claim 5 for use in an internal combustion engine, in that the bracket (20 to 25) is on the cylinder head side (21) of the engine block (15) is supported. 9. Measuring device for measuring the inner contour of bores, in particular Cylinder bores of internal combustion engines, with an insertable into the bore Measuring arm, which has a measuring sensor that can be driven axially and radially independently in particular for scanning the geometry of the bore wall, as well as with a bracket the component to be measured for carrying out the method according to one of the claims 1 to 4, characterized in that the holder clamping jaws (11) includes, with which the measuring device in the bore to be measured (D) itself is supportable.