DE4317410C2 - Method and device for contactless measurement of workpieces with large diameter differences on machine tools - Google Patents

Description

The invention relates to a method and a device for non-contact measurement solution of workpieces with large diameter differences on machine tools, as they are used to machine wheelsets on wheelset lathes will.

The method according to the invention and the associated device are both in maintenance, in particular of wheel sets in regeneration - Re profiling, brake disc correction, as well as in the new production of wheel sets and the new tires can be used.

According to DE 40 32 361 A1 "distance measuring head for lathes" are arrangements and Process known using laser technology based on the triangulation principle high measurement resolution in a limited measuring range by suitable choice of Optical focal length and possible adjustment of the prism for workpiece measurement in number lathes, especially attached to the turret, can be used. The high measurement resolution of the laser reaches its opti in the specified measuring range mum. For machines with a large measuring range, however, this is the case Disadvantage that not the entire working area of the machine by the laser measurement range without changing the optical focal length or prism adjustment is covered.

An arrangement of the laser without an additional CNC axis and a measurement value regardless of the position of the laser in the machine coordinates as well the numerical processing of laser measured values with the measured values of the machine NEN axis for displaying the workpiece dimensions are not known.

DE 29 24 573 A1 "Positioning device" describes a method and an arrangement voltage known, in which by means of a measuring roller wheelset profiles and through knife can be detected. The wear on the measuring roller is disadvantageous here and the movable mechanical support elements as well as contamination of the wheelset.

U.S. Patent 5,124,524 includes a laser measurement system with a probe direction that is linearly articulated in mutually vertical axes X, Y and Z in relation is arranged on a reference plane. It turns out to be disadvantageous that a special sensor device for the application of the laser measuring system is necessary, which is articulated in at least three axes and as a laser support head mounted a precision machine device with at least one axis of rotation  must become. Furthermore, a computer must have signals via the sensor receive the respective position of the laser to the measuring point on the object and via computer controlled servo motors the laser beam in several axes to each Align the measuring point vertically on the object.

The aim of the invention is to turn on lathes, especially wheelset machines for railway wheel sets, with a large work area and large plant piece size differences non-contact measurements over the entire area reach the working area of the machine.

The useful effect is that on a measuring section, the measuring range of the laser, without changing the laser data, such as optics focal length or prism adjustment, workpiece measurements carried out with high accuracy by processing the laser measurement values and the values of the plunger position by the machine control regardless of the position of the laser in the Machine coordinate system are.

The arrangement of the measuring laser in the tappet of the wheelset lathe protected against chips.

The invention has for its object to a method and an apparatus develop which non-contact measurements mainly on wheelset torque machines over the entire working area of the machine without Exceeding the usable measuring range Changes to the measuring device be made.

According to the invention the object is achieved in that a measuring laser is adjustable the machine axes is accommodated in a laser holder element. This Laser holder element is located in the plunger, which is connected via connecting elements additional plungers can be moved on a common guide rail. Of the Measuring laser uses the triangulation principle to record the contours of the tool machine clamped workpiece. The measuring laser is in for its adjustment Direction of the Y axis to rotate the X axis and the Y- Swivel axis and fix it. By means of a position measuring system Determine the stroke of the ram on the machine travel axes and via the Laser based on the triangulation principle of the distance to the workpiece and diameter water, radial and flat lay of the same. The measured values wer transmitted to the machine control as an electrical signal. After Signal processing, the measured workpiece size is displayed with the factory set target data and the processing parameters are calculated by the machines control set.

A corresponding device is on the wheel for carrying out the method set lathe available.

The invention will be explained in more detail below using an exemplary embodiment the:

In the accompanying drawings:

Fig. 1 "arrangement of the measurement laser in the tappet"

Fig. 2 "general view of the arrangement"

Fig. 3 "Method for data acquisition and processing".

According to the illustration of FIG. 1 and 2, a measuring laser 7 is taking in an up 8 in the ram 9, which is located above the connectors 10 on a guide member 11 fixed to a support member 1 laser. The height adjustment of the measuring laser 7 is carried out in a range of preferably +/- 4 mm by means of threaded bolts 2 and adjusting nuts 3 , 4 .

The laser beam exit 19 is directed onto the workpiece longitudinal axis Z 12 . The right-angled alignment of the measuring laser 7 to the workpiece longitudinal axis Z 12 is given by threaded bolts 2 , adjusting nuts 3 , 4 and adjusting elements 18 , the pivotability about the Y axis of the laser holder 16 preferably being +/- 2 °. Due to the rotatability of the bolt 5 along the X axis of the laser holder 15 and the locking by means of the taper pin 6 , the Y axis 14 and the Y axis of the laser holder 16 of the measuring laser 7 are brought into agreement. So that the required adjustment of the measuring laser 7 is given in three levels to the machine coordinate system.

After setting up, zeroing the displacement measuring system 21 , the X-axis 13 and the adjustment of the measuring laser 7 on the test standard, distances, diameters, radial and plane impacts on disks within the laser measuring range 20 are measured on the workpiece. At larger distances, the plunger 9 is moved with the measuring laser 7 in the X-axis 13 by a distance Δx 17 , so that the clamped workpiece 25 is again in the laser measuring range 20 of the measuring laser 7 . The path .DELTA.x 17 recorded in the position determination of the ram 9 by means of position measuring system 21 is processed in the machine control 22 , as shown in FIG. 3, with the measured value signal 26 recorded by the measuring laser 7 and on the output / display of the workpiece data 23 as a measured distance. Documented diameter or profile. Furthermore, the machine control 22 determines the processing parameters after evaluation of the data and calculation with stored workpiece target data and transfers them to the tool 27 .

Reference list

1

Laser bracket element

2nd

Threaded bolt

3rd

Adjusting nut

4th

Adjusting nut

5

bolt

6

Taper pin

7

Measuring laser

8th

admission

9

Pestle

10th

Fasteners

11

Guide element

12th

Workpiece longitudinal axis-Z

13

X axis

14

Y axis

15

X-axis of the laser holder

16

Y-axis of the laser holder

17th

Path Δx

18th

Adjustment elements

19th

Laser beam exit

20th

Laser measurement range

21

Position measuring system

22

Machine control

23

Output / display of workpiece data

24th

Machining parameters

25th

workpiece

26

Measured value signal

27

Tool

Claims (2)

1. Method for the contactless measurement of workpieces with large diameter differences on machine tools, in which

• 1. - a measuring laser ( 7 ) detects contours of the workpiece ( 25 ) clamped in the machine tool for machining according to the triangulation principle,
• 2. the measuring laser ( 7 ) is installed in the plunger ( 9 ) of the machine tool and this plunger ( 9 ) is moved parallel and at right angles to the longitudinal axis of the workpiece ( 12 ) as the Z axis,
• 3. - The measuring laser ( 7 ) for its adjustment to the longitudinal axis of the workpiece ( 12 ) in the direction of the Y-axis ( 14 ), rotated about the X-axis ( 13 ) and pivoted about the Y-axis ( 14 ) and thus fixed will, and
• 4. - Signals of a position measuring system ( 21 ) of the machine travel axes with the measured value signals ( 26 ) of the measuring laser ( 7 ) are processed and distance, diameter, radial and face lay of the workpiece ( 25 ) are displayed and / or output and / or processing parameters are defined.

2. Device for the contactless measurement of workpieces with large diameter differences on machine tools, with

• 1. - A measuring laser ( 7 ), which is installed in the plunger ( 9 ) of the machine tool, which detects the contours of the workpiece ( 25 ) clamped in the machine tool for processing according to the triangulation principle, this plunger ( 9 ) being parallel and at right angles to the longitudinal axis ( 12 ) of the workpiece as Z-axis,
• 2. - Means to move the measuring laser ( 7 ) for its adjustment on the workpiece longitudinal axis ( 12 ) in the direction of the Y axis ( 16 ), to rotate the X axis ( 15 ) and around the Y axis ( 16 ) to pivot and so fix, and
• 3. - A machine control system ( 22 ) which processes signals from a position measuring system ( 21 ) of the machine travel axes with the measured value signals ( 26 ) of the measuring laser ( 7 ) and displays and / or outputs the distance, diameter, radial and radial runout of the workpiece ( 25 ) and / or processing parameters.