DE10055358C2 - Coil spring tester - Google Patents

Description

The invention relates to a testing device for coil springs with a turntable for installation a feather.

A test device according to the preamble of claim 1 is known from the magazine Draht 35 ( 1984 ) 10, pages 528-530.

In the case of cylindrical coil springs, important parameters are the deviation according to DIN 2095 the surface line from the vertical, measured on the unloaded spring, and the deviation in the Parallelism of the ground spring contact surface. These parameters are for the different grades of helical compression springs. These parameters are measured using gauges and lengths measuring devices largely by hand and on samples. This means that the measurements are operator-dependent. A reproducible or documentable production monitoring is not guaranteed.

DE 36 41 292 A1 describes a testing device for coil springs with a device for the centric bracket and for turning the coil springs and with an optical detection unit, which is adjustable in the X-Z direction.

Finally, DE 90 16 362 U1 describes a test device for coil springs, the measured values of which are digitally storable.

The object of the invention is to provide a test device that is reproducible, repeatable and provides documentable results.

This object is achieved according to the invention in that the turntable is a holding device for the central mounting of the coil spring has that on a column on a support head seated optical detection unit is adjustable in the X-Z direction and that the measured values are stored digitally are searchable.

The invention differs from the prior art in that it is largely retroactive coil-free spring is detected by optical measurement without reaction. The meas Values can be stored digitally and thus documented. This means that the entire production can be reproduced be monitored in a cash and documentable manner. A calibration of the test device is possible.

Advantageous refinements and developments are specified in subclaims 2 to 7, namely:
A reliable detection of the coil spring is possible in that the optical detection unit comprises a light box and a digital camera (claim 2).

A proper measurement and testing of the coil spring is ensured that the Turntable has a centering device (claim 3).

A largely non-reactive centering is possible in that the centering device arms pivotable in the plane of the turntable (claim 4).

A reaction-free holder is achieved by the magnetic holder on the turntable or magnetic strips for the coil spring are arranged (claim 5).

Focusing of the optical detection unit is ensured in that the optical Detection unit on arms in the X direction is adjustable (claim 6).

A safe measurement is ensured by the fact that the alignment of the optical detection is unit is possible on an edge of the upper spring support surface (claim 7).

Exemplary embodiments are explained with reference to the drawings, in which:

Fig. 1 is a view of a first embodiment,

Fig. 2 is a plan view of FIG. 1,

Fig. 3 is a view of a second embodiment and

Fig. 4 is a plan view of FIG. 3.

A base plate 1 receives a turntable 2 which can be driven by a motor (not shown ) and a column 3 . The turntable 2 receives a helical spring 5 in a centering holding device 4 . The holding device 4 should have as little reaction as possible on the coil spring 5 . A magnetic holding device or a holding device with adhesive effect is suitable.

On the column 3 , a support head 6 is adjustable in the Z direction. A light box 7 and a digital camera 8 sit on the support head 6 on arms 9 and 10 . This unit is adjustable in the X direction, so that the field of view of the camera 8 can be focused on an edge of the spring support surface. The digital camera 8 is connected to a data processing device 12 via an interface 11 . The data processing device 12 is equipped with image processing software for the image signals of the digital camera 8 as well as with further evaluation programs and storage programs.

The adjustment range of the test device detects coil springs with a coil diameter up to 20 mm and a length of the unloaded spring up to 630 mm. If the design data are changed other measuring ranges are also possible.

After a coil spring 5 is centered on the turntable 2 , the measurement process is called up by the data processing device 12 . The turntable 2 is rotated by a motor through 360 °, so that the full circumference of the coil spring is grasped. The edge area of the spring contact surface is scanned by the digital camera. From this, the computer program determines the deviation of the surface line from the vertical and the parallelism of the spring contact surface. The values are averaged over the scope. The measurement result is classified and saved so that documentation is possible.

FIGS. 3 and 4 show a second embodiment of the invention, which differs in configuration of the turntable 2. At the level of the turntable 2 arms 13 are pivotally mounted about the outer ends 14 . The pivoting is carried out by an adjusting lever 15 and not shown profile guides. When pivoting the inner ends 16 of the arms 13 are moved synchronously, in wesentli chen radially against the center of the turntable 2 . A helical spring 5 is centered on the axis of the rotary plate 2 . On the turntable there are gastric strips 17 or adhesive strips which, after swiveling back the arms 13, hold the coil spring centrally and almost without reaction.

The function of this embodiment corresponds to the function of the first embodiment approximately example.

Claims (7)

1. Tester for coil springs with a turntable for setting up a spring, characterized in that the turntable ( 2 ) has a holding device ( 4 ) for the central mounting of the screw benfeder ( 5 ) that one on a column ( 3 ) Carrier head ( 6 ) seated optical detection unit is adjustable in the XZ direction and that the measured values can be stored digitally. 2. Testing device according to claim 2, characterized in that the optical detection unit comprises a light box ( 7 ) and a digital camera ( 8 ). 3. Testing device according to claim 1 or 2, characterized in that the turntable ( 2 ) has a Zen trier device. 4. Testing device according to claim 3, characterized in that the centering device in the rotating plate plane comprises pivotable arms ( 13 ). 5. Testing device according to one of claims 1 to 4, characterized in that on the turntable ( 2 ) magnetic holder or magnetic strip ( 17 ) for the coil spring ( 5 ) are arranged. 6. Testing device according to one of claims 1 to 5, characterized in that the optical detection unit on the arms ( 8 , 9 ) is adjustable in the X direction. 7. Testing device according to claim 6, characterized in that the orientation of the optical detection solution unit on an edge of the upper spring support surface is possible.