DE2134848A1 - Device for measuring different diameters - Google Patents

Description

PATENT LAWYERS DR. CLAUS REINIÄND » DiPL-ING. KLAUS BERNHARDT

D-8 KiONCHEN 6 ·

tjfcKERSTRASSE S

233/1

"PLURITEC ITAIIA" S.n.c. Via Unita d'Italia, 1 BOGA (iTovara, Italy)

Device for measuring different diameters

Priority: July 22, 1970 Italy 69525-A / 70

There are several types of electronic measuring devices for outdoor or. Inside diameter of differently designed objects known. In general, such devices consist of two mechanical arms that scan the diameter and Cause changes in capacitances, inductances and resistances. Typically, such devices provide one electrical impulse at the moment when they reach the set measured value; sometimes they also deliver others Signals at values that deviate only slightly from the Hul equation.

The invention relates to a measuring device, the task of which is to provide optical measurements and electrical pulses to deliver measured values that are far from each other. The inventive Measuring device is characterized in that it comprises the following parts: A mechanical unit with large measuring range, a transducer also with a wide measuring range and an electronic device, which the measured values and generates the corresponding signals.

ORiGINAL INSPECTED 209813/0976

The device according to the invention is particularly, but not exclusively, suitable for measuring on grinding machines of diameters that also have sizes that differ greatly from one another; it provides the measured value of the diameter, be it during the set-up time or be it during operation, and also electrical signals for the control of the machine tool, when the setpoint is reached.

The electronic device is equipped with a numeric indicator that displays the measured value continuously, as well as with an adjusting device is provided, on which the measure is determined, when it is reached, the device becomes an electrical one Signal for the control of the machine tool is to emit, so that the saving process ends and the workpiece the desired dimension.

An advantage of the device according to the invention is that it does not require any special setting by means of dimensional patterns for each different diameters to be machined on the workpiece. This is because such a process is very tedious and awkward; it is usually carried out with the aid of sample gauge blocks. In the device according to the invention It is sufficient to key in the desired dimension on the electronic part. This advantage makes the device suitable for the production in small series or of individual pieces or a single diameter is particularly suitable. Usually the commercially available measuring devices are only used for large-scale production, and if different on one and the same workpiece If there are diameters available, several measuring devices must be applied, each of which is on its respective one Value must be set.

The device according to the invention is also characterized in that that it comprises the following main parts:

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I: transducers (inductosyn or resolver) and electronic

Number indicator and measurement setting group;

II: old and alignment frame of the Hesswerk; III: Measuring mechanism :.

The ropes I and II are dean's office, so that the invention refers in particular to the measuring mechanism III, which is described below.

Further details result from the device according to the invention from the following description, which refers to the example drawing, in which are:

i'ig. 1 shows a side view of the measured value and FIG. 2 shows a side view of the complete device old their functional parts.

According to S ¹ Ig. 2, the measuring mechanism III consists of a frame 4 'in which the upper scanner 8 can be displaced, as well as of a likewise displaceable member 6 which carries the lower scanner 6 and the counter pin 7.

For the diameter to be measured, the scanners 6 and 3 and the counter pin 7 are located on the corresponding circumference. The position counter pin 7 has the task of the concern of the scanner 6 and 8 to ensure the diameter of the workpiece. The adjustment of the pins 6,7 »8 to the individual circumference sizes is carried out with a single command through the lever 9» the is articulated on the pin 10, and thus also given by the movement of the said body 3, which is rotatable about the pin 11 and is connected to the lever articulated on the pin 13 (3? ig. 1) can be lifted up. To get an exact measurement you have to the forces old which the upper scanner S and the lower scanner 6 press on the workpiece, be constant and small. The lower scanner 6 is loaded by the balance spring 14, while the upper scanner 8 is loaded by the spring 15.

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It is also necessary that when changing the diameter of the workpiece, the load by the spring 15 remains constant to avoid deformations and yield of different sizes to be avoided with the individual dimensions.

To adapt the scanner 6, J ₁ 8 to the workpiece diameter to be measured, the lever 9 is moved in the direction of arrow a.

The lever 9 is angjalenkt on the pin 10 on which the cams 17 » 18 and 19 are attached.

The cam 17 actuates the lever 16 and causes it via the Rotate part 20 down until it reaches a set size is caused by lifting the cam 17 (around 0.5 mm) is determined.

The cam 18 actuates the lever 21, which is articulated at the pressure point 22 is and by lifting the ring 23, the rod 24 and at the same time the balls 25 of the conical seat of the ring releases.

The free end of the cam 19 presses the rod 24 downwards, together with the body 5 to which it is attached. Then the lower scanner 6, which is attached to the body 5, also moves downwards.

While the body 5 is attached to the rod 26 which is attached to the body 4 is, is pushed along, the pin 27 operates through the slot of the lever 28 as well as that attached to the rod 30 Pin 29 the shift of the. Rod 30 including scanner 7 corresponding to the movement of scanner 6.

The three scanners 6, 7, 8 are therefore always in contact with one and the same circumference of the workpiece.

By turning the lever 9 in the direction of the arrow a, the processes described above are carried out and the measuring mechanism is located in the open state, i.e. ready to be placed against the circumference of the workpiece.

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The operator grabs the measuring mechanism by the handle 31 and places it on the workpiece. Then it rotates the lever 9 in the direction of the arrow b, eo that the scanner 6 _S I ₃ S are pressed against the piece, while the rod 32 remains in its position due to the counteraction of the lever 16?

By turning the lever 9 in the direction, rlc-a arrow b, the locking of the scanner 6 and 7 e: .vriielt after the ring 23 with the pedal 33 -and the balls 25 presses against the rod 24. Further turning of the lever 9 removes the rope 20 from the rod 32, which remains attached to the workpiece under the pressure of the spring 15 *

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Claims (1)

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