DE732480C - Device for measuring grooved workpieces during processing with a device to prevent the probe from falling into the grooves - Google Patents

Description

Device for measuring grooved workpieces during machining with device to prevent the probe from falling into the grooves Measuring grooved workpieces during machining using a feeler device One difficulty is that the movement of the stylus in the period of time must be unpacked where the groove slides past the stylus, otherwise the Immerse the stylus in the groove and, if necessary, it would be destroyed. Further the pointer would swing over the zero point every time X and moreover would go through the frequency of these deflections makes it difficult to read the pointer position, if cannot be made entirely impossible. When running the Meßvor direction with electrical If the pointer deflects too far to make contact, it would trigger prematurely Shutdown device for the machine lead, so that one here still special pulse delay devices must turn on the control device of the machine tool.

By the well-known attachment of a shoe to the stylus, the width covers the groove, it can be achieved that the tip of the stylus is only a few one hundredth of a millimeter into the groove. It is also known the immersion depth of the probe diamond in the groove by means of adjustable stop screws to a minimum to limit.

However, it is much more useful while the groove is sliding past to prevent the same from being immersed on the stylus.

According to the invention this is achieved in that the workpiece comprehensive arms are provided with current-carrying coils that the home The groove slides past the arms in the coils as a result of the enlargement of the air gap occurring change in self-induction the control of the button movement temporarily blocking pull magnet causes.

For this purpose a measuring device of known type with arms is available provided, which encompass the workpiece like small pole pieces and each with a current flowing through it Coil are provided. Dile arms are brought so close to the workpiece that a small air gap remains. When turning the workpiece, the Groove past each of the pole pieces and thus increases the air gap considerably. The resistance in the magnetic flux is thereby increased and here in induces a voltage in the coils. This self-induction emf is used to to excite an electromagnet via an amplifier system, which the stylus or the extension of the same holds in the position just reached.

The locking of the stylus by means of an electromagnet is known per se in electrical precision measuring instruments. In these known facilities but the stylus is moved by the electromagnet from the current measuring position withdrawn into the measuring housing, while in the present case in the front of the Excitation of the pull magnet assumed position is held by this.

The ones caused by changing the air gap in a measuring coil electromagnetic changes serve as a measure in known electrical gauges for determining the thickness of metallic bodies or of non-metallic coatings on metallic bodies.

In Fig. 1, an example system is shown, which in a Measuring device known design is built in organically. I) ile plant exists alongside the measuring device from the following parts. In addition to arms 1 2 and 3 that hold the workpiece touch in a known manner at three points during the measurement, the arms 4 are and 5 are provided, each surrounded by a coil 6. Of the. upper arm 4 is fixed connected to the arm 1 and thus makes the same movements as dileser. Of the lower arm 5 is rotatably mounted in a bearing 7 and can by means of the adjusting screw 8 can be set. The movement of the arm 3 is in a received manner over the Transfer point 9 and the plunger 10 to a dial indicator ii. the one with a feather is provided so that the breath is always under a certain pressure. the workpiece is present. On the sleeve 12, which surrounds the plunger 10 and train] calibrate for its storage serves, an electromagnet 13 is attached to brass rails. Comes while turning of the workpiece holds the groove between the arms 4 and 5, which act as poles now magnet 13 excited the movement of the plunger 1 0. by sending him through the Magnetic force holds in the position it has just assumed. The pointer of the dial gauge cannot deflect further at this point in time and no incorrect measurement results Show. If the groove then moves out of the area of pole arms 4 and 5, The electromagnet becomes the result of the resulting reduction in the air gap 13 immediately ineffective and the plunger 10 released from its blocking.

The circuit of the device can be seen in Fig. 2. In it is in addition to the aforementioned parts, a conventional amplifier system 14 is shown, the is set up separately from the measuring device and is therefore not shown in Fig. 1 became. The magnetic coils 6 are connected to the amplifier system by means of a multi-core cable 14 and from there connected to the network. Inductive currents of 1 millivolt are sufficient completely to switch currents up to 100 watts of power via a moving coil relay or make an amplifier.

Claims (1)

P A T E N T A N S P R U C H: Device for measuring grooved workpieces during machining with a device to prevent the probe from collapsing in the grooves characterized in that the workpiece encompassing arms (4 and 5) are provided with current-carrying coils (6) in this way. that they slide by the groove on the arms (4 and 5 in the coils (6) as a result of the enlargement of the air gap an emerging change in self-induction controls one of the button movement temporarily blocking pull magnet (13) causes.