DE750934C - Electrical induction gauge for checking diameters and surface curvatures - Google Patents

Description

Electric induction gauge for checking diameters and surface curvatures -The invention relates to electrical induction gauges for measuring outside and outside Inside diameters and for checking surface curvatures. There are measuring devices for Checking diameters and surface curvatures known with two in one straight line Line movably arranged feeler pins are provided, which on a common mechanical indicator work so that only when there is a change in the relative Adjustment of the feeler pins to each other the pointer of the indicator deflects. As a result this difference formation resulting from the measurement can be used at the same time as the measurement of diameters and the determination of out-of-roundness.

This known principle can of course also be used accordingly then apply when the two guide pins instead of mechanical on electrical Display means act, especially since it is also known, the measurement of clearances perform by means of electrical induction gauges, for example one Choke coil is used, the two core parts of which are designed as feeler pins to the outside and can be moved against each other.

In the case of electrical induction gauges with only one relative movement the two stylus-appealing display a considerable extension of the measuring range to achieve, so that one and the same device measured diameters one after the other can be, which differ significantly in length from each other, is according to the invention at least one of the induction coils together with the feeler pin assigned to it in one adjustable yoke arranged.

1 to 3 is a schematic representation of the invention corresponding disorder shown in exemplary embodiments.

1 shows an induction measuring gauge with two feeler pins 2 and 4 in connection with a tripod. To measure significantly different diameters too can. one coil 7 with the associated feeler pin 2 is displaceable against the other coil S is arranged and can be attached to the stand arm by means of a screw to be established. The keepers. which the two fixed support supports 1 and 3 wear, are expediently interchangeable or mutually displaceable. an adjustment to allow the diameter to be folded.

After setting the two measuring pins 2 and 4 with gauge blocks, you can then after switching one feeler pen with the other alone and with the suffering fixed contact supports in a manner known per se, the determination of uniform thicknesses or curved polygons.

Fig. 2 shows an additional arrangement in basically the same arrangement Choke 11. By means of a switch 10, the coil S can be switched off and switched to Steep the throttle 11 to be switched on. By operating a screw 12 can the resistance value of the throttle 11 changed and thereby the display device on the Worth being brought. which it indicated when the coil S was switched on Counter-displacements of the stylus 4 changes in the measurement display. Is so the cross-section of the test object is exactly a circle, the feeler pin 4 remains in each Position of the test item unchanged. So the display does not change.

If, on the other hand, the cross-section of the test specimen deviates from the circular shape. so the feeler pin 4 executes movements when the test object rotates, which display changes cause.

The fixed contact supports I and 3 in the device according to FIG. 1 and 2 can be formed as strips (prisms), pegs, rollers or the like. Appropriate they are designed as rotatable rollers. which are eccentrically mounted. The eccentric one Storage offers the advantage. that the fixed plant supports jelveils very precisely the diameter to be tested can be set The two throttles 7 and S. whose air gaps 5 and 6 can be changed by the feeler pins are for example connected in parallel to each other. According to the known measuring principle, this results in that the display itur danti changes when the relative setting of the feeler pins 2 and 4 changes to each other. Because the coils 7 and 8 ninct switched so that at Movement of the feeler pins in the same direction as the deflection of the display instrument remains constant, while moving the feeler pins in the opposite direction the deflection of the display instrument changes according to the change in the distance between the Feeler pins change from each other.

Basically the same effect is achieved with an internal measuring gauge Fig. 3 achieved.

The two induction coils are located within a round housing 17 14 and 15 with the ones surrounding them. Cylindrical magnet yokes 18 and 19 housed, which by means of a toothing and an associated worm 20 can be shifted to the left or to the right. The scanning of the test item takes place by means of the feeler pins 2 and, which are movable within the induction coils 4, which the corresponding air gaps inside the coils and thus their resistances change. The housing is provided in a known manner with two fixed contact surfaces, which as hemispheres, cylindrical strips with a semicircular cross-section, etc. Like. Can be formed.

In order for the clear detection of out-of-roundness of the test object the To save switching of an impedance. you can set it up that way. that one feeling influences two resistances, one with the resistance of the other feeler pin and their other connected to a constant resistance is. -There are thus two separate circuits affected, so that the display instrument one circuit shows the diameter of the test object, while a display instrument in the other circuit indicates the out-of-roundness of the test object.

Claims (4)

P A T E N T A N S P R Ü C H E: 1. Electrical induction gauges for checking diameters and surface curvatures with two in a straight line such movably arranged Fiihl -stifte that the deflection of the display instrument only changes with a relative movement of the filler pins against each other, thereby characterized in that at least one of the induction coils together with the one assigned to it Feeler pin is arranged in an adjustable yoke. 2. Electrical gauge according to claim 1, characterized in that that the induction coil (8) assigned to a feeler pin against a constant one Resistor (11) is interchangeable. 3. Electrical gauge according to claim 2, characterized in that that one of the feeler pins has two resistors in separate power and display circuits influenced, one with the induction coil of the other feeler pin and the other with connected to the constant resistance. 4. Electrical gauge according to claim 1 to 3, characterized in that that the two feeler pins (2, 4) together with their iron-locked induction coils (I4, I8 and 15, I9) within an expediently essentially circularly symmetrical Housing (17) arranged mutually displaceable by a worm drive (20) are stored. To distinguish the subject of the application from the state of the art are The following publications were considered in the granting procedure: German U.S. Patent No. 440,405; Swiss patent specification. - 22,638 U.S. Patents ...... - 1 591 260. 1 591 261, 2 030 244.