DD232976A1 - AUTOMATIC MULTI-POINT MEASURING DEVICE, PREFERABLY TO ROTATION SYMMETRIC PARTS AND HOLES - Google Patents

Abstract

The invention relates to a device for automatic multi-point measurement of rotationally symmetrical parts and bores. The invention is universally applicable everywhere, where diameter measurements with single-point measuring instruments on settled waves and in boreholes frequently occur and should be automated. The device for automatic multi-point measurement of rotationally symmetrical parts and bores essentially consists of a basic body with radial guidance in which a measuring beam is moved by means of corresponding movement elements and a drive assembly and by means of which the workpiece secured to the legs of the measuring bracket can be touched. The measurement is carried out via a fixed measuring transducer opposite the measuring scale.

Description

Automatic multi-point measuring device, preferably on rotationally symmetrical parts and bores

Field of application of the invention

The invention relates to a device for automatic multi-point measurement of rotationally symmetrical parts and bores (eg stepped shafts, chuck rotating parts, etc.), whereby an automatic diameter measurement is realized by means of known transducers over a large measuring range Application, whereby the direct coupling with a processing machine in a measuring station is possible.

Characteristic of known technical solutions It is known that diameters of shafts and bores are measured or monitored by two-point measuring devices (fork gauges), especially in grinding. The principle of these measuring instruments based on the diametrical movement of two probes, which realize a two-point probing. Such meters and systems are described in DDWP 63884, DDWP 64575, DDWP 75795 and DSOS 2832369. Here, two sensors are supported by two opposing parallel and oppositely displaceable arms. The one arm is connected to a scale and has a device for scanning the scale graduation, the other arm is connected to a reticle. A fixed scanning scans the division of the reticle and dea about the same length, with the first arm used scale. This results in the immediate determination of the displacement of the two sensors.

The disadvantage of the underlying principle of these solutions is their complex mechanical structure. By using the principle of differential measurement has the disadvantage that these systems can be used in the majority only for a preset diameter. This makes universal use outside tightly tolerated grinding not possible. Pur rotationally symmetrical parts that are produced by turning, the measurement has prevailed by means of rider or prism flow.

Object of the invention

The object of the invention is to provide a device with which an uncomplicated, low-cost, automatable and technologically safe diameter measurement can be made possible, the device having a wide field of application, e.g. for any tolerances on rotationally symmetric parts, to allow.

Explanation of the essence of the invention

The invention has for its object to provide a device for automatic multipoint measurement of inner and outer diameters without pre-set to a defined Maßbei the maintenance of a large diameter range, wherein the application of Einpunktmeßgeräten or systems for the indirect two-point measurement is to be realized.

This object is achieved according to the invention using known probing elements, corresponding movement elements with guide and drive assembly, characterized in that a stable, pivotable Meßbügel, in the leg preferably each probing element is fixed by means of a radial guide in the base body, the moving element and the drive assembly is arranged adjustable against a known transducer, wherein the workpiece is located between the legs. Due to its displaceability, the measuring bow with the attached probing elements realizes the contact of the probing elements with the diameter

of the workpiece. In this case, a probing by the Meßaystem or in a rigid coupling of Meßbügel and measuring system is a reading of the measuring system in the two investment positions.

When using the Meßbügels for the determination of the bore diameter, the measurement is realized in that one leg of the Meßbügels protrudes through a workpiece support plate having a fixed stop pin in the workpiece to be tested. In this case, a radial alignment of the bore of the workpiece is achieved by the directed to the stop pin probing elements. The determination of the measured values also takes place in the probing positions on the workpiece by reading or taking over the measured values.

The inventive device for carrying out an automatic multipoint measurement essentially comprises a base body with a radial guide in which a stable Meßbügel can be moved by appropriate movement elements via a drive assembly radially to the workpiece and thus applied to the workpiece via the attached in the legs of the Meßbügels probing elements can.

The Meßbügel itself can be performed pivotally to the moving element.

embodiment

The invention will be explained below with reference to an embodiment with reference to two drawings. In the drawing show: Pig. 1: the device for automatic multipoint measurement on external punches,

j thirty. 2: the device for automatic diameter measurement on holes.

A substantially consisting of a base body with a radial guide 8 in a measuring bracket 1 with a plurality of probes mounted in the legs 3 thereof existing device is, via a moving member 5 and a drive assembly 6 against a fixed Meßwertauf-

7 moves. In this case, the measuring bracket 1 is moved until the workpiece 4, which is located between the legs 3 of the Meßbügels 1, one after the other with the probing elements 2 is touched. In the installation positions of the transducer 7 is read and determines the diameter.

In the diameter measurement of bores, a leg 3 of the Meßbügels 1 is inserted into the bore of the workpiece 4 and the workpiece 4 on the workpiece support plate 9 through which a seesaw 3 of the Meßbügels 1 protrudes. By the movement of the Meßbügels 1 in the direction of the stop pin 10, the workpiece 4 is aligned. The value of the stop position is taken on the transducer 7 and the workpiece 4 clamped in this position. The measuring bracket 1 with its probing elements 2 is now moved to the second position and read. The measured value is determined from the values of the positions.

Claims (2)

- 5 - Claim for invention Automatic multi-point measuring device, preferably on rotationally symmetrical parts and holes using probing elements acting in the radial direction to the workpiece diameter and corresponding movement elements with guides and drive assemblies, characterized in that a stable, pivotable Meßbügel (1), preferably in the leg (3) a probing element (2) is fixed, by means of the radial guide in the base body (8), the moving element (5) and the drive assembly (6) against a known Meßwertaufnehmer (7) is adjustably arranged, wherein the workpiece (4) between the thighs (3) is located. 2. A device for automatic multipoint measurement according to item 1, characterized in that one of the legs (3) of the Meßbügels (1) through the workpiece support plate (9) having a fixed stop pin (10), in the workpiece to be tested (4) protrudes. For this 1 sheet drawings